Tuesday, 13 October 2020

Reports of Trace Fossils from the Potsdam Group Sandstones of Ontario, Quebec and New York State

 Trace fossils have been reported from the Potsdam Group sandstones of Quebec, Ontario and New York State for over one hundred and seventy years, some from rocks considered littoral, some from eolian dunes, and some from rocks deposited in shallow marine waters.  The most famous trace fossils are undoubtedly the trackway Protichnites and the trail Climactichnites, both of which were brought to the attention of the scientific world by W. E. Logan of the Geological Survey of Canada.  It is interesting to note the change in thinking surrounding trace fossils through time.  Initially, the textures in the rock (e.g. wind ripples, wave ripples) were used to identify the facies of deposition of the trace fossils.   After about 1970 the trace fossils in combination with the textures were used to identify the facies.

For the purposes of this blog posting I am assuming that the reader is aware that the upper Potsdam is now called the Keeseville formation in New York State, called the Cairnside formation in Quebec and called the Nepean (or Keeseville) formation in Ontario.  I am also assuming that the reader is aware that at one time the Potsdam Group included what is now called the Theresa Formation in New York State and Quebec,  and is called the March formation or Theresa formation in Ontario.  The Theresa/March includes many of the same trace fossils as are found in the Keeseville -  Cairnside -  Nepean formation.  I have edited many of the early reports on trace fossils in the Potsdam by deleting references to rocks that  would now be the Theresa - March formation.  

I have tried to keep the reports in chronological order, but fail miserably to do this is a few places as I have tried to group reports under subheadings.  I have not listed all references to Skolithos.  

Protichnites


W. E. Logan  reported on the trace fossil Protichnites from Lower Canada in papers written in 1851 and 1852 and  read before the Geological Society of London, in various annual reports of the Geological Survey, and in his book the Geology of Canada published in 1863.  In a paper also read before the Geological Society of London, Professor Owen (1852) described and named six of Logan’s tracks:

1.  Protichnites septem-notatus    
2.  Protichnites  octo-notatus      
3.  Protichnites  latus      
4.  Protichnites  multinotatus   
5.  Protichnites  lineatus                       
6.  Protichnites  alternans     

The plates of the named tracks that accompanied Owen’s (1852) paper are shown below.

Owen (1852) also included a lithograph showing part of a 12 and ½ foot specimen that Logan had brought to London.

The tracks at Beauharnois, Quebec  were originally reported in 1847 in an article in the Montreal Gazette written by  Mr. Robert Abraham, Editor of the Montreal Gazette, who compared them to the track of a tortoise.   Owen (1851) was of the view that “the foot-prints accord best with those of the Chelonian reptiles ... [and] that the species was a fresh-water or estuary tortoise rather than a land-tortoise.”   Owen (1852) had changed his mind and commented that “I have now the  conviction that they were not made by a Chelonian reptile, nor by any vertebrated animal.   ... [T]he creatures which have left these tracks and impressions on the most ancient of known seashores belonged to an articulate and probably crustaceous genus,  ... and it is evident that the animal of the Potsdam sandstone moved directly forwards ... and not sideways” .  Logan (1863) noted that in view of the “various differences in the tracks, Professor Owen has given separate specific provisional names to several of them, not for the purpose of indicating a positive specific difference in the animals which have impressed them, but for the convenience of reference.”

Logan (1851) first reported tracks  from a quarry on the left bank of the river St. Louis, at the village of Beauharnois, Lower Canada.   Logan (1852) reported five new localities for  tracks: (i) in the field of Mr. Henault, a half mile west of the quarry in which the first impressions were discovered; (ii)  two and a half miles further west at the mouth of the Beauharnois Canal; (iii)  in the vicinity of Point Cavagnol (about 15 miles west of the first locality); (iv) on the  Island of St. Généviève in the St. Lawrence River, south of Montreal Island (about 7 miles north of the village of Beauharnois); and (v) on the Riviere du Nord, at Lachute,  in the Seignory of Argenteuil (about 35 miles north east of the first locality).  Five of Logan’s named tracks came from Mr. Henault’s field.  The sixth,  Protichnites  multinotatus, came from the quarry on the St. Louis River at the village of Beauharnois. 

Subsequent to giving his talks in London, Logan provided other localities where Protichnites tracks were found:
 - St. Ann, Presqu'ile, and St. Elizabeth, Quebec (Logan, 1860)
-  at Perth, Ontario in association with Climactichites (Logan, 1860);
- in Lansdowne and Bastard township, Ontario (Logan, 1852b, page 10)
- about a mile N. W. of Cuthbert's mills on the Chicot in an exposure of fine grained white sandstone  (Logan, 1863, page 93);
 -  on a peninsula on the north side of the Ottawa River, about seven miles below the mouth of the Petite Nation, (Logan, 1863, page 94);
- in the vicinity of Pointe du Grand Detroit in Vaudreuil, Quebec twelve miles west of the locality at the Beauharnois canal (Logan, 1863; Murray, 1852);.

First Report of Diplichnites


Murray (1852, page 67) provides a description of  the tracks from near Pointe du Grand Detroit, Quebec noting they are  “similar to the tracks occurring at Beauharnois, ... [However,t]he groove in the middle between the footprints on each side, so frequently seen at Beauharnois, occurs only in one of the smaller trails.”   The majority of Murray’s tracks from Pointe du Grand Detroit would likely now be identified as Diplichnites.  Pointe du Grand Detroit is now known as Quarry Point and falls in Hudson, Quebec.

Skolithos: Worm Burrows


The trace fossil Skolithos has been widely reported from the Potsdam sandstone in New York state, Quebec and Ontario.    Hall (1847, page 2, Plate 1) reported on the first occurrences of Scolithus linearis from the Potsdam sandstone, noting occurrences in the valley of Lake Champlain and in the eastern part of New York.    Haldeman (1840) had given it the name Skolithos linearus:  James Hall (1847) modified the spelling to Scolithus linearis, changing the spelling from the Greek (Skolithos) to the Latin (Scolithus).   Both Haldeman and Hall considered Skolithos to be a plant–a Fucoid.   

William E. Logan  (1852a ) was the first person to suggest that Skolithos was a worm hole.    Logan  (1852, at page 200) commented that the Potsdam sandstones of Beauharnois county were “abundantly marked over considerable surfaces by what the geologists of New York have called Scolithus linearis,  which consists, where the rock is weathered, of straight, vertical, cylindrical holes, of about an eighth of an inch in diameter, descending several inches, and, where the rock is unweathered, of corresponding solid cylinders, composed apparently of grains of sand, cemented by a slightly calcareous matrix, more or less tinged with peroxide of iron.   Mr. Hall and other American geologists include them among the Fucoids of the rock, but they appear to me more like Worm-holes.”

Logan (1852, 1863) included a measured section from Beauharnois with 23 identifiable sandstone beds (each from two inches to five feet in thickness), two bearing tracks and eleven bearing Scolithus.
 

Climactichnites and Littoral Sandstone


W.E. Logan (1860)  reported on and named the trace fossil Climactichnites wilsoni,  based on specimens collected near Perth, Ontario, suggesting that it was likely the trail of a mollusc.   Below are two photographs of the type specimen of Climactichnites wilsoni from Perth, Ontario that is in the collection  of the Geological Survey of Canada. The slab is a sole marking.   Both photographs are from the collection of the Geological Survey of Canada. The first photograph has T.C. Weston as a scale and was taken in 1880 by J. B. Tyrrell before the specimen was broken on being taken down from the wall for the move of the GSC from Montreal to Ottawa.  The second photograph shows the specimen as it exists today.  The second photograph was taken by  B. J. Botte in about 1960. 




Interestingly, it was in his paper naming Climactichnites wilsoni that Logan (1860) reported that on thinning a large specimen bearing Protichnites tracks from Beauharnois, “it was ascertained that the surface on which the traces were impressed must have been subject to the ebb and flow of a tide.  The surface on which the tracks are impressed and the one immediately beneath, shew ripple-mark ; the next in succession which is about an eighth of an inch below, shews wind-mark, in a number of sharp and straight parallel ridges from two to four inches long and an eighth or a quarter of an inch wide.  These characterize a  considerable surface, and are precisely similar to the marks so familiar to every person who has examined blown sand. The surface must thus have been alternately wet and dry, and the organic remains of the formation being marine, we have thus pretty clear evidence of a tide. ... [Accordingly] The crustacean which impressed the tracks at Beauharnois must have been a litoral animal...” 

Logan (1852) had earlier commented that at Beauharnois  “The ripple marks, which occur on surfaces so close in succession among the track-beds, run in different direction on each surface, as if they had been caused not by a current in deep water, running in one general direction, but by a tide ebbing and flowing... On one surface was observed the natural edge or termination of the ripple-ridges, with a track coming up to it and then ceasing, as if the wave had reached no farther, and one part of the surface had been dry while the water, operating on another close by, had obliterated the track in producing the ripple-mark”.  

Intriguingly, both Logan’s identification of wind ripples and his comment that the Potsdam sandstones at Beauharnois are littoral sandstones were referred to in papers published for over forty years,  but then disappeared from the literature for a number of decades.

W.E. Logan (1860)  also reported Protichnites tracks from Perth and suggested that Climactichnites trails were in the same sandstone as at Beauharnois.   (A Protichnites track is on the giant slab shown above.)

Billings (1865) named a new species of  Scolithus Canadensis from the Potsdam, differentiating it from Scolithus  linearis .
 

Marsh: Protichnites loganus - now Diplichnites


In 1869 Prof. O. C. Marsh described and figured a trackway from Potsdam sandstone on the western shore of Lake Champlain  a short distance north of the village of Port Kent, New York, naming it Protichnites loganus, which was much smaller than most Protichnites tracks  that Logan had reported from Canada and lacked a  median groove.  Marsh described the tracks as follows: “The impressions obtained ...were in two portions, on the same surface, ... [and were] a series of footprints, about six feet in length, consisting of two parallel rows of impressions, separated from each other by a space of about one and three fourth inches, and having an extreme width between their outer edges of two and a half inches.”   Today the track would be called Diplichnites rather than Protichnites.   Below is an extract from the plate that accompanied


Plaster Casts of Protichnites


The Protichnites tracks and Climactichnites trails were viewed as important finds.  By 1882 Queen’s University’s museum in Kingston, Ontario had on display casts of Protichnites found at Beuharnois that had been donated by the Geological Survey, Ottawa.   By 1882  the Redpath Museum in Montreal also had on display specimens of Climactichnites and Protichnites from Perth and casts presented by the Geological Survey.  In 1884 and 1907 Laval university reported that it had on display a collection of plaster moulds of prints of Protichnites from the Potsdam sandstone given by the Geological Survey of Canada.  Similarly, Amherst College of  Massachusetts Plaster had casts of Protichnites donated by William Logan.   As well, in 1888 Walcott attended at the Geological Survey’s Museum in Ottawa to take casts of the Protichnites specimens for the Smithsonian.  

 The plaster casts of Logan’ specimens of Protichnites at Amherst College were reported on by MacNaughton and Hagadorn (2006) and Hoxie (2005).

The Protichnites tracks were also visited on outings by both the Natural History Society of Montreal and the Ottawa Field-Naturalists Club (See Ami, 1892, 1893, 1899).

First Report From Ausable Chasm


In 1883, Mr. W. F. Ferrier reported tracks on the Potsdam sandstone at Rainbow Falls,  Ausable Chasm in Essex County, New York.   One track consisted of “two narrow furrows about a quarter of an inch apart, with a rim of punctiform impressions about an inch distant at either side. ...   Another is a trail about an inch in width, marked with transverse furrows and ridges, perfectly simple, and without any median ridge.” 

 While Ferrier’s tracks were found in sandstone, it is possible that ‘Potsdam sandstone’ of Ferrier might be Theresa sandstone as he noticed  the gastropod “Ophileta (probably O. compacta, Salter)” in some beds, and because in 1891 the Potsdam included what we know call the Theresa.   That said, David Lowe has told me that he found gastropods in outcrops of  Nepean/Keeseville sandstone a few kilometers east of Perth, Ontario;  Liberty (1971) reported Ophileta compacta from Potsdam sandstone near Kingston, Ontario;  Wolf and Dalrymple (1985, p.115) report rare fragments of gastropods in the Potsdam; and  Hagadorn and Belt (2008) reported finding traces in the Potsdam sandstones of the Au Sable Chasm similar to those reported by Ferrier.

Ontario and Quebec (1888-1914) - Mainly By Ells and Ami

 
Numerous papers and  reports issued by paleontologists and geologists (primarily associated with the Geological Survey of Canada) in the period from 1888 to 1914 include reports of Scolithos, Protichnites and Climactichnites in the Potsdam sandstones of Eastern Ontario and Quebec, including:

- Ami and Sowter (1888) reported collecting specimens of Scolithus Canadensis, Billings and Scolithus linearis, Hall from the Potsdam formation on an excursion to Buckingham, Quebec, with Mr. Ami opining “that  that the main difference existing between these two species lies principally in the preservation, S. Canadensis B, occurring as hollow tubes or burrows, whilst Hall's species is found as casts of the interior of the burrow or hole. ... In comparing the form S. linearis, Hall with the species recorded from the Potsdam formation of L'anse au Loup, Que. (See Pol. Foss. Billings, Vol. 1, P. 2), they are found to be exactly similar and cannot be differentiated.”

- Marcou (1889) reported that “near St. Cuthbert [, Quebec, the Potsdam sandstone] is seen to be represented by a white sandstone, as at Keeseville, containing marks of Protichnites”.

- Dawson (1890) figured two slabs of Potsdam sandstone collected near Perth, Ontario that had been collected by Mr. James Richardson  in about 1882. The large slab  bears both Climactichnites and Protichnites  and  was, and still is, on display at the Peter Redpath Museum in Montreal.   Below is the plate from Dawson’s paper.  The large slab is about seven feet  ( over 2 meters) high. The large slab represents the bed sole, while the small slab on Dawson’s plate is from the bed surface. 

Below is a photograph of the actual specimen taken at the Redpath Museum.

Dawson (1890) also figured the upper surface and a sectional view of a slab of Potsdam sandstone from Perth, Ontario showing Scolithus, and commented that Scolithus  is very abundant in the Potsdam of St. Anne's on the Island of Montreal. 

- Ami (1893) reported that on a geological excursion  to  Montebello he had observed on the Presqu'ile north of Squirrel Island “an interesting exposure of the Potsdam terrane, showing rippled-marks in abundance, besides the tracks and trails of marine animals (Protichnites septemnotatus, Owen)” noting that the “exposure of the Potsdam presents a bold bluff of from ten to twenty-five feet front in height.”

- Ami, (1894) commented “The higher beds of the [Potsdam] formation in the Ottawa Valley are finer grained, and have the grains of quartz in the sandstone less coherent, and the beds them-
selves are less massive and reduced in thickness, often presenting the well known tracks of Protichnites as at Montebello, Papineauville and above that again, eight miles below the mouth of the South Indian River.”

- Ells (1895), when discussing the Potsdam formation of  Quebec and eastern Ontario, commented that “in fact the whole of the sandstone formation proper, is entirely destitute of organic remains in so far as yet known, with the exception of the peculiar marking called scolithus concerning the origin of which nothing has yet been definitely ascertained, and certain tracks or impressions regarded as produced by some species of crustacean, the remains of which have, however, never as yet been found in the rock mass. In the upper portion the scolithus markings are rather better defined.”

- Ami (1896) commented that “The characteristic fossils of the Potsdam formation in the Ottawa Palaeozoic Basin comprise the following tracks or trails of marine organisms : — Climactichnites Wilsoni, Logan, Protichnites octo-notatus, Owen, P. lineatus, Owen, Scolithus Canadensis, Billings.”

- Ami (1901), from a quarry in Potsdam sandstone, between Papineauville and Montebello, along the Ottawa river, reported both Protichnites lineatus, Owen, or a closely allied form, and Protichnites septem-notatus, Owen, while in an accompanying report Ells (1901) noted  “the peculiar fossil known a Scolithus” while Ami (1902) noted that many of the surfaces show “ripple marks and other phenomena of wind and wave action.”

-Ells (1902) reported Scolithus in an outcrop of  Potsdam sandstone in March Township while mapping the City of Ottawa and vicinity stating that “the sandstones are filled with Scolithos markings which are the only fossils yet recognized in this part of the formation in this district.” 
(The sandstones in this district were the ones that became Alice Wilson’s ‘Nepean Formation’.)

- Ells (1903),when reporting on the Kingston, Ontario district, mentions (a) for the Potsdam sandstone at Gildersleeve's quarry that “ No fossils are found in the sandy beds, with the exception of Scolithus markings”; and (b) “About the village of Battersea ... The sandstones are frequently penetrated by cylindrical markings which are probably the Scolithus linearis of Hall”.   (Gildersleeve’s quarry is now known as the Hughes quarry and is famous for the cylindrical forms now generally considered to be water expulsion features. Interestingly, the sandstone at the Hughes quarry is mainly eolian.)

- Woodworth (1903, page 966) reported that “Small partly effaced trails of Climactichnites were seen on the glaciated surface of the Potsdam sandstone in the road gutter on top of Covey hill, in [Quebec,] Canada, about two miles west of the Covey Hill postoffice. ”


- Ami (1904) provided a list of fossils from the Potsdam sandstones in the  Perth area of Eastern Ontario, noting the specimens of (A)  “1. Protichnites, sp. A form allied to P, septem-notatus Owen. 2. Climactichnites Wilsoni, Logan” collected by Sir W. E. Logan and Dr. James Wilson from near Perth; (B) “1. Fucoids, 2. Scolithus Canadensis, Billings, 3. Lingula acuminata” from the Township of Bastard, north of Beverly, Ontario; and  Scolithus Morrini, Dawson from Perth, Ontario.

Walcott (1914 at pages 259 - 277), collected specimens of Protichnites (plates 46 and 47) and Climactichnites  from Rogier’s farm just west of the town of Beauharnois, including a very large, three ton, slab of Climactichnites (with Protichnites) a photograph of which  is the frontispiece to Yochelson and Fedonkin’s (1993) paper.   

 Walcott (1914) included two plates, 46 and 47, of trifid footprints on either side of a median furrow on two slabs of Potsdam sandstone from Beauharnois, Quebec.  Walcott identified the trail as Protichnites septemnotatus Owen.   Below are Walcott’s plates 46 and 47:


Early Reports of Climactichnites and Protichnites from New York State


Others have reported on Climactichnites and Protichnites trackways from the Potsdam sandstone.


- Walcott (1891, page 344) reported Protichnites in a section at Keeseville,  in Au Sable Chasm, New York State,
- Hall (1889) reported Protichnites trails from Port Henry, New York .  (Port Henry of about 40 miles south of Port Kent.)
- Van Ingen (1902, page 539) reported finding Climactichnites wilsoni in sandstone at the top of the Birmingham fall at the head of the Ausable chasm in the Keeseville (Lake Champlain) region of New York State and reported (1902, page 544) “numerous irregular, unidentified worm borings and trails"  .
- Woodworth (1903, Plates A and B) and Clarke (1905)  reported on Climactichnites from Bidwell's Crossing in Mooers township, Clinton County, New York, where the Climactichnites trails show terminal oval impressions and the trail lacked the medial furrow of Logan’s specimens.   Woodworth suggested that the trail had been created by the flexible muscular foot of a crawling mollusk.  Clarke reported on collecting a large slab (30 feet long by 10 feet wide)  from Bidwell’s Crossing, Mooers township.  Below is an extract from Clarke’s (1905) plate showing the terminal oval impressions on the large slab from Bidwell’s Crossing, Mooers township.


- Clarke (1903, p. 539) reported Climactichnites in Potsdam sandstone in the Keeseville region, in the Ausable Chasm between Devil’s Oven and Alice Falls and “numerous unidentified worm borings and trails.”

- Cushing et al. (1908), in their report on the Geology of the Thousand Islands Region,  mentioned that “With the exception of the long trails of an unknown animal, to which have been found in the sandstone 1 mile west of Theresa, no fossils  have been found in the formation”, citing  Woodworth’s (1902) report of Climactichnites.

- Chadwick (1920) in his report on the Paleozoic rocks of the Canton Quadrangle,  New York State mentions that “Just south of the white ledge [on the south bank of the Grass river] lies a large rectangular block that shows a few sinuous worm trails, the only fossil seen in the ‘Potsdam’ rocks of our area.”   [Based on his map this is 4 miles south of Canton]

- Walcott (1914) reported that he collected in the Ausable Chasm  from near the type locality     where Marsh had collected  Protichnites loganus   and found “several slabs of the sandstone with many tracks on them. Some of these have a median trail or furrow ... . That some series of tracks are without the median trail indicates that the animal that made the tracks kept well up from the sand, while others that may have been heavier or weaker touched and dragged some portion of the median dorsal surface or the caudal furca along on the sand.”   While Walcott identified the specimens as Protichnites loganus in the text accompanying plates 48 and 49, it is clear that this is not the Protichnites loganus of Marsh.  Here is one of Walcott’s plates showing part of one slab that he collected from the Ausable Chasm.  At least six trackways, all with a median groove, are present.





- Fisher (1956) reported on the geology of the Lake Champlain area and commented that the Potsdam has yielded the “enigmatic Climactichnites, probably an arthropod trail” but did not otherwise comment on the trace fossils in the Potsdam. 

Comments on the Origin of Climactichnites and Protichnites

 
Clarke and  Ruedmann (1912) suggested Eurypterida as possible tracemakers for  Climactichnites traces in  New York State, noting that Packard (1908) had also suggested this.
 
Grabau (1913, page 1091) commented  “At the end of a peculiar trail on the Potsdam sandstone of New York, known as Climactichnites, Woodworth  has discovered an oval impression which he considers to have been made by the animal in resting.   This may possibly represent the collapsed burrow.”

Burling (1917) looked at Protichnites (Figure 1) and Climactichnites (Figures 4, 5)  trails from the Potsdam sandstones of Ontario and New York, and concluded that “That Protichnites was made by a short, low-lying, and more or less heavy set, approximately 12-legged crab-like animal, and
that Climactichnites was made by the snail-like creep of a flexible slug-like animal which was frequently stranded at low tide, but was able to swim in the waters of the full tide.”

In 1925 Othenio Abel (an Austrian Paleontologist)  visited North America and examined the large slab of Potsdam sandstone bearing Climactichnites  from Bidwell's Crossing, Clinton County, New York [see: Abel 1926, pages 382-383, Figure 244; Abel, 1935, pages 244-249,  Figures 214, 215].   Abel (1935) concluded [my translation] “However, there can hardly be any serious doubt that the oval impressions, which can be observed either alone or at one end of a track on the large plate of Bidwell’s Crossing, must be regarded as the footprints of large gastropods. ...The oval footplate impression, which represents the respective end of the tracks, as can be seen on the large sandstone slab of Bidwell’s Crossing, corresponds exactly to the extent of the footplate...It is easy to imagine that the Climactichnites trail originates from a shell-less gastropod.”  

Interestingly, Abel (1935, page 252) proposed that a Silurian Protichnites trackway from Norway was made by an Eurypterid, relying on a Norwegian paper by Johan Kiaer (1924).

Reports from Quebec (1944 - 2016)


Clark (1944)  for the Potsdam in Quebec reported that “The sandstone is, on the whole, a `barren' rock. The giant trails Climactichnites and Protichnites are to be seen in a dozen localities. The  smaller burrow, Scolithus, is present in probably half the exposures. Actual remains are restricted to small brachiopods, of which only Lingulella acuminata  has been reported from Quebec.” ...  “The sands of the Potsdam formation were the playthings of the waves and currents of the Upper Cambrian sea. The ever-present cross-bedding indicates not only the mobility of the sand grains but the vacillation of the waters. Possibly the tides ebbed and flowed over a wide off-shore platform, where one day's deposit of sand could be shifted from its resting place to another on the following day. Exceptionally high tides would build up bars, behind which orderly sedimentation could go on unimpeded by tidal fluctuations. And, too, in such sheltered lagoons, the organisms responsible for Climactichnites, Protichnites, and Scolithus could pursue their lives and leave behind them a permanent record of their existence.”

Clark and Usher (1948) reported abundant Climactichnites trails at a quarry in Potsdam sandstone at Melocheville, which is about 3 km to the west of the original quarry at Beauharnois where Abraham (1847, 1851)  and Logan (1852, 1853) had observed Protichnites and west of where Walcott had collected Climactichnites and Protichnites specimens.  However, Clark (1972) reported that the quarry floor was “covered by stockpiles of crushed stone”   while  Yochelson and Fedonkin (1993) comment that “the floor is now covered with debris and part of the quarry has been refilled with slag from a nearby aluminum reduction operation.”

In a thirty year period dating from 1952  the Province of Quebec’s geology branch mapped the Potsdam Group (and other Paleozoic) rocks in Quebec and reported on its trace fossils:
-  Clark (1952, 1972a) reported the trace fossils Scolithos, Climactichnites and Protichnites in the Potsdam in the Montreal region, commenting that “Protichnites can be seen on Dowker Island. Skolishos is common throughout. ... On the sandstone flats immediately below the Buisson Point dam both Climactichnites and Protichnites have been reported (Clark 1963, pp. 99-101).”
- Clark (1966) reported the trace fossils Climactichnites wilsoni, Protichnites, Arenicolites, Scolithus and Gyrichnites in the Cairnside formation of the Potsdam Group in the Chateauguay region;
- Globensky (1981) reported Arenicolites (Figures 13,14) in the Cairnside formation in Huntingdon,Quebec;
- Globensky (1986) reported Arenicolites (Figures 77, 78, 103, 111), Scolithos  (Figures 79), Climactichnites wilsoni  (Figure 119), and Protichnites in the Cairnside formation of the Potsdam Group in the region of Saint-Chrysotome and Lachine;
- Globensky (1982a) reported Protichnites (figure 10) and Climactichnites (figure 9) in the Cairnside formation in Lachute, Quebec;

-Globensky (1982) reported poorly preserved Skolithos sp. (figure 14) for  the Cairnside formation in Vaudreuil, Quebec; while
-Globensky (1987) reported Arenicolites (Plate 2-C and -D), Scolithos, Climactichnites wilsoni (Plate 1-A and -B), Protichnites octonotatus (Plate 2-A),  Gordia (Plate 2-B) and Palaeophycus   in the Cairnside formation of the Potsdam Group in Basses Terres du Saint-Laurent.

Yochelson and Fedonkin (1993) state that  “Globensky (1987,  pl. 1) reported and illustrated several large trails of Climactichnites on outcrops about 45 km west-northwest of Montreal, Quebec, approximately 2 km north from the village of St. Hermas . We were able to examine those specimens, and found another nearby bedding plane, no more than a meter different in stratigraphic level, upon which were additional examples; Protichnites is also abundant at this locality.”

Salad Hersi  and Lavoie (2000b) for Cairnside formation sandstone south of Montreal, Quebec report “vertical (Skolithos sp.) burrows (Fig. 4C) , ? Climatichnitessp.  trace  fossils   . ...  Some beds show pervasive biogenic reworking of the sediment, producing a densely packed burrow  network  similar  to  the Ophiomorpha ichnofabric  of Bottjer and Droser (1994)”

Hoxie (2005) reported on Protichnites trackways near Melochville, Quebec at Les Carrieres Ducharmes and La Carriere Sud-Ouest, two active Potsdam sandstone quarries, and provided a photomozaic (Figure 9A) of a  surface  from Les Carrieres Ducharme  covered with exceptionally long Protichnites tracks.

Hofmann and Chartier (2006) in a geological field trip guidebook for the Montreal area have stops at Melocheville, Pointe-Du-Boisson and the Beuaharnois Locks to look at Climactichnites, Protichnites, Arenicolites, Skolithos, Palaeophycus in Cairnside orthoquarztites.

Lacelle, Groulx and Racicot (2009) in a geologic field trip guide describe a number of localities of Potsdam sandstone at Melocheville (Beauharnois), Québec which display the trace fossils Arenicolites, Climactichnites, Cruziana, cf. Didymaulichnus, Diplichnites, Gordia, Palaeophycus, Phycodes, Planolites, Protichites, Rusophycus, Skolithos, cf. Teichichnus,

Collette and Hagadorn (2010) and Collette, Hagadorn, and Lacelle (2010) reported on a large slab of Potsdam sandstone which contained 28 well-preserved specimens of an euthycarcinoid which they named Mictomerus melochevillensis preserved along with their trace fossils, cf. Didymaulichnus traces – gently curved, meandering, or arcuate, weakly bilobate surface furrows, peserved in convex hyporelief .  The slab was collected at  Melocheville, Quebec (now part of the city of Beauharnois) .   They suggest that the slab represents stranding of arthropods by high water as the tide receded or a storm surge.

Hagadorn, Lacelle,  and Groulx (2012) reported on Climactichnites, Diplichnites and Protichnites  trackways; small, bed-parallel furrows, cf. Archaeonassa; and shallow bed-penetrating non-spreiten cf. Teichichnus burrows (all figured); in sands “consistent with deposition in emergent to extremely shallow sandy marine settings”  in the upper  Potsdam Group sandstone at Mirabel, Quebec.  They concluded that “ that large euthycarcinoid arthropods, soft-footed molluscs, and perhaps other animals inhabited the intermittently emergent sand flats of southern Quebec”.

Lacelle, Hagadorn and Groulx (2012b) reported  Protichnites, Climactichnites, Archaeonassa, Arenicolites, Didymaulichnus, Diplichnites, Gordia, Musculopodus, Nenoxites-Scalarituba, Phycodes and cf. Teichichnus traces in the Cambrian Keeseville Formation (Potsdam Group) at Beauharnois, Quebec, and suggested that the trace “fossils  were produced in shallow marine to intermittently emergent sand-dominated coastal environments.”

Splawinski,  Patterson and  Kwiatkowski (2016) reported Diplichnites trackways  (figure 7A), “Phycodes (Figure 7 C, D) traces show horizontal feeding burrows with broom-like branches radiating from the central burrow” and “Unidentified horizontal burrows (Figure 7 E, F)”, in the Cairnside formation of the Potsdam sandstone at Beauharnois,  Québec, noting that they found  “sedimentary structures and trace fossils indicative of supratidal, intertidal, and shallow-marine lithofacies.”

Back to Ontario

Keith (1946) when describing the Potsdam sandstones of Frontenac, Leeds, and Lanark counties, Ontario, mentions that “Many of the calcareous beds [of the Potsdam sandstone] are filled with
fossil-worm burrows about 2 mm. in diameter; these have a nearly vertical attitude and are probably Scolithus linearis.   Calcareous sandstones of the overlying March formation have a blue-grey colour, weather to brown, and contain predominant dolomite rather than calcite.”   In a section of Potsdam sandstone from the Newboro area he reports “The sandstone exposed here is mostly a white quartzitic variety, except for a 12-inch "scolithus" bed near the top of the section.”   He also reports a 2.4 foot layer of “Buff-weathering sandstone with vertical worm-burrow casts”in Potsdam sandstone south of Lyndhurst.
 
Intriguingly, Alice E. Wilson’s (1946) only mentions of trace fossils in her description of the Nepean formation are the sentences (at page 12 and 16)  “There are also a number of tracks, some having a width of 3 to 4 inches, made presumably by some animal. ... As indicated previously, the fossils are limited to the tracks of some unknown creatures and to a linguloid form, Lingulella acuminata.  Most of the tracks occur near Beauharnois, Quebec. One, near Perth, Ontario, and a very few from New York are also cited.”    Wilson (1937) in an unpublished report on the Paleozoic rocks of the Ottawa area, when discussing the Nepean sandstone, mentions that “basal layers, exposed at one locality only, are from one to two feet in thickness, very closely cemented, almost quartzitic in their denseness, and riddled in places with the peculiar perforations generally called Scolithus canadensis.”    Wilson (1956) in her field trip guide to the Ottawa District includes as Plate 1, Figure 1 a photograph she described as “Scolithus canadensis (Billings), supposed to be a worm boring, occurring in some places in the Nepean sandstone”, and in the text of her guide notes that “The Nepean sandstone ... is riddled with these burrows in some places.”  She directs one to an outcrop south of Eagleson’s Corners (west of Ottawa) for “Nepean sandstone outcrops filled with these ‘worm’ holes.”

Wynne-Edwards (1967, page 121) when describing the Nepean sandstone formation of the Westport, Ontario area notes that “vertical tubular structures, 1/8 to 1/4  inch in diameter and about 1 inch long, which occur at several horizons in dolomitic layers in the sandstone, are believed to represent worm burrows or tubes built by phoronids, and are referred to as Scolithus.”

Lewis (1971) postulated that “Cairnside  seas  in  Quebec and Ontario were probably very shallow.  Structures and textures are compatible  with beach and tidal environments. Tidal influence, originally  inferred by Logan (1860, p. 208 ), is indicated  in  places by herringbone  cross  bedding and various tracks and trails (Logan 1860;  Burling 1917; Clark and  Usher 1948). The presence of Skolithos (Clark 1966) in this quartz sandstone may also be indicative;  such  associations  have  previously been found in transitional (nonmarine to marine) and littoral sequences”. [Some references omitted]

Greggs and Bond (1972) reported for the Nepean sandstones of Eastern Ontario that “The dominant expression of organic activity is the bioturbation developed in many of the beds. At some horizons, excellent burrows of Skolithos sp. and Diplocraterion sp . are preserved (Fig. 2). Skolithos sp. is the more  abundant, expressed as infilled burrows ~2 cm long and 2-4 mm in diameter. This form becomes most abundant near the top of the  Nepean Formation, and throughout seems to be virtually restricted to the upper few inches of each sandstone bed.  In some of the thinner  beds, evidence is available for several phases of burrowing activity; only the most recent of these burrows are moderately well-formed.  The less abundant burrow form, Diplocraterion sp., demonstrates apparently exclusively, the protrusive Spreite form; the absence of retrusive Spreite would seem to suggest that sedimentation was discontinuous and that the supply of sediment and the hydrodynamical intensity were variable ... The restriction of burrowing activity to the upper few inches of sandstone beds suggests rapid deposition of sand, followed by a lull in sedimentation which permitted widespread colonization and development of the burrowing organisms.”

Bond and  Greggs (1973) looked at the Nepean Formation of the Potsdam Group west and  north of Brockville, Ontario and reported that “The upper beds of the Nepean  show well developed burrowing and bioturbation; in some beds, excellent Diplocraterion sp. burrows are preserved.” 
 
Greggs and Gorman (1976) assigned the Nepean sandstones of the 1000 Islands region  a shallow water deposition environment and reported that “The bioturbation of many of the sandstone beds is generally so extensive as to obliterate individual burrows, but at some horizons excellent burrows of Skolithos sp. and Diplocraterion sp., are preserved. (Plate 3) Skolithos sp. is the more abundant, and is expressed as infilled burrows approximately 2 cm long and 2-3 mm in diameter. These burrows become much more common near the top of the formation.”

Wolf and Dalrymple (1984, 1985) divided the Potsdam Group in the Kingston-Brockville-
Big Rideau Lake area of Eastern Ontario into various facies.  In an eolian facies characterized by sandstone with very large-scale crossbeds  they reported Protichnites.    In a tide-dominated marine facies characterized by alternating crossbedded and bioturbated sandstone they  reported (A) discrete vertical burrows (Skolithos, Diplocraterion, Arencolites and Monocraterion) in the crossbedded part, and (B) in the bioturbated portion “Where discrete burrows can be identified, they are primarily horizontal types (Palaeophycus, Phycodes, and Teichichnus), except in a small number of pipe-rock beds situated near the top of the formation which contain abundant Arenicolites.”   In a storm-dominated, shallow marine facies “characterized by repeated, parallel sided beds with thicknesses from a few centimetres to approximately 0.2 m.” they reported that “Both Diplocraterion, and Bergaueria burrows are present within this interval, and horizontal Treptichnus traces have been seen on the bases of some beds.”   For a cross-bedded, braided fluvial, deposit they reported sporadic Skolithos burrows.

Harding and Risk’s (1986) electron microprobe scans across Skolithos burrows collected from the Nepean Formation near Kingston, Ontario revealed a zone of concentrations of iron, aluminum, copper and nickel at the burrow margins.

Bjerstedt  and  Erickson (1989) identified an interesting burrow in Nepean sandstone at  Browns Bay Provincial Park, which is west of Brockville, Ontario.  They reported that the outcrop “contains abundant large escape burrows identical to those illustrated by Frey and Pemberton (1984, Fig. 2G).”  [Added Aug. 7, 2021:] I was able to purchase  a copy of Frey and Pemberton’s paper. Their figure 2G  shows a V shaped trace fossil, and is not at all similar to a large burrow reported by Lowe (2016) from the Keeseville/Cairnside at Gatineau, Quebec.

Williams (1991, OFR5770) provides  numerous measured sections of Paleozoic rocks for outcrops and quarries  in Eastern Ontario, and for three of the sections (Hughes Quarry, North Elmsley, Lanark County; Forfar quarry, Township of Rideau Lakes; Philipsville roadcut) identifies beds where he observed Skolithos burrows in the Nepean Formation quartz sandstone.

Yochelson and Fedonkin (1991, 1993) describe a Climactichnites trail from near Battersea, Ontario, specimens of which are on display at the Miller Museum in Kingston, Ontario.  The trails are outlined in dark purple, in contrast to the light tan sandstone matrix.  Below is a photograph of the slab on display in the Miller Museum.  The trails are about 5 inches (12 1/2 cm) wide.


MacNaughton, Cole, Dalrymple,  Braddy, Briggs and Lukie (2002) reported arthropod trackways in an eolian dune facies of Potsdam sandstone at a quarry 20 km  northeast of Kingston, Ontario,  probably in a marginal-marine setting.  They reported three morphological types of tracks: (1) a repeated series of 7 or 8 circular to tapered tracks with a medial impression; (2) trackways with no series structure , with a medial impression; (3) two parallel rows of tracks with no series structure and no medial impression.    They suggested that types (1) and (2) are similar to Protichnites while type (3) is comparable to Diplichnites, and that the trackways were made by arthropods with at least eight walking legs, with at least some of the tracemakers possessing a telson (tail spine),  possibly euthycarcinoids.   Prophetically, Dr. MacNaughton noted that the same rocks occur in Northern New York and that examination of those rocks might yield discoveries of tracks (Broad, 2002).

Sanford and Arnott (2010) reported “a variety of vertical and commonly large trace fossils, including Arenicolites, Skolithos and Rosselia” from the Cairnside (Nepean) formation sandstone in Lac Beauchamp Park in Gatineau, Quebec, suggesting that the strata “were deposited in a high-energy, marine influenced, possibly tidally influenced sedimentary environment.   They included a photograph of a Protichnites track from the eolian sandstone at the Sloan Quarry north of Kingston, Ontario  (Figure 48) – the quarry where MacNaughton et al. (2002) reported Protichnites.

In blog postings dated July 9 and August 12, 2013  I reported finding Protichnites and Diplichnites traces in the Nepean (Keeseville) formation at the Ellisville Potsdam Sandstone Quarry.  In my October 31, 2016 and September 14, 2017 blog posting I reported on Climactichites traces found at that quarry.   Below are photographs of three slabs of Protichnites and a Climactichnites specimen from Ellisville.



New York State (1971 to the Present)


Trace Fossil have  been reported from the Potsdam Sandstone of  northwest New York by numerous authors in the latter half of the twentieth century and into this century  (Including field trip guides by  Kirchgasser and Theokritoff, 1971; VanDiver, 1976; Selleck, 1978, 1984, 2008; Erickson, 1993. Erickson and Bjerstdt, 1993, Erickson. Connett, and Fetterman, 1993, Dawson, 2002, Lowe, 2014 ; and articles by Bjerstedt  and  Erickson 1989; Hagadorn and  Belt , 2008; Hagadorn, Collette  and Belt, 2011 ).   In the interest of brevity I won’t refer to all of them.

Kirchgasser and Theokritoff (1971) included a stop at Chippewa Bay to look at the “Vertical U- shaped organismal burrows (Diplocraterion?)” in Potsdam sandstone (figure 8) made by a suspension feeder.   VanDiver (1976, page 64) has a stop at the Chippewa Bay outcrop where in the Potsdam sandstone he describes “Vertical, U-shaped organismal (probably worm) burrows near the base of the section”.   Selleck (1978, 1989) reported Diplocriterion YoYo  in the Potsdam at Chippewa Bay in a tide dominated environment, made by a wormlike filter feeding organism.

Bjerstedt  and  Erickson (1989) studied the Potsdam sandstone  in the St. Lawrence Lowlands on
the northwest edge of the Adirondack Massif on both U.S. and Canadian sides of the St. Lawrence River, focusing on the Chippewa Bay exposure in New York State.     They reported
“The intertidal habitats preserved in the upper Potsdam and Nepean Formations contain a Skolithos Ichnofacies of low-level suspension feeders dominated by Diplocraterion.   D. parallelum is abundant, whereas D. helmerseni is rare. Escape burrows resembling Monocraterion  are very common in one thick upper Potsdam bed . At the Chippewa Bay exposure, Skolithos forms only a minor component  in the Potsdam Skolithos Ichnofacies, ...  Elsewhere, shallow Skolithos and Monocraterion burrows (-3 to -6 cm) occur at most locations exposing the upper Potsdam in the Thousand Island region, but Skolithos generally does not occur with Diplocraterion.   At Chippewa Bay, medium to thick beds of clean quartz sandstone containing abundant D. parallelum ... They are, however, entirely restricted to the upper 6 m of the Potsdam. High population densities of D. parallelum in single thickbedded sandstones are exposed at the unit 1 location.  These beds approach "pipe-rock" burrow density , and indicate periods of relative substrate immobility, and probable diastems.” [citations and references to figures omitted]

Yochelson and Fedonkin (1993) reviewed all published occurrences of Climactichnites, visited most of them, noted a few new ones, provided details of older occurrences in Potsdam sandstones,and included  photographs of many of them (including slabs from Perth and Battersea, Ontario;  Port Henry, Mooers and Keeseville, New York State;  Beauharnois, Rogier's Farm, and St. Hermas, Quebec).  For example:
- “In New York, at the Minna Anthony Common Nature Center on Wellesley Island (11), near Alexandria Bay, a slab bearing Climactichnites is part of a "geological wall" just outside the
building. Apparently it was collected from a site on the island”
- “we were able to examine a large number of specimens exposed on one bedding plane at Au Sable Chasm, Keeseville, a locality reported by Van Ingen”.

Selleck’s (1993) field trip guide has stops to look at the sandy tidal flat environment of the upper Potsdam and  the u-shaped burrow Diplocraterion in southwestern St. Lawrence Valley of upper New York State.

Erickson, Connett and   Fetterman (1993) report an  unusual  bedding  plane  exposure  of  the  Potsdam  Sandstone  near  Champlain,  New  York, that “displays  cross-strata  and asymmetrical  ripple  marks  that  are  indicative  of  complex  tidal  settings  associated  with  am  inlet  or  gut  between  large  sand  bodies  or  barrier  bars.  Associated  with  these  high  energy  deposits  are  the  trace  fossils  Diplocraterion( ?)  sp . and  Phycodes(?)  sp.  which  colonized  the  cross-stratified  deposits  after deposition.”   They also report an area displaying a densely  burrowed  bed “which  shows  Planolites  beverlyensis , Phycodes  sp.,  Teichichrms(?)  sp.,  and  possible  Skolithos  sp.”

Dawson’s (2002) field trip guide has stops to look (A) trace fossils in Keeseville Sandstone  at the Clinton Farm Supply, Champlain, and (b) Climactichnites trails, Protichnites trackways and other traces in Keeseville sandstone at the Gaston Preserve of the Adirondack Nature Conservancy,  New York State.

Burton-Kelly (2005) and Burton-Kelly and  Erickson (2010)  provided an analysis of three  trackways of Protichnites Owen, 1852,  from the Potsdam Sandstone on  a single bedding-plane exposure of flat-lying, thinly bedded, fine-grained Potsdam Sandstone in Clinton County, New York displaying “at least eleven distinctive trackways of multi-legged nelson-bearing individuals”. (The site is part of the Galway Pine Barrens Reserve of the Adirondack Nature Conservancy.)   They conclude that the animal that made the tracks was “an invertebrate animal with seven pairs of walking legs, with the possibility of additional limbs held out of contact with the substrate.”  The trackways “are assigned to Protichnites septemnotatus based on their comparison with Owen’s original description.”   Earlier Erickson (2004) had reported this bedding-plane exposure  and suggested one trackway was made by a male and another by a female, with the interaction between the trackways interpreted as evidence of mating behavior.

Landing et al. (2007) provide a stratigraphic column of rocks in the Ausable Chasm, noting the trace fossils,  and for the upper Potsdam report that “Trace fossils at this site are dominated by horizontally-oriented forms, such as the probable mollusk trails Aulichnites and Climactichnites, the arthropod trackways Diplichnites and Protichnites, and a burrow compared to Teichichnus. A few shallow, vertically oriented trace fossils, such as Arenicolites and Skolithos, are present. Many of the best exposures of the large traces are immediately below the spillway or on bedding planes... An exceptional specimen of Protichnites ...  was collected  about 100-200 m lower in the section ..., and is remarkable because it is not an undertrack, yet preserves the delicate bifid nelson impressions of the trackmaker.”   Landing et al. (2007) also have stops to look at Phycoids (figure 14) and Arencolites or Diplocraterion.  As well, Landing et al. (2007) also report that at the Galway Pine Barrens in New York State “The Keeseville Member at this location (Figure 12) is composed of thinly bedded, light gray, medium- to fine-grained quartz arenite. ... . Arthropod trackways (predominantly Diplichnites and Protichnites at Stop 3.8A), as well as the probable mollusk trackways Climactichnites and Plagiogmus (Stop 3.8B), are well preserved on some bedding surfaces (Figure 13).”

Selleck (2008) in a field trip guide on the Potsdam Formation, Southern Lake Champlain Valley, New York noted that “Horizontal burrows (Rusophycos, Teichichnus) and vertical burrows (Diplocraterion, Skolithos)  are  present” in the upper stratified unit and that “The upper Potsdam Formation (=Keeseville Member) in the study area were deposited in shallow marine
shoreface, foreshore, offshore subtidal shelf and tidal flat settings.”   He also noted that “The large trace  fossil Climactichnites  has been described from quarried slabs of the Potsdam Formation from Port Henry,  New York.   Although no specimens have been observed in place, older quarries in the Port Henry area are within the upper stratified unit of the Potsdam, and the slabs bearing  Climactichnites at Port Henry most closely resemble the upper stratified unit.”

Hagadorn and  Belt (2008) looked at the Potsdam sandstone in the Ausable Chasm, New York  and reported Arenicolites, Skolithos - Monocraterion (figure 4C) and trackways that include Climactichnites (figure 4A), Diplichnites (figure 4F) , cf. Plagiogmus, Protichnites (figure 4G), cf. Teichichnus (figures 4B,  4E), a bilobate trail Aulichnites (figure 4H), unilobate trails similar to Neonereites uniserialis, Phanolites (figure 10C1, D), concluding that the trace fossil assemblages are consistent with a mixed Cruziana-Skolithos ichnofacies.  They also reported  body fossils consisting of scyphomedusae impressions, and noted that “Diplocraterion- and Skolithos-piperock facies... are common only in the top strata of Potsdam sandstone near the base of the burrow-riddled Theresa (Bjeerstedt and Erickson, 1989; Selleck, 1993) or where mud is present.”

Getty and Hagadorn (2008, 2009) examined field and museum specimens of Climactichnites, concluded that it is restricted to shallow tide- and wave-influenced marine facies of the strata, restrict Climactichnites wilsoni to a surface trace, resurrect Climactichnites youngi as a burrowing trace (which lacks lateral ridges) , and erect Musculopodus to encompass body traces of the trailmaker, concluding that “Annelids and molluscs are the most likely candidates to have produced Climactichnites.”.  Musculopodus is the ovoid body impression discussed by Woodworth (1903), Clarke (1905), Abel (1935) and others.  Getty and Hagadorn (2008) also give field localities for Climactichnites including Hammond, New York and Réserve Ecologique, du Pin-Ridge, Quebec.

Hagadorn, Collette and Belt (2011) reported and figured various trace fossils found in interfingering eolian to brackish-marine sequence of the Potsdam sandstone in upper New York State (two in the Burke area  –  the Rainbow and Adirondack Quarries – and two in the Potsdam
area at Hannawa Falls that include a section downriver from the spillway and a section at the Parmeter Quarry).  They found (A) several distinct kinds of arthropod trackways, including Diplichnites, Protichnites and unusual Diplopodichnus-like trackway, on eolian dunes, and (B) Arenicolites (U-shaped burrows) in a subaqueous Potsdam facies.  Collette and Hagadorn (2010) remarked that “Eolian arthropod trackways from the Potsdam of Ontario and New York show no evidence of body impressions other than intermittent drag marks interpreted as having been made by a nelson. Sediment push-up mounds located posterior to limb imprints preclude an undertrack origin for these trackways; thus, the limbs of the tracemakers must have been both robust enough and long enough to have held these fairly large arthropods off  the surface as they were climbing dune faces.”

David Lowe’s (2014) field trip guide covers select outcrops of Keeseville sandstone in the St. Lawrence valley of upper New York State.   It does not cover the aeolian erg and tidedominated
marine facies described from previous work in the Potsdam by  Bjerstedt and Erickson (1989)
Selleck (1993) and  Hagadorn et al (2011).  Instead it focuses on Keeseville sandstone outcrops exhibiting ephemeral fluvial and  perennial (braided) fluvial facies structures.  Dave notes that  braided fluvial deposits are recognized in part by a “lack of trace fossils” and “by a dominance of coarse-grained trough cross-stratified sandstone, locally with tractional conglomerates, as well as the presence of lateral, downstream and upstream accreting architectural elements and channel elements.”   He mentions no trace fossils in ephemeral fluvial or perennial (braided) fluvial facies structures.

David Lowe’s Doctoral Thesis


David Lowe’s (2016)  doctoral thesis involved looking at the sedimentology, stratigraphic evolution and provenance of the Cambrian – Lower Ordovician Potsdam Group in the Ottawa Embayment and Quebec Basin.  He  recognized: six siliciclastic paleoenvironments: (a) braided fluvial, (b) ephemeral fluvial, c ) aeolian, (d) coastal sabkha, (e) tide-dominated marine and (f) open-coast tidal flat.  He also made  reports of, and observations on, trace fossils.  Here are a few of his comments:


 - “[I]t was notable that Protichnites, Diplichnites and Climactichnites most commonly occur on bedding planes of coastal sabkha strata (e.g., localities 190, 207, 210, 295) and in coastal plain ephemeral fluvial strata, which based on stratigraphic correlation may have been perhaps ~5 – 50 km from a coeval coastline or intertidal zone (e.g., localities 148, 152, 200 – 203). However, comparatively rare but seemingly larger Protichnites and Diplichnites were also present in aeolian and ephemeral fluvial strata farther removed from any possible nearby coastal environment (likely ~ 50 km or more; e.g. localities 27, 28, 68, 166).”

- He reported and figured a unique and enigmatic trace fossil from the Keeseville formation at an outcrop in a park near Lac Beauchamp in Gatineau, Quebec which displays large-scale compound dunes, a high energy setting.  The  “Traces are elliptical tube-shaped features that are 2 – 17 cm wide and at least ~10 – 60 cm long with massive fills and mm-thick lining. Individual burrows are commonly curved and variably angled, ranging from essentially vertical   to horizontal ...Most burrows also show variations in morphology along their length from elliptical to circular” ... [T]hese burrows occur as solitary forms or are clustered .  Clustered burrows commonly cross-cut one-another and commonly merge into a single large composite burrow (Figs 3.13a, 3.14). Typically burrows increase in width from the base the top of large-scale compound cosets, and many burrows in the lower part of a coset are truncated by downcurrent migrating dune sets. ... [T]he diameter of the burrows (~2 – 17 cm) suggest that the trace maker was relatively large, and variations in burrow shape and bending and coiling of the burrow suggest it had the ability to conform to different shapes, and thus was likely a soft-bodied organism (rather than an arthropod, for example) and probably a large polychaete worm,”   Here are Dave’s drawings of the burrows, which are provided with Dave’s permission.


- Dave’s table 3.1 summarizes the lithofacies associations and gives a brief overview of the trace fossils associated with each facies.

- In his discussion of  his facies FA5 – Bioturbated cross-stratified sandstone– Dave mentions that “A sparse to moderate intensity (BI of 1 – 3) assemblage of relatively small (~1 – 3 mm diameter and ~0.5 – 3.5 cm long) Skolithos, Arenicolites, Phycodes and/or rare Fugichnia traces commonly occur near the base of medium-scale compound cosets (Fig. 3.10), whereas a moderate to high intensity (BI of 2 – 4) assemblage of robust (~1.5 – 4 cm wide and ~3 – 22 cm long) protrusive Diplocraterion and/or Monocraterion usually occurs at the tops (Fig. 3.11c).”

Further Comments


A number of authors have looked at animals moving from the water to the land during the Cambrian and Ordovician periods and have used Protichnites and Climactichnites  trace fossils to construct their models (including Dunlop et al. 2013, Mcnamara, 2014, Mángano and Buatois, 2004 Jennsen, Buatois and Mángano, 2013, Buatois and Mángano, 2011, Mángano and Buatois, 2015, Krapovickas et al., 2016).  They have looked at Protichnites trackways when looking at animal incursions into coastal dune fields and have looked at Climactichnites trails and Protichnites tracks on tidal flats.

Numerous authors have recognized that the eolian facies of the Potsdam where MacNaughton et al. (2002) and where Hagadorn et al. (2011) reported Protichnites is a different facies than the littoral facies of the Potsdam where Logan (1851, 1852, 1863) and Walcott (1891, 1914)  reported Protichnites.  It is also worth noting that the eolian facies at those locations  is older than the littoral facies, probably by at least a million years and perhaps by tens of millions of years, as the eolian Hannawa Falls Formation where MacNaughton et al. (2002) and  Hagadorn et al. (2011) reported Protichnites is unconformably overlain by the Keeseville- Nepean Formation of Logan’s Protichnites.  The unconformity  is expressed in most places as an erosional disconformity, but locally as an angular unconformity (See Lowe, 2016; Sanford and Arnott, 2010).)    The difference in facies and the difference in age may account for why the tracks look quite different.  

Unfortunately the only body fossils found thus far in the Potsdam are the euthycarcinoid  Mictomerus melochevillensis, a few trilobites, gastropods,  molluscs and brachiopods.   None represent the animals that likely made the Protichnites or Diplichnites traces.  

Almost all Protichnites and Diplichnties tracks in Potsdam sandstone are comprised of series of circular punctuate marks, or straight or crescent marks.  Walcott (1914) included two plates of trifid footprints. Burton-Kelly (2005) reported “Some individual tracks appear to be bifid or trifid in form.”  A few of the footprints on Logan’s specimens of Protichnites Septemnotatus and Protichnites Alternans are arguably bifid and trifid in form.  The only trifid footprints that I have seen in Eastern Ontario were in a thin shale layer in sandstone in Leeds County, and it was not clear whether the outcrop was Nepean or March Formation.  

Keighley and Pickerill (1998) attempted to introduce some order into the discussion of Protichnites and Diplichnites trackways, while both Hoxie (2005) and  Burton-Kelly (2007) analysed the variability in Protichnites morphology and took a restricted view of what it should encompass .  In contrast to Owen (1852, 1860) whose Protichnites encompassed much variation, Burton-Kelly (2007) defined Protichnites as “a trackway possessing the following characteristics: paired imprints across the midline, medial structure (groove(s) or ridge(s)), and a countable (i.e., generally unchanging) number of tracks in each repeating trackset” and didn’t include all of Owen’s variations.   Burton-Kelly (2007) proposed that his tighter redefinition of Protichnites would not cover  three of the species Owen described as P. multinotatus, P. lineatus, and P. alternans.  He proposed that these ichnofossils would be better placed under other genera.

[Added May, 2023:]  Rose, Harris and Milner (2021) suggest that Protichnites traces “comprise thick, often segmented medial impressions (sometimes absent except on trackway turns) flanked by oppositely arranged, subcircular to ellipsoidal to irregularly shaped tracks with varying orientations to the trackway axis” following Burton-Kelly & Erickson, 2010.

[Added May, 2023] Braddy, Gass and Gass (2022) commented on the Logan’s trackways from Beauharnois, Quebec and MacNaughton et al. (2002)’s trackways from Ontario:  “Some of the oldest trackways on land are from the Late Cambrian (500Ma) of Ontario, Canada. Trackways up to 13 cm wide with repeated patterns up to 11 tracks (Diplichnites) and similar trackways with a central tail drag (Protichnites) were found in ancient windblown (aeolian) dune deposits. ...  Similar trackways from Cambrian tidal flats in Quebec, Canada discovered in the mid-nineteenth century...  These trackways were clearly made by an arthropod with at least 11 pairs of similar walking legs and a tail-spine. ... They were eventually attributed to euthycarcinoids, the ancestors (stem-group) of the myriapods, based on a shared similar ‘pre-oral cavity’, resembling a 30-cm-long woodlouse with a tail spine, but their body fossils are missing in these strata.   ... The trackways from Ontario, which were probably made by euthycarcinoids, show that they lunged awkwardly in-phase across the dunes, suggesting that they were not fully land-going.” 

Logan’s Specimens of Protichnites Were Found

It is worth noting that Logan’s original specimens of Protichnites were located in the collection of Canada’s National Museum of Nature and await re-examination (see MacNaughton, Brett, Coyne and Shepherd, 2017).  The lithographs that appeared in Owen’s (1852) paper show only parts of the trackways.    Below is a photograph of Logan’s original specimen of Protichnites octo-notatus with a copy of the lithograph from Owen’s (1852) paper, as photographed at the Canadian Museum of Nature's Research and Collections  facility  in 2014.  The blue ruler is 12 inches long.  The silver ruler is a meter stick.



The Glen Quarry That Was the Source for the First Specimens of Climactichnites Was Likely Found in 2013

The type locality for Climactichnites wilsoni is a small quarry about a mile from the town of Perth, Ontario as it existed in 1859.  The original specimens were located by Dr. James Wilson of Perth who sent them to William Logan at the Geological Survey of Canada in Montreal.  In December, 1859 Logan sent James Richardson to Perth where he quarried a specimen of about seventy-six square feet that is shown in the second and third photographs of this posting.  In 1881 the Geological Survey of Canada and its rock, mineral and fossil collections were moved to Ottawa.   In 1882 James Richardson returned to Perth and collected the large specimen of  Climactichnites featured in Dawson’s (1890) paper that is on display at the Redpath Museum in Montreal and is shown above.   Other specimens from the quarry near Perth are in the collections of the Perth Museum and the Royal Ontario Museum, and were presumably collected by Dr. James Wilson.  

Yochelson and Fedonkin (1993) reported that they had visited Perth and that the quarry “cannot be located with any certainty and might now be covered by buildings.”  Others have tried to find the quarry. I believe that I located the quarry where James Richardson collected the first specimens of Climactichnites that were described by W. E. Logan.   See my following blog postings.

On the trail of Climactichnites wilsoni - Part 1: Specimens Collected from a Quarry near Perth, Ontario. Blog Posting dated   January 31 2013.   http://fossilslanark.blogspot.com/2013/01/

  On the trail of Climactichnites wilsoni - Part 2: References to the Quarry Near Perth in the Scientific Literature, and the Geologic Mapping of Lot 6.  Blog posting dated   February 11, 2013  http://fossilslanark.blogspot.com/2013/02/

On the trail of Climactichnites wilsoni - Part 3: A quarry about a mile from Perth as the town existed in 1859.  Blog posting dated  May 6, 2013. http://fossilslanark.blogspot.com/2013/05/on-trail-of-climactichnites-wilsoni.html

Christopher Brett
Ottawa

Addendum (April, 2023): I have added the part dealing with finding the type quarry for Climactichnites near Perth.

Selected References and Suggested Reading

There were a number of references that I could not locate or could not access the libraries where they can be found because of COVID-19 restrictions.  These are indicated below by ‘[not available]’.


Abel, Othenio, 1926
Amerikafahrt : Eindrücke, Beobachtungen und Studien eines Naturforschers auf einer Reise nach Nordamerika und Westindien.  Gustav Fischer Verlag, Jena  462 p., mit 273 Fotos

Othenio Abel, 1935
Vorzeitliche Lebensspuren.  Jena: Verlag von Gustav Fischer. 644 pages. Mit 530 Abbildungen im text.  Climactichnites at pages 242-247

Abraham, Robert,  1847
Montreal Gazette [not available]

Abraham, Robert,  1851
Tracks of a Chelonian Reptile in the Lower Silurian formation, at Beauharnois.  The British American Medical & Physical Journal, Volume 7, No. 5,  pages 195-200
https://www.canadiana.ca/view/oocihm.8_05181_17/6?r=0&s=1

Ami, Henry M., 1893
Additional notes on the geology and palaeontology of Ottawa and its environs. The Ottawa Naturalist, Volume 6,  Pages 73-78

Ami, Henry M., 1894
Notes on the geology and paleontology of the Rockland Quarries and vicinity, in the county of Russell, Ontario, Canada.   The Ottawa Naturalist, Volume 7, 138- 143

Ami, Henri M., 1896
Notes on some of the Fossil Organic Remains comprised in the Geological Formations and Outliers of the Ottawa Palaeozoic basin.   Trans. Roy. Soc. Can., 2nd ser., Vol. II sec. 4, pp.151 -158     https://www.biodiversitylibrary.org/item/40727#page/991/mode/1up

Ami, Henry M., 1901
Lists of fossils obtained from the several formations Along the Ottawa River pertaining to the Report on Sheet no. 121, Quebec and Ontario (Grenville Sheet).  In Report on the geology of Argenteuil, Ottawa and part of Pontiac counties, province of Quebec, and portions of Carleton, Russell and Prescott counties, province of Ontario, By R. W. Ells. Geological Survey of Canada Report 739

Ami, Henry M., 1904
Preliminary list of fossil organic remains from the Potsdam-Utica and Pleistocene Formations Comprised within the Perth Sheet (No. 119) in Eastern Ontario. Pages 80-89,  Appendix to Report on the Geology of a Portion of Eastern Ontario by R. W. Ells,  Geological Survey of Canada Annual Report 14, Part J, 

Ami, Henry M. And Sowter, T. E. W., 1888
Report of the geological branch  - To the Council  of the Ottawa Field Naturalists Club.  The Ottawa Naturalist, Volume 1, 93-97
https://www.biodiversitylibrary.org/item/15579#page/104/mode/1up

Billings,  Elkanah, 1865
Palæozoic Fossils, Volume 1. Geological Survey of Canada; Montreal: Dawson brothers. 426 pages   https://archive.org/details/cu31924003872862   Scolithus Canadensis p. 96  

Bjerstedt, T. W. and J. M. Erickson. 1989.
Trace fossils and bioturbation in peritidal facies of the Potsdam-Theresa Formations (Cambrian-Ordovician), Northwest Adirondacks. Palaios, 4:203–224.

Bernstein L., 1992.
A revised lithostratigraphy of the Lower–Middle Ordovician Beekmantown Group, St. Lawrence Lowlands, Quebec and Ontario. Canadian Journal of Earth Sciences 29: 2677-2694

Bond, I.J., and Greggs, R.G., 1973,
Revision of the March Formation (Tremadocian) in southeastern Ontario, Canadian Journal of Earth Science, v. 10, p. 1140-1155.
https://www.nrcresearchpress.com/doi/10.1139/e73-098#.X3aKZbj6iE8

Braddy. Simon,   Kenneth Gass, Todd C. Gass, 2022   Fossils of Blackberry Hill, Wisconsin, USA: the first animals on land, 500 Ma . Geology Today 38(1):25-31  DOI:10.1111/gto.12379

Brand,Uwe  and Brian R. Rust, 2011

The age and upper boundary of the Nepean Formation in its type section near Ottawa, Ontario
February 2011Canadian Journal of Earth Sciences 14(9):2002-2006
DOI: 10.1139/e77-171

Brett, Christopher P., 2013a
A New Occurrence of Protichnites in Potsdam Group Sandstone near Kingston, Ontario
Blog posting dated Tuesday, 9 July 2013
http://fossilslanark.blogspot.com/2013/07/

Brett, Christopher P., 2013b
The Trace Fossil Diplichnites – A New Occurrence in Eastern Ontario
Blog posting dated  12 August 2013

Brett, Christopher P., 2013c
Abraham, Logan and Owen: The Discovery of the First Protichnites trackways – Part 1
Blog posting dated   29 August 2013
http://fossilslanark.blogspot.com/2013/08/

Brett, Christopher P., 2017
Abraham, Logan and Owen: The Discovery of the First Protichnites trackways – Part 2
blog posting dated  September 4, 2017
http://fossilslanark.blogspot.com/2017/09/abraham-logan-and-owen-discovery-of.html

Braddy, S. J., 2004,
Ichnological evidence for the arthropod invasion of land, in Webby, B.D., Mangano, M.G., and Buatois, L.A., eds., Trace fossils in evolutionary palaeoecology: Fossils and Strata Special Issue, v. 51, p. 136–140

Buatois, Luis A. And Gabriela Mangano, 2011
The Trace-fossil Record of Organism-Matground Interactions in Space and Time.  Pages 15-28 SEPM Special Publication No. 1001

Burling,  Lancaster D. , 1917
Protichites and Climactichnites: A Critical Study of Some Cambrian Trails.  American Journal of Science. Series 4, Vol. 44 pages 396-398
https://www.biodiversitylibrary.org/item/124901#page/420/mode/1up

Burton-Kelly, Matthew E., 2005
An analysis of multiple trackways of Protichnites Owen, 1852,  from the Potsdam Sandstone (late Cambrian), St. Lawrence Valley, NY.  A Bachelors Thesis Submitted to the Faculty of the  Department of Geology of St. Lawrence University.  71 pages

Burton-Kelly, Matthew E., 2007
Analysis of variability in Protichnites morphology and a standardized method of identification
Conference: Ichnological Applications to Sedimentological and Sequence Stratigraphic Problems, SEPM Research Conference, May 20 - 26, 2007, Price, Utah, USAAt: Price, Utah, USA

Burton-Kelly, M. E,  and J Mark Erickson, 2010
A New Occurrences of Protichnites Owen, 1852, in the Late Cambrian Potsdam Sandstone of the St. Lawrence Lowlands.  The Open Paleontology Journal, https://benthamopen.com/ABSTRACT/TOPALOJ-3-1
 10.2174/1874425701003010001

Chadwick, G. H., 1920,
The Paleozoic rocks of the Canton Quadrangle: New York State  Museum Bulletin Nos. 217-218, 60 p

Clark, T.H., 1939
The St. Lawrence Lowlands of Quebec; Geologie der Erde: Geology of North America, Vol. 1, pp. 579-588, Berlin, 1939. [Not Available]

Clark, T. H.,  1944
Unfolded Palaeozoic Rocks of St-Lawrence Lowlands, pages 250-291 in Dresser, John A., and Denis, T.C., 1944   The Geology of Quebec Vol. II: Descriptive Geology, Que. Dept. Mines, Geol. Rept. 20, 630 pages

Clark, T.H., 1947
Summary Report on the Saint-Lawrence Lowlands South of the Saint-Lawrence
River; Que. Dept. Mines, P.R. 204, 

Clark, T.H.,  1952
Montreal area, Laval and Lachine Maps Areas.  Quebec Geological Report 46

Clark, T. H., 1963
Field Trip 10- Breccia localities.  In: T. H. Clark (editor) Guide Book. Geological Association of Canada, 16th Annual Meeting, Montreal, pp. 95-104 [ not available]

Clark, T.H., 1966
Chateauguay Area; Quebec Department of Natural Resources, Geological Report 122, 63p.

Clark, T. H..  1972
Région de Montreal Area, Quebec Geological Report 152, 244 pages

Clark, T. H.  1972a,
Stratigraphy and structure of the St. Lawrence Lowland of Quebec; 24th  International Geological Congress, Field Excursion C52 Guidebook, 82p [Not Available]

Clark, T. H. and Stearn, C.W. , 1963
Ordovician stratigraphy of the St. Lawrence Lowlands: Geological Association of Canada, 16th Annual Meeting, Guide Book pp 39-52 [Not available]

Clark, T. H. and Usher, J. L. 1948.
The sense of Climactichnites. American Journal of Science, 246, 251–253.

Clarke, J. M., 1903
Report of the State Paleontologist, New York Museum Bulletin 5, 55th Annual Report
https://archive.org/details/annualreportofr551901newy/page/538/mode/2up

Clarke, J. M., 1905
Fossil Trails at Bidwell’s Crossing.  Bulletin New York State Museum, No. 80, page 18-20, pl. 3
https://www.biodiversitylibrary.org/item/108530#page/26/mode/1up

Clarke, John M. and R. Ruedmann, 1912
The Eurypterida of New York. – New York State Museum, Memoir 14, Albany, 1912, Vol. 1, p  85-86, Footnote.
https://www.biodiversitylibrary.org/item/134207#page/91/mode/1up

Collette, J.H. and Hagadorn, J.W., 2010
Three-dimensionally preserved arthropods from Cambrian Lagerstatten of Quebec and Wisconsin
J. Paleont., 84(4), 2010, pp. 646–667
 
Collette, J.H., Hagadorn, J.W., and Lacelle, M.A., 2010,
Dead in their tracks: Cambrian arthropods and their traces from intertidal sandstones of Quebec and Wisconsin: Palaios, 475–486.   cf. Didymaulichnus traces

Conway Morris, S. , 1977
Fossil Priapulid Worms. The Palaeontological Association, Special Papers in Palaeontology, 20: 95 pages plus 65 pages of plates
https://www.palass.org/sites/default/files/media/publications/special_papers_in_palaeontology/number_20/spp20_pp1-155.pdf

Cushing,  H. P. 1908.
Lower portion of the Paleozoic section in northwestern New York. Geological Society of America Bulletin 19: 155-176

Cushing, H. P., H. L. Fairchild, R. Rudemann and C. H. Smyth, 1910,
Geology of the Thousand Islands Region (Alexandria Bay, Cape Vincent, Clayton, Grindstone and Theresa Quadrangles): N.Y. St. Mus. Bull., No. 145, 177 p.

Dawson, James C., 2002
Early paleozoic continental shelf to basin transition rocks: Selected classic localities in the lake champlain valley of New York State.  New York State Geological Association field trip A3

Dawson, J. W., 1883
 Impressions on Potsdam sandstone. Science, vol. 1, 1883, p. 177.
https://www.biodiversitylibrary.org/item/97767#page/193/mode/1up

Dawson, J. W., 1890
On burrows and tracks of invertebrate animals in Paleozoic rocks, and other markings. Geological Survey of London Quarterly Journal, 46:595–617.
https://www.biodiversitylibrary.org/item/112396#page/693/mode/1up

Dix, G.R., Salad Hersi, O., Molgat, M., and Arnott, R.W.C. 1997:
Lithostratigraphy and sequence stratigraphy of the Lower Paleozoic succession in the Ottawa Valley; Field Trip A2 Guidebook, Geological Association of Canada–Mineralogical Association of Canada, Joint Annual Meeting, Ottawa, Ontario, 48 p. [not available]

Dzik, Jerzy, 2005
Behavioral and Anatomical Unity of the Earliest Burrowing Animals and the Cause of the "Cambrian Explosion"  Paleobiology Vol. 31, No. 3, pp. 503-521
 https://www.jstor.org/stable/4096949

Ells, R. W.  1895
The Potsdam and Calciferous formations of Quebec and eastern Ontario: Royal
Soc. Can. Proc. Trans., 12, IV, 21-30, 1895. 

Ells, R. W., 1901
Report on the geology of Argenteuil, Ottawa and part of Pontiac counties, province of Quebec, and portions of Carleton, Russell and Prescott counties, province of Ontario, Geological Survey of Canada Report 739  https://catalog.hathitrust.org/Record/100300823

Ells, R. W., 1902
Report on the geology and natural resources of the area included in the map of the City of Ottawa and vicinity, Geological Survey of Canada, Annual Report (new Series), Volume XII,
The Potsdam at the contact is  tilted and dips S. 50'' E. <15̊-20\ In the vicinity the sandstones
are filled with Scolithos markings which are the only fossils yet recognized in this part of the formation in this district   https://doi.org/10.4095/294885 

Ells, R. W., 1903
Notes on some interesting contacts in the Kingston district. Trans. Roy. Soc. Can., 2nd ser., Vol. IX, sec. 4, pp. 97-108, 1903.
https://www.biodiversitylibrary.org/item/41836#page/817/mode/1up

Ells, R. W., 1907
Report on the geology and natural resources of the area included in the northwest quarter-sheet, number 122, of the Ontario and Quebec series comprising portions of the counties of Pontiac, Carleton and Renfrew,  Geological Survey of Canada Report 977
https://catalog.hathitrust.org/Record/001039015
 
Erickson, J.M., 1993
 Cambro-Ordovician Stratigraphy, Sedimentation, and Ichnobiology of the St. Lawrence
Lowlands-Frontenac Arch to the Champlain Valley of New York. Trip A-3( I). New York Geological  Association Field Trip Guidebook, pages 68 - 95.

Erickson, J. M., 2004.
Earliest evidence of invertebrate sexual behavior, or a tidal flat traffic jam in the Potsdam Fm, (Late Cambrian)? Geological Society of America Abstracts with Programs 36(5):66.

Erickson, J. M. and T. W. Bjerstedt. 1993
Traces Fossils and Stratigraphy in the Potsdam and Theresa Formations of the St. Lawrence Lowland;~New York. Trip A-3(2). New York State Geological Association Field Trip Guidebook, pages 97 - 119. 1 .

Erickson , Mark; Peter Connett and Andrew R. Fetterman, 1993
TRIP A3(4) Distribution of trace fossils preserved in high energy Deposits of the Potsdam Sandstone, Champlain, New York .  New York State Geological Association,

Ferrier, Walter F., 1883
Notes on a fossil track from the Potsdam sandstone of northern Now York State. Canadian Naturalist and Quarterly Journal of Science, new series, vol. 10, pp. 466, 467.
https://www.biodiversitylibrary.org/item/31810#page/494/mode/1up

Fisher, D. W., 1956, The Cambrian system of New York State; Cambrian Symposium, 20th International Geological Congress, Mexico City, p. 321-351.  El sistema Cámbrico, su paleogeografía y el problema de su base : symposium [Not available]

Fisher, D.W. 1968.
Geology of the Plattsburgh and Rouses Point, New York–Vermont, quadrangles. Special Bulletin 1, Vermont Geological Survey, Burlington, Vermont.

Flower, R.H. 1964.
The nautiloid order Ellesmeroceratida (Cephalopoda). New Mexico Bureau of Mines and Mineral Resources Memoir 12, Socorro, New Mexico.

Frey, R.W., and Pemberton S,. G., 1984,
Trace fossil facies models, in Walker, R.G., ed., Facies Models: 2nd edition, Geoscience Canada, p. 189-207.  And American Association of Petroleum Geologists, Tulsa, 189-207. Not available

Getty, Patrick Ryan and James W. Hagadorn, 2008
Reinterpretation of Climactichnites Logan 1860 to include Subsurface burrows, and erection of Musculopodus for Resting traces of the trailmaker. J. Paleontology., 82(6), 2008, pp. 1161–1172

Getty, Patrick Ryan and James W. Hagadorn, 2009
Palaeobiology of the Climactichnites trackmaker. Palaeontology,  Volume: 52,  Part: 4  Publication Date: July 2009 Pages 753 – 778.  DOI: 10.1111/j.1475-4983.2009.00875.x

Globensky, Y. 1981
Region de Huntingdon; Ministere de L'Energie et des Ressources, Service des Leves
Geologiques, Rapport Geologique 198. 53p.
http://gq.mines.gouv.qc.ca/documents/examine/RG198/RG198.pdf

Globensky, Y. 1982a
Région de Lachute, Rapport Géologique 200, Quebec, Ministère de l'énergie et des Ressources
http://gq.mines.gouv.qc.ca/documents/examine/RG200/RG200.pdf

Globensky, Y. 1982b 
Region de Vaudreuil; Ministere de L'Energie et des Ressources, Service des Levés Géologiques,
Rapport Geologique 199. 59p.
http://gq.mines.gouv.qc.ca/documents/examine/RG199/RG199.pdf

Globensky, Y. 1986
Géologie de la région de Saint-Chrysoteme et de Lachine (sud), Report MM 84-02, Quebec, Ministère de l'énergie et des Ressources

Globensky, Y. 1987
Géologie des Basses-Terres du Saint-Laurent, Report MM 85-02, Quebec, Ministère de l'énergie et des Ressources

Grabau, Amadeus W., 1913
Principles of Stratigraphy, A. G. Seiler & Co., N. Y.
https://archive.org/details/principlesofstra00grab/page/1091

Greggs, R.G.  and Bond, Ivor J.,  1971.
Conodonts  from the March and Oxford Formations in the Brockville Area, Ontario. Can. J. Earth Sci., 8, pp. 1455-1471.

Greggs, R.G.  and Bond, Ivor J.,  1972
A Principal Reference Section Proposed for the Nepean Formation of Probable Tremadocian Age Near Ottawa, Ontario.  Canadian Journal of Earth Sciences, Volume 9, No. 8, 933 -941

Greggs, R.G.  and Gorman, W.A.  1976
Geology of the Thousand Islands,  by Parks Canada
http://www.oliverkilian.com/ecology/thousand-islands/island-insights/geology/rocks.html

Hagadorn, J. W., And E. S. Belt. 2008.
Stranded in upstate New York: Cambrian medusae from the Potsdam Sandstone. Palaios, 23:424–441.

Hagadorn, James W.,  Joseph H. Collette,  and Edward S. Belt, 2011
Eolian-aquatic deposits and faunas of the Middle Cambrian Potsdam Group
Palaios 26(5):314-334  May 2011 DOI: 10.2307/25835633

Hagadorn, James W.,  Lacelle, Mario,  and Pierre Groulx, 2012
Mirabel's ancient surfers: Insights from Cambrian trace fossils and sedimentology of the Potsdam Group, Québec;  Canadian Paleontology Conference, University of Toronto 2012, Abstract Volume, page 37
http://www.mpe-fossiles.org/resources/Hagadorn_etal_2012.pdf

Hall, J., 1847
Palæontology New-York, Vol 1. Albany, C. van Menthyusen, State of New York. 338p., 
https://www.biodiversitylibrary.org/item/134313#page/38/mode/1up

Hall, J., 1889.
Report of the Director for 1888. Annual Report of the New York State Museum of Natural History, 42:17-34.  https://www.biodiversitylibrary.org/item/148536#page/15/mode/1up

Hofmann, Hans J. And Chartier, Michel D., 2006
Canadian Paleontology Conference Field Trip Guidebook No. 11, CPC 2006, Redpath Museum, McGill University, October 13-16, 2006

Hoxie, Charles T. , 2005

Late Cambrian Arthropod Trackways in Subaerially Exposed Environments: Incentives to Simplify a Problematic Ichnogenus.  Thesis, Bachelor of Arts,  Department of Geology of Amherst College, 89 pages

Jensen, Sören,  Luis A. Buatois  and M. Gabriela Mángano , 2013,
Testing for palaeogeographical patterns in the distribution of Cambrian trace fossils, Chapter 5 in  Early Palaeozoic Biogeography and Palaeogeography, Geological Society, London, Memoirs 2013, volume 38, p. 45-58   doi: 10.1144/M38.5

Kirchgasser, W. and G. Theokritoff, 1971, PreCambrian and Lower Paleozoic Stratigraphy, Northwest St. Lawrence and Northern Jefferson Counties, New York: In Geological Studies of the Northwest Adirondack Region, Field Trip Guidebook, 43rd Ann. Mtg., NY.S.G.A., p. b-l-b-24.   http://www.nysga-online.net/wp-content/uploads/2018/09/1971_bookmarked.pdf

Knaust, Dirk, 2009
Complex behavioural pattern as an aid to identify the producer of Zoophycos from the Middle Permian of Oman. Lethaia, Volume42, Issue2, June 2009, Pages 146-154
https://doi.org/10.1111/j.1502-3931.2008.00120.x


Keighley, Dave G. and Pickerill, Ron K., (1998)
Systematic ichnology of the Mabou and Cumberland groups (Carboniferous) of western Cape Breton Island, eastern Canada, 2:surface markings.
Atlantic Geology, Vol. 34, 83-112

Lacelle, Mario,  Pierre Groulx et Paul Racicot, 2009
Traces Fossiles du Groupe Potsdam – Livret-guide d’excursion Paléontologique.  Société de Paléontologie du Québec.

Lacelle, Mario,  J. W. Hagadorn and Pierre Groulx, 2012a
The widespread distribution of Cambrian Medusae

Lacelle, Mario,   J. W. Hagadorn and Pierre Groulx, 2012b
Prolific Potsdam Protichnites: Giant trackways, trails, and Paleoenvironments from Beauharnois, of the Cambrian Keeseville Formation (Potsdam Group), Beauharnois, Quebec
Canadian Paleontology Conference, University of Toronto 2012,  Proceedings No. 10: 43.

Lewis, D. W., 1971
Qualitative Petrographic Interpretation of Potsdam Sandstone (Cambrian), Southwestern Quebec
Canadian Journal of Earth Sciences (1971) 8 (8): 853–882. DOI: https://doi.org/10.1139/e71-079
 
Liberty, B. A., 1971
Paleozoic geology of Wolfe Island, Bath, Sydenham and Gananoque map-areas,  Ontario .  Geol. Survey of Canada Paper 70-35

Logan, W.E., 1851,
On the Occurrence of a Track and Foot-prints of an Animal in the Potsdam Sandstone of Lower Canada: Geological Society of London Quarterly Journal, v. 7, p. 247–250.
https://www.biodiversitylibrary.org/item/108768#page/383/mode/1up

Logan, W.E., 1852,
On the Foot-prints occurring in the Potsdam Sandstone of Canada.  Geological Society of London Quarterly Journal, v. 8, p. 199-213
https://www.biodiversitylibrary.org/item/109911#page/311/mode/1up.

Logan, W. E., 1860
On the track of an animal lately found in the Potsdam Formation. The Canadian Naturalist and Geologist, 5:279–285   https://www.biodiversitylibrary.org/item/32543#page/295/mode/1up

Logan, W.E.,  1863.
The Geology of Canada, Geological Survey of Canada. Report of progress from its commencement to 1863, 983p, Dawson Brothers, Montreal.
https://archive.org/details/reportofprogress00geolrich

Lowe, D.G. 2014.
Stratigraphy and Terrestrial to Shallow Marine Environments of the Potsdam Group in the Southwestern Ottawa Embayment. In Geology of the Northwestern Adirondacks and St. Lawrence River Valley, New York State Geological Association 86th annual meeting guidebook, pp. 183–203

Lowe, David G., 2016  
Sedimentology, Stratigraphic Evolution and Provenance of the Cambrian – Lower Ordovician Potsdam Group in the Ottawa Embayment and Quebec Basin;
Doctoral Thesis, University of Ottawa,
http://www.ruor.uottawa.ca/handle/10393/35303

David G. Lowe, R.W.C. Arnott, Godfrey S. Nowlan,  A.D. McCracken, 2017
Lithostratigraphic and allostratigraphic framework of the Cambrian–Ordovician Potsdam Group and correlations across Early Paleozoic southern Laurentia
Canadian Journal of Earth Sciences, 2017, 54(5): 550-585, https://doi.org/10.1139/cjes-2016-0151

Lowe, David,  Ryan Brink and Charlotte J. Mehrtens, 2015
Sedimentology and Stratigraphy of the Cambrian-Ordovician Potsdam Group (Altona, Ausable and Keeseville Formations), Northwestern NY (Field Trip D-2). New York State Geological Association 87th annual meeting at Plattsburgh, NY

Landing, Ed., David A. Franzi  , James W. Hagadorn, Stephen R. Westrop, Bjorn Kroger , and James C. Dawson, 2007
Cambrian of East Laurentia: Field Workshop in Eastern New York and Western Vermont.  In Ediacaran-Ordovician of East Laurentia— S. W. Ford memorial volume.  New York State Bulletin 510
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MacNaughton, R. W., Brett, C. P., Coyne, M. And Shepherd, K., 2017
Sir William Logan and the Adventure of the Ancient Amphibious Arthropod.  Abstract with Program, Canadian Paleontological Conference, Calgary, Alberta

MacNaughton, R.  B., J. M. Cole, R. W. Dalrymple, S. J. Braddy, D. E.G. Briggs, and T. D. Lukie. 2002.
First steps on land: Arthropod trackways in Cambrian-Ordovician eolian sandstone, southeastern Ontario, Canada. Geology, 30:391–394.
https://doi.org/10.1130/0091-7613(2002)030<0391:FSOLAT>2.0.CO;2

MacNaughton R.B. and Hagadorn J.W., 2006   Report on plaster casts of arthropod-produced trace fossils (Protichnites) figured in W.E. Logan’s Geology of Canada (1863), and recently copied from material in the Amherst College Museum of Natural History, Amherst, MA. Geological Survey of Canada, Report 001-RBM-2006, 

MacNaughton,  R.B.,  and  Hagadorn,  J.W., 2014

The perils of Protichnites:  Revisiting the earliest-named arthropod trackways.
GAC-MAC Joint Annual Meeting, Fredericton, 2014, Abstracts, Volume 37, page 170
http://www.mineralogicalassociation.ca/doc/AbstractVolume2014Final.pdf


MacNaughton, R.B., Hagadorn, J.W., Lacelle, M., and Groulx, P., 2014
The perils of Protichnites: The checkered history of an iconic ichnotaxon.  Alberta Palæontological Society, Paleo 2014, Annual  Symposium,  Abstracts  and  Short   Papers, Mount  Royal University, Calgary,  Alberta,   p.  34.  http://www.academia.edu/8412586/The_perils_of_Protichnites_the_checkered_history_of_an_iconic_ichnogenus_ABSTRACT_ 

Malz, H.  1968.
Climactichnites—die Kreichspur einer noch unbekannten kambrischen Tieres. Natur und Museum, 98:369-373.   [not available]

Mángano, M.G. and Buatois, L.A., 2015,
The trace-fossil record of tidal flats through the Phanerozoic:  Evolutionary innovations and faunal turnover, in McIlroy, D., ed., ICHNOLOGY: Papers from ICHNIA III: Geological Association of Canada, Miscellaneous Publication 9, p. 157-177 at 159-161, 

Mángano, M G; Buatois, L A; MacNaughton, R B, 2012
 in Trace fossils as indicators of sedimentary environments,1st Edition ; Knaust, D (ed.); Bromley, R G (ed.); Developments in Sedimentology vol. 64, 2012 p. 195-211, https://doi.org/10.1016/B978-0-444-53813-0.00007-1 (ESS Cont.# 20110303)

Marcou, Jules, 1889
Canadian geological classification for the Province of Quebec. Proceedings of the Boston Society of Natural History, Volume 24, 54-83

Marsh, O. C., 1869
Description of a new species of Protichnites from the Potsdam sandstone of New York. American Journal of Science,  2d ser. vol. 48, 1869, pp. 46-49.
https://www.biodiversitylibrary.org/item/113459#page/54/mode/1up
Plate at: https://www.biodiversitylibrary.org/item/113459#page/161/mode/1up

McIlroy, D. and G. R. Heys, 1997
Palaeobiological significance of Plagiogmus arcuatus from the Lower Cambrian of Central Australia. Alcheringa, 21:161–178.  https://doi.org/10.1080/03115519708619171

Mcnamara, K J, 2014
Early Paleozoic colonisation of the land: evidence from the Tumblagooda Sandstone, Southern Carnarvon Basin, Western Australia. In: Journal of the Royal Society of Western Australia
Volume 97,  Issue 1, Pages: 111--132 https://www.biodiversitylibrary.org/page/58073791#page/119/mode/1up

Owen, Richard, 1851
Description of the Impressions on the Potsdam Sandstone, discovered by Mr. Logan in Lower Canada.,  Geological Society of London Quarterly Journal, v. 7, p.  250-252
https://www.biodiversitylibrary.org/item/108768#page/386/mode/1up

Owen, Richard, 1852
Geological Society of London Quarterly Journal, v. 8, p. 214-225
https://www.biodiversitylibrary.org/item/109911#page/338/mode/1up

Owen, Richard, 1860
Paleontology or A Systematic Summary of Extinct Animals.  Edinburgh: Adam and Charles Black. 420 pages

Plicka, Miroslav, 1968
Zoophycos, and a Proposed Classification of Sabellid Worms. Journal of Paleontology Vol. 42, No. 3 (May, 1968), pp. 836-849   https://www.jstor.org/stable/1302379

Rose, Makae,  Jerald D. Harris, and Andrew R.C. Milner, 2021

A trace fossil made by a walking crayfish or crayfish-like arthropod from the Lower Jurassic Moenave Formation of southwestern Utah, USA    PeerJ. 2021; 9: e10640.   Published online 2021 Jan 26. doi: 10.7717/peerj.10640    PMCID: PMC7845529  PMID: 33569249

Salad Hersi, O., and Lavoie, D. 2000a.
Pre-Cairnside Formation carbonate-rich sandstone: evidence for a Cambrian carbonate platfrom in southwestern Quebec? Current Research 2000-D3, Geological Survey of Canada, Ottawa, ON, Canada.

Salad Hersi, O., and Lavoie, D. 2000b.
Lithostratigraphic revision of the Upper Cambrian Cairnside Formation, upper Potsdam Group, southwestern Quebec. Current Research 2000-D4, Geological Survey of Canada, Ottawa, ON, Canada.

Salad Hersi O, Lavoie D, Hilowle Mohamed A, Nowlan GS. 2002a.
Subaerial unconformity at the Potsdam–Beekmantown contact in the Quebec Reentrant: regional significance for the Laurentian continental margin history. Bulletin and Canadian Petroleum Geology 50: 419-440 [not available]

Sarle, Clifton J. (1906)
Arthrophycus  and  Daedalus  of burrow origin. Proceedings Rochester Academy of Science 4:203–210 (Seilacher: “Pioneer analysis of arthrophycid construction”)
https://www.biodiversitylibrary.org/item/51137#page/285/mode/1up

Sarle, Clifton J. (1906)
Preliminary note on the nature of Taonurus. Proceedings Rochester Academy of Science 4:211–214  
https://www.biodiversitylibrary.org/item/51137#page/293/mode/1up

Selleck, B.W. 1978.
Paleoenvironments of the Potsdam Sandstone and Theresa Formation of the southwestern St. Lawrence Lowlands. In Field Trip Guidebook - New York State Geological Association, 50th Annual Meeting, Syracuse, New York. pp. 173–188.

Selleck, B. W., 1989
Cambrian and Ordovician strata in northeastern New York; In: Sedimentation and basin analyiss in siliclastic rock sequences: Volume 3, Sedimenary sequences in a foreland basin; Field trips for the 28th International Geological Congress; Pages 1 -6

 Selleck, B.W. 1993.
Sedimentology and diagenesis of the Potsdam Sandstone and Theresa Formation, southwestern St. Lawrence Valley. In Field Trip Guidebook - New York State Geological Association, 65th Annual Meeting, Canton, New York. pp. 219–228

Seilacher, A., 2000.
Ordovician and Silurian arthrophycid ichno-stratigraphy. In Geological exploration in the Murzuk Basin. Edited by M.A. Sola and D. Worsley. Elsevier, Amsterdam, pp. 237-258.
https://www.sciencedirect.com/science/article/pii/B9780444506115500131
https://doi.org/10.1016/B978-044450611-5/50013-1

Seilacher, A., 2007.
Trace fossil analysis. Springer, Berlin.  Arthrophycid Burrows at 117-130

Splawinski, T.D,  Patterson J., and  Kwiatkowski, M.  (2016)
The late Cambrian interface of sea and land: Paleoecology and Paleoenvironment of the Upper Cairnside formation, Potsdam Broup, near Beauharnois, Quebec, Canada

Todd, J. E., 1882.
A description of some fossil tracks from the Potsdam Sandstone. Transactions of the Wisconsin Academy of Arts, Sciences, and Letters, 5:276–281.
https://www.biodiversitylibrary.org/item/98475#page/294/mode/1up

VanDiver, Bradford B., 1976
Rocks and Routes of the North Country New York. Geneva, New York: W. F. Humphrey Press Inc., 205 pages

Van Ingen, G. 1902
The potsdam sandstone of the Lake Champlain Basin.  Report of the state palaeontologist for 1901, New York State Museum Bulletin 52, p. 529-545
https://www.biodiversitylibrary.org/item/108251#page/123/mode/1up

Walcott, C. D., 1891,
Correlation papers, Cambrian: U.S. Geological Survey Bulletin 81, 477pp.

Walcott, C. D., 1912,
Cambrian geology and paleontology, Part II, New York Potsdam-Hoyt fauna: Smithsonian Miscellaneous Collections, no. 57, p. 251-279.
 
Wilson, Alice E., 1937
Geology of the Paleozoic Rocks of the Ottawa area.  Not published.  Report submitted January 7, 1937 by Alice E. Wilson to Dr. G. A. Young, Geological Survey of Canada.

Wilson, Alice E. , 1946.
Geology of Ottawa–St. Lawrence lowland, Ontario and Quebec. Geological Survey of Canada Memoir, 241

Wilson, Alice E. , 1956
A Guide to the Geology of the Ottawa District. The Canadian Field Naturalist, volume 70, Number 1, 1-68 plus plates

Williams D.A. and Telford, P.G. 1986
Paleozoic geology of the Ottawa area; Geological Association of Canada–Mineralogical Association of Canada–Canadian Geophysical Union, Annual Meeting, Ottawa, Fieldtrip 8 Guidebook, 25 p [Not available]

Wolf, R.R., and Dalrymple, R.W., 1984,
 Grant 187. Sedimentology of the Cambro-Ordovician sandstones of eastern Ontario: Ontario Geological Survey, Miscellaneous Paper 121, p. 240–252.

Wolf, R.R., and Dalrymple, R.W., 1985,
Grant 187. Sedimentology of the Cambro- Ordovician sandstones of eastern Ontario: Ontario Geological Survey, Miscellaneous Paper 127, p. 112–118.

Woodworth, Jay B., 1903
On the sedentary impression of the animal whose trail is known as Climactichnites
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Wynne-Edwards, H. R., 1967
Westport Map-Area, Ontario, with special emphasis on the Precambrian Rocks. Geological Survey of Canada, Memoir 346. 142 pages

Yochelson, E. L., and M.A. Fedonkin, 1991
A Color-marked Early Paleozoic Trail. National Geographic Research and Exploration, 7:453-455.

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Paleobiology of Climactichnites, an Enigmatic Late Cambrian Fossil: Smithsonian Contribution to Paleobiology 74, 74pp. 


Tuesday, 22 September 2020

John Jeremiah Bigsby, M.D.(1792-1881) – Geologist, Physician, Entomologist, Author and Artist

 “Among the pioneers in Canadian Geology, no observer was more
accurate than Dr. J. J. Bigsby, secretary to the Boundary Commissioners
under the Treaty of Ghent. His range of investigation extended
from Quebec to Lake Superior, and beyond the limits of the province in
that direction; and he has accumulated and published a great store of
facts, upon the exactness of which the greatest reliance can be placed.
He is in consequence frequently quoted in this volume as an authority.”
            Sir William Logan, 1863, Geology of Canada, page x

Sir William Logan is generally considered to have been Canada’s greatest geologist.  Elkanah Billings is considered to have been Canada’s greatest paleontologist.  Logan established the Geological Survey of Canada and served as its director from 1842-1870.   Billings was appointed the first Paleontologist to the Geological Survey of Canada in 1856 and served in that position until he died in 1876.   Before Logan and before Billings, John Jeremiah Bigsby was considered the person most knowledgeable on the subjects of geology and paleontology in Upper and Lower Canada.

John Jeremiah Bigsby was the son of Dr. John Bigsby of Nottingham, England, and as he followed in his father’s profession, the son was almost invariably referred to in his lifetime by his full name, or as Dr. John J. Bigsby or as Dr. J. J. Bigsby.  

In previous postings (from 2012, 2013, 2014 and 2015) I have mentioned four medical doctors who contributed to the early understanding of geology of Ontario and Quebec:  Dr. James Wilson (1798-1881)  who practiced as a physician in Perth, Canada West  from 1821 to 1869, and provided the first specimens of Perthite and Peristerite, and the trace fossil that Logan named Climactichnites Wilsoni;  Dr. Andrew Fernando Holmes (1797 -1860), who practiced medicine in Montreal,  whose geological collections formed the nucleus of McGill’s collection and who was instrumental in founding a medical institute in Montreal that later became McGill’s faculty of medicine;   Dr. Edward Van Cortlandt, (1805-1875) who arrived in Bytown in 1832 as the medical officer for the troops, before setting up in private practice (while continuing his association with the military); and Dr. Robert Abraham (1804-1854), who as owner and publisher of the Montreal Gazette was the first to report on the tracks from Beauharnois that Logan and Owen named Protichnites.

Like Dr. James Wilson, Dr. Robert Abraham and Dr. Holmes, John Jeremiah Bigsby took his degree of Doctor of Medicine at Edinburgh University. It is also worth  mentioning that William Edmond Logan registered in 1816 as a medical student at Edinburgh University, but did not complete hia degree.  Dr. John Jeremiah Bigsby  graduated with a  Doctor of Medicine from Edinburgh in 1814.  His doctoral thesis was entitled Disputatio medica inauguralis quaedam de vi arsenici exitiosa complectens.   Various sources suggest that he initially practiced as a surgeon at the Royal Infirmary of Edinburgh.  Two years later he published a paper entitled “On the Effects of Arsenic as they appear in the Human Body After Death” which appeared in The London Medical Repository, Volume 5, No. 6, February 1, 1816 pages 97-104, which occurred while he was at York Hospital, Chelsea.

On March 14, 1816 Dr. J. J Bigsby  joined the British Army as an Assistant Surgeon,  was initially stationed at  the Isle of Wight and then posted to the Cape.  In 1817 Bigsby was sent to British North America as an assistant staff surgeon stationed at Quebec City, Lower Canada.

There are three important  further stages to John Jeremiah Bigsby’s professional career:

- from 1818 to 1826 he served as a physician with the British military in Upper and Lower Canada, but devoted most of his time and energy to geology;   

- from about 1827 to 1846 he practiced medicine at Newark in Nottinghamshire, England and wrote articles devoted principally to medicine; and   

- in 1846 he moved to London with his second wife where he devoted himself to writing– principally on geology– until he died in 1881.

Below I will expand on each of those periods and highlight some of his accomplishments.

It is worth noting that before Bigsby little knowledge was available on the geology of Upper or Lower Canada.   In, 1752 Guettard had published a geologic map of North America which shows the locations of over twenty occurrences of  iron ore, copper, marble, talc, emery, etc. in what are now Ontario and Quebec.  Reed, Wheeler and Tucholke (2005) set out what is covered by the map.   Little else had been reported.  The British defeated the French on the  Plains of Abraham in 1759 and in 1763  the Treaty of Paris awarded  New France to Great Britain.   The Province of Upper Canada  was a part of British Canada established in 1791   The locations of numerous ore deposits  were known and exploited by the British settlers.  (For example, the first iron smelter in Upper Canada was established in 1802 in Furnace Falls, now known as Lyndhurst, smelting iron ore from near Delta, Ontario.)  Rock was also quarried from numerous locations.  However, little  was known about the geology.     


1817 to 1826


In 1817 Bigsby went to Canada as Medical Officer to a detachment of a German Rifle Regiment in the British Service.  In 1819, while stationed at Quebec City, he was commissioned to travel through Upper Canada and make a report on its geology. As a result of those activities he undertook journeys to Lake Huron in 1820 and the north shore of the St. Lawrence in 1821 and Niagara Falls in 1822.   In 1822 he was appointed British Secretary and Medical Officer to the Boundary Commission established under the Treaty of Ghent (the peace treaty that ended the War of 1812 between the United States and the United Kingdom) to set the boundary between the United States and the Upper Canada.    In 1823 he helped explore and map the region between Fort William on Lake Superior and Lake of the Woods.

Barlow (1907) in a report geology of the District of Nipissing, Ontario and of the County of Pontiac, Quebec mentions: 

“The first geological account of the region in question was that of Dr. J. J. Bigsby, who had come to Canada as medical officer to a regiment. About the year 1820 he received an appointment from the Colonial Government to make a general report on the geology of Upper Canada, the absurdly small sum of twenty-six pounds, as he informs us, being granted as pecuniary aid to carry out this extensive undertaking. Dr. Bigsby first made an examination of the Ottawa, Mattawa and French rivers, together with Lake Nipissing, having been granted a free passage to Sault Ste. Marie in one of the Northwest Company's canoes. He gives a good account of the Ottawa river itself and of the country adjoining this stream, and mentions that the Mattawa river, which was the western branch of the Ottawa, often called the Little Ottawa, was known as the Tessouac river by the Indians. The occurrence of crystalline limestones at the Talon chute is noticed, among other interesting facts. The position of 'La Ronde,' a Northwest Company's post, is noted as being situated at the mouth of the Vase river, as well as its subsequent removal to one of the islands in Lake Nipissing.” 

In the period from 1820 to 1826 John Jeremiah Bigsby  published about 10 papers devoted to the geology and geography of North America.  His first paper, entitled, “Remarks on the Environs of Carthage Bridge, near the mouth of the Genesee River” appeared in Silliman’s American Journal in the year 1820.    Here is a list of some of his accomplishments.   For Canada he was:


- first to report on the geology and geography of Lake Huron region
- first to report on the geology and geography of Lake Superior region
- first to report on the geology and geography of Lake Ontario region, including the first to report on the Oak Ridge Moraine north of Toronto
- first to report on the geology and geography of the St. Lawrence valley
- first to report on the geology  of the Island of Montreal and other parts of Quebec
- first to report on many mineral locations in Canada
- first to find the mineral Petalite (lithium aluminum silicate) in North America
- in 1824 the first to report that the basal sandstone beneath the limestone extends from near Kingston, Upper Canada to St. Anne’s, 25 miles northwest of Montreal
- In 1820 the first to collect a new species of Trilobite from North America,  Asaphus platycephalus (now Isotelus  platycephalus (Stokes)),  the first trilobite from what is now Ontario to receive a name, and in 1824 the first trilobite from North America to be described (it was described  by Stokes in an appendix to Bigsby’s paper on Lake Huron)
- in 1825 described a new species of trilobite, Arctinurus castelnau (Bigsby),  from shales at Lockport, New York–  the second  report of a new species of trilobite from New York State – which became the type of Arctinurus
- first to report on many other new species of  fossils, including the following cephalopods:
Actinoceras backi, Stokes 1840  [Othocerae, Bigsby 1824]
Actinoceras Bigsbyi, Bronn 1837 [Othocerae, Bigsby 1824]
Actinoceras whitei, Stokes 1840 [Othocerae, Bigsby 1824]
Discosorus remotus, Bigsby 1824
Discosorus conoideus, Hall 1851 [Columns compose of circular discs, Bigsby, 1824]
Endoceras Rottermundi, Barrande 1866 [Orthoceras, sp., Bigsby 1824]
[see https://books.google.ca/books?id=Z08YAAAAYAAJ
https://www.biodiversitylibrary.org/item/196423#page/5/mode/1up
Catalogue of Fossil Cephalopoda in the British Museum, Part 1 ]

- the first to collect numerous other  new species of fossils, which he was generous enough to give to others to describe, including Caryocrinites ornatus (Say) 1824; Caryocrinites loricatus  (Say) 1824;  Hurona vertebrallis, Stokes 1824, Huronia turbinata, Stokes 1824; Huronia obliqua, Stokes 1824;

In 1823  Bigsby was elected a Fellow of the Geological  Society and in 1824 an honorary member of the American Geological Society.

Entomologist


 While serving as British Secretary and Medical Officer to the Boundary Commission Bigsby collected 1,200 specimens of insects, including 90 new species and two new genera.   Bigsby commented on his collection of insects as follows:

 “I employed my leisure in the examination of the geology of the country, and in the collection of insects. I met with ninety new species of insects and two new genera.  They have been described, and some of them figured, by the Rev. W. Kirby, F.R.S., in the “Fauna Boreali-America” of Sir John Richardson. A list of them will be found in the Appendix.  It was remarkable, that when I had to all appearance exhausted any given locality, the insect  population of the next station, ten or fifteen miles distant, consisted one half of new species, and so on from place to place,—and this, perhaps, from a difference in the vegetation and in the season of the year.  Compassion—deep and irresistible—has made me forswear the occupation of the entomologist, whose very mercies are the cruelties of other men, whether he kill by scalding water or the red-hot iron wire.  I glued to a tray, in a dark charnel-house of 1200 dead insects, a large and beautiful butterfly,  of a sky-blue colour, supposed to be dead. There it was during six months of travel. When I examined my treasures at Quebec, on my return, this imprisoned Peri slowly raised and gently shook its wings to greet  the returning light. Was not this a torture to be shuddered at?"

( See: Shoe and the Canoe, Volume 2 pages 166-7 and Appendix.)

In 1823  he was elected Fellow the Linnean Society of London, the world’s oldest active biological society. 


In 1825 he was elected a member of the American Philosophical Society

1826 to 1846


By the summer of 1826  Dr. J.J. Bigsby had returned to England, where he married Miss Sarah Jamson in July, 1826 at Burton Joyce, Nottinghamshire.  From late 1826 to 1846 Dr. J.J. Bigsby practiced as a medical doctor in Newark-on-Trent, Nottinghamshire.  During parts of that time he also served as a magistrate, alderman and mayor of Newark-on-Trent.   

From 1827 to 1829 he read two papers before the Geological Society of London on the geology of Canada, and published four geological papers:

Bigsby, J.J. 1827, On the Fixed rocks of the Valley of the St. Lawrence, in North America; Philosophical Magazine New Series, Volume 2, 217-220;  read May 18 and June 1, 1827 before Geological Society.

Bigsby, J. J. 1828, On the geology of Quebec and its vicinity, Philosophical Magazine, New Series, Volume 3, 132-133;  read December 5, 1827 before Geological Society.

Bigsby, J. J. 1829, A sketch of the Topography and Geology of Lake Ontario; Philosophical Magazine, New Series, Volume 5, 1-15, 81-87, 263-274, 339-347, 424-431, with map;

From 1832 to 1841 he found time to publish a number of medical or socially conscious/activist articles, including:
    
Bigsby, J.J. (1832), A brief exposition of those benevolent institutions, often denominated self-supporting dispensaries:  with a view to recommend them to the patronage and support of the public, as tending to raise the moral character and improve the condition of the laboring classes. Printed by S. and C. Ridge, 67 pages https://archive.org/details/b22300892

Bigsby, J.J. (1835), Diseases of the Spleen, in the Cyclopedia of Practical Medicine, volume 4, Supplement, pages 55-61, edited by John Forbes, Alexander Tweedy and John Conolly

Bigsby, J.J. (1835),  Observations, pathological and Therapeutic, on the diseases of the Pancreas; Edinburgh Medical and Surgical Journal, 44: 85-102

Bigsby, J.J.  (1836),  Suggestions toward the Improvement of the Dispensary at Newark; Founded on an estimate of the Remedial Wants of the Town and Neighbourhood, 29 pages, and two tables containing Tabular Views of the Management and Results of 30 English Dispensaries,  Printed by S. And C. Ridge
                            
Bigsby, J.J. (1836), A lecture on Mendicity: its ancient and modern history, and the policy of nations and individuals in regard to it; as delivered before the Worksop Mechanics' Institute, on the 14th of April, 1836, 44 pages

Bigsby, J.J. (1839), Use of Oil in Painter’s Colic, London Medical Gazette, New Series, volume 1, 229-230; Summarized as: On the use of Oil in Colica Pictonum. By J. J. Bigsby, British and Foreign Medical Review, 1839, Volume VII, page 284

Bigsby, J.J. (1839), Small Pox and Vaccination in Newark, London Medical Gazette, Sept. 29, 1839, Vol. XXV, p. 18-26

Bigsby, J.J. (1839), On the Medical Relief of the Poor, London Medical Gazette, June 1, 1839, New Series, Vol. II, p. 383-388

Bigsby, J.J., (1841) The Seaside Manual for Invalids and Bathers: or a brief description of the effects of seaair and sunbathing on the human frame, in health and disease. London. Whittaker and Co., 119 pages

As recently as 2002, John Howard and Walter Hess state that Bigsby’s “comprehensive paper” on the pancreas “is a classic in the early clinical history of the pancreas.    That paper also includes the first report of pancreatic cancer.

Bigsby’s report on small pox is also a classic.  There was a epidemic of small pox in Newark-on-Trent in 1839.  Dr. J.J. Bigsby undertook to examine all of those in his area and looked at over 1,000 people.

1846 to 1881


In 1846 Dr. John Jeremiah Bigsby and his second wife, Caroline,  moved to London and he devoted himself to geology.  In the period 1851 to 1878 he published ten papers and books on geology, the most noteworthy of which were:

Bigsby, J.J., 1868, Thesaurus siluricus: the flora and fauna of the Silurian period, 214 pages

Bigsby, J.J., 1878,  Thesaurus devonica-carboniferus, 447 pp

Thesaurus siluricus was published with aid of a grant from the funds of the Royal Society.  It is a list of described Silurian Fossils, and was published in Dr. J.J. Bigsby’s 76th year.   Thesauraus devonica-carboniferus was published in  Dr. J.J. Bigsby’s 85th year.   He was hard at work on a Permian Thesaurus when he died.

Charles Doolittle Walcott (1881) in Correlation Papers Cambrian mentions that “An excellent summary of the Potsdam sandstone was given by Dr. J.J. Bigsby in 1858 in a paper on the Paleozoic Basin of the state of New York.”  

Further, in an article published in 1864  he was one of the first to promote what we now call stromatolites as evidence of life in the Precambrian.      He reported that he had found on the North shore of the St. Lawrence, at the base of Cape Tourment, 36-40 miles below Quebec City, in close-grained quartzose gneiss,  “circular, cup-like, organic (?) body, two or three inches in diameter, with much the look, as well as the size, of a Maclurea[a large gastropod], not, however, with gyrations, but with concentric rings, one within another; the summits are rounded and not sharp-ridged; no radiating striae nor reticulations were observed in it, but they may exist. ... It is probably organic...”     http://www.biodiversitylibrary.org/item/97056#page/238/mode/1up

In 1869 Dr. J.J. Bigsby was elected a fellow of the Geological Society of London and received the Murchison Medal from the Geological Society.   In 1869 he was elected a fellow of the Royal Society, with the notation that he was “distinguished as a geologist and paleontologist.”

In 1881 he served as president to the Geological Society

Bigsby as Writer, Artist  and Historical Commentator: The Shoe and Canoe


The most quoted of Dr. John Jeremiah Bigsby’s works is a book that he wrote to record his travels in Upper and Lower Canada:

Bigsby, J.J.  1850,  The shoe and canoe, or, Pictures of travel in the Canadas : illustrative of their scenery and of colonial life : with facts and opinions on emigration, state policy,  and other points of public interest, Two volumes, London : Chapman and Hall, 1850, 698 p.: illustrated, with maps.

It is quoted as source of customs in Upper and Lower Canada in the early 1800's.   It is also quoted in books written on the Boundary Commission.  It contains the only known description of David Thomson, map maker and astronomer.

The Shoe and Canoe contains 18 engraved plates, a number of which  were prepared from Dr. J.J. Bigsby’s sketches made in the Canadas.     Library and Archives Canada has acquired a number of collections of Bigsby’s works including two grangerized volumes of Bigsby’s The Shoe and Canoe, which are believed to be the author’s copy, including sketches by  Bigsby that were not published.    Library and Archives Canada has an interesting take on Dr. Bigsby’s activities, noting that “he developed an interest in geology, and undertook a number of sketching and geological excursions in Lower and Upper Canada.”    The sketches contain some excellent examples of fur trade posts and native settlements.

Here are Bigsby’s drawings of ‘The Black Falls on Lake Superior’, which was the Frontispiece of Volume 2 of the Shoe and the Canoe, and ‘The Rat Portage, Lake of the Woods’.





Awards


Above I  mentioned that Dr. John Jeremiah Bigsby was a Fellow of the Royal Geographical Society, a Fellow of the Geological Society of London, a Fellow the Linnean Society of London and a Fellow of the Royal Society.   He was also honoured by having the following islands and lakes named after him:
- Bigsby Island in Georgian Bay in Lake Huron
- Bigsby Island in Lake of the Woods
- Bigsby Inlet  in the Queen Charlotte Islands
- Bigsby Lake in Cook County, Minnesota

In addition numerous fossils have been named after him, including:

Actinoceras bigsbyi, Bronn 1837
Agelecrinus bigsbyi,  Schmidt 1874
Ampelita (Helix) bigsbyi, Tryon 1870
Anomocare bigsbyi Walcott
Edriocystis bigsbyi Haeckel
Edrioaster bigsbyi, Hall 1858
Edriocaster bigsbyi
Edriophus bigsbyi
Edriocystis bigsbyi, Haeckel
Graptolithus bigsbyi, Hall, 1865
Huronia bigsbyi, Stokes 1824
Leiopteria bigsbyi, Hall 1884
Liopteria bigsbyi, Hall, Clarke and Swartz, 1913
Lichas (Conolichus) bigsbyi, Hall
Maclurites bigsbyi, Hall, 1861
Oriostoma bigsyi, Walcott
Stromatocerium bigsbyi, Webby 2008
Tetragraptus bigsbyi, Hall, 1858

Bigsby Medal


The Bigsby Medal is awarded biennially by the Geological Society of London, and is one of the most prestigious awards of that society.  It was founded and funded in 1876 by John Jeremiah Bigsby, “and is to be awarded ‘as an acknowledgement of eminent services in any department of Geology, irrespective of the receiver’s country’. The recipient of the medal must have done no more than 25 years’ full-time equivalent research, ‘thus probably not too old for further work, and not too young to have done much’.”   [See https://www.geolsoc.org.uk/About/Awards-Grants-and-Bursaries/Society-Awards/Bigsby-Medal  ]

The Obverse side of the medal is a Portrait of the head of  John Jeremiah Bigsby.  The Reverse is  a representation of a fossil echinoderm Agelacrinites Dicksoni  from the Trenton Limestone (Ordovician), that was found in 1822 by John Jeremiah Bigsby at the Chaudière Falls, Ottawa River, Canada close to what was then Hull, Lower Canada.   (Bytown was founded in 1826.)

Friendly, Kindly, Courteous, Venerable, Generous


One thing that I was struck by in my research was number of kind things that were said about. Dr. John Jeremiah Bigsby.   Here is a sampling of comments:

In the anniversary address of the President of the Geological Society of London, reporting Dr. Bigsby’s death, Robert Etheridge commented that Dr. Bigsby “one of the oldest of our Fellows, and a man endeared to all who knew him by many amiable qualities, died...”

The obituary notice published by the Royal Society contained the following paragraph:
“Dr. Bigsby’s scientific attainments were not more remarkable than his many estimable qualities in private life.  For many years–indeed to the end of his life–he was noted for his unostentatious charity, and for the unceasing interest he took in the education of the poor children in the immediate neighbourhood.  His well-stored mind and his geniality rendered him a most agreeable companion, and endeared him to a large circle of attached friends.”

His obituary notice in Nature mentions “Yet another of the links that have bound geologists of the present time in association with the early leaders of their science has been severed by the removal of the kind and venerable form of Dr. Bigsby.”

Horace Woodward (1908), who served for four years as Assistant in the Library of the Museum of the Geological Society of London, commented in his book entitled “The History of the Geological Society of London”:

“During later years [Dr. Bigsby] devoted himself to the catalogues of Paleozoic fossils...  While engaged in those tasks, between the years 1862 and 1868, no one borrowed more books from the Library of the Society, and no Fellow showed greater kindness of heart and consideration for subordinates.  To the Library assistant it was indeed a pleasure to work at all times, even after official hours, for a man who commanded not only respect but affection.”

Dr. John Jeremiah Bigsby was also generous with his knowledge and the specimens that he collected.   While serving with the Boundary Commission Dr. Bigsby came into contact the Major Stephen Long’s 1823 expedition to find the source of the St. Peter’s River (now known as the Minnesota River).    William Keating (1824), a Professor of Mineralogy and Chemistry in the University of Pennsyvania, Geologist and Historiographer to the Expedition, mentions that Dr. Bigsby “kindly communicated several [localities of minerals] to us, and in mentioning them we shall always state to whom we are indebted for this.  With this acknowledgment we beg leave to offer to that gentleman our thanks for the liberal access he afforded us to his valuable collections, as well as for the information he freely and kindly imparted.”  

Bigsby also contributed to Silliman’s (1824) book ‘Remarks made on a short tour between Hartford and Quebec’, providing details of the succession of strata at the Falls at Montmorenci that Silliman included in his book.

Others also reported on specimens that Dr. J. J. Bigsby shared.  For example,  Gerard Troost (1824) reported on  the mineral Petalite provided by Dr. J. J. Bigsby ;  Gerard Troost (1825) reported on a number of minerals provided by Dr. J. J. Bigsby, including the first occurrence of apophyllite in North America, a new form of Laumonite and an enigmatic crystalline form of amphibole; while Thomas Say (1824) thanked Bigsby for donating crinoid specimens.

Before Sir William Logan and before Elkanah Billings, the person considered most knowledgeable on the subjects of geology and paleontology in the two Canadas was John Jeremiah Bigsby, M.D.   While Bigsby was eclipsed by Logan and Billings, his early work laid the foundation for those that followed.

Christopher Brett
Ottawa

References and Suggested Reading


Anonymous, 1827
Localities of Canadian Minerals, with Notes and Extracts, Chiefly collected from the Writings of John Bigsby, M.D., F.L.S., M..G.S..  The Literary and Historical Society of Quebec. 73 pages
https://books.google.ca/books?id=rNdhAAAAcAAJ

Barlow, Alfred Ernest, 1907
Second Edition of a Report on the Geology and Natural Resources of the area included by the Nipissing and Timjskaming Map-Sheets Comprising portions of the District of Nipissing, Ontario and of the County of Pontiac, Quebec. Geological Survey of Canada, Separate Report no. 962, 319 pages   https://doi.org/10.4095/225770


Bigsby, John J., 1820
Remarks on the environs of Carthage Bridge, near the mouth of the Genesee River;  The American journal of science and arts. Volume 2, 250-254
https://www.biodiversitylibrary.org/item/51607#page/262/mode/1up

Bigsby, John J., 1821
Geological and Mineralogical Observations on the North West Portion of Lake Huron. The American journal of science and arts. Volume 3, 254 -272
https://www.biodiversitylibrary.org/item/97120#page/270/mode/1up

Bigsby, John J., 1822
Notes on the Geography and Geology of Lake Huron. Transactions of the Geological Society.
ser.2 v.1 , 175-209, including Appendix I - On a Trilobite from Lake Huron. By  Charles Stokes; Appendix II -. List of some of the Recent Shells of Lake Huron; and. Appendix III  - Account of an Explosion in a Vein of Pyrites.
https://www.biodiversitylibrary.org/item/111775#page/273/mode/1up

Bigsby, John J., 1822
 Outline of the Mineralogy , Geology, &c. of Malbay, in Lower Canada, The American journal of science and arts. Volume 5, 205-222
https://www.biodiversitylibrary.org/item/97162#page/229/mode/1up

Bigsby, John J., 1824
A list of mineral and organic remains occurring in the Canadas. Am. Jour. Sci., vol. 8, 1824, pp. 60-88.  https://www.biodiversitylibrary.org/item/97257#page/72/mode/1up

Bigsby, John J., 1824
A Sketch of the Geology of the Island of Montreal, By J. J. Bigsby, M. D., Read Dec. 13, 1824.
Annals of the Lyceum Natural History of  New-York., volume1, 198-215
https://www.biodiversitylibrary.org/item/54048#page/7/mode/1up

Bigsby, John J., 1825
Notice of a Cave containing Bones, in Lanark. Upper Canada. The American journal of science and arts. Volume 9, 354-355
https://www.biodiversitylibrary.org/item/97107#page/378/mode/1up

Bigsby, John J., 1825
Description of a new Species of Trilobite.  Journal of the Academy of Natural Sciences of Philadelphia. Vol 4. 365-368
https://www.biodiversitylibrary.org/item/79352#page/379/mode/1up

Bigsby, John J., 1825
On the utility and design of the science of geology, and the best method of acquiring a knowledge of it; with geological sketches of Canada,” Canadian Review and Literary and Historical Journal (Montreal), 1 (1824–25): 377–95. Reprinted in Anonymous, 1827, Localities of Canadian Minerals, with Notes and Extracts, Chiefly collected from the Writings of John Bigsby     https://books.google.ca/books?id=rNdhAAAAcAAJ
 
Bigsby, John J., 1826
Notes on the geography and geology of Lake Superior; The Quarterly Journal, vol.  18: 1-34, 228-289
https://babel.hathitrust.org/cgi/pt?id=hvd.hs1fsf&view=image&seq=1

Bigsby, John J., 1827
On the fixed rocks of the valley of the St. Lawrence in North America (abstract).  The Philosophical Magazine.  New Series, 2: 217-220; https://www.biodiversitylibrary.org/item/53109#page/241/mode/1up
Geological Society of London, Proceedings 1, 23-25
https://www.biodiversitylibrary.org/item/105792#page/31/mode/1up

Bigsby, John J., 1828
On the geology of Quebec and its vicinity (abstract of talk), Geological Society of London, Proceedings. Volume 1:37-38
https://www.biodiversitylibrary.org/item/105792#page/45/mode/1up

Bigsby, John J., 1828
A General Description of Lake Erie, Quarterly Journal of Science, Literature and the Arts. 358-382; 1828 (July -December)
https://www.biodiversitylibrary.org/item/19863#page/374/mode/1up

Bigsby, John J., 1829
A sketch of the topography and geology of Lake Ontario. The Philosophical Magazine. New Series, vol. 5, 1-15, 81-87, 263-274, 339-347, 424-431, map
https://www.biodiversitylibrary.org/item/53111#page/15/mode/1up

Bigsby, John J., 1829
Topography of the River Niagara. Quarterly Journal of Science 27: 39-56 1829 (January to June)
https://books.google.ca/books?id=rpMwAQAAMAAJ&printsec=frontcover&dq=1829+quarterly+journal+of+Science+volume+27&hl=en&sa=X&ved=2ahUKEwiWssCHyfvrAhWCdN8KHS_pAecQ6AEwAHoECAQQAg#v=onepage&q&f=false

Bigsby, John J., 1850
The shoe and canoe : or, Pictures of travel in the Canadas,
Volume 1. London: Chapman and Hall. 352 pages
https://archive.org/details/shoecanoeorpictu01bigsuoft
Volume 2. London: Chapman and Hall. 346 pages
https://archive.org/details/cihm_28072/page/n5/mode/1up

map at: https://archive.org/details/dli.granth.40911/page/354/mode/2up


Bigsby, John J., 1851
On the Erratics of Canada.  Quarterly Journal Geological Society of London, vol. vii, pp. 215–238. https://www.biodiversitylibrary.org/item/108768#page/351/mode/1up

Bigsby, John J., 1852
On the Geology of the Lake of the Woods, South Hudson's  Bay.   Quarterly Journal Geological Society of London, vol. viii, pp. 400-406.
https://www.biodiversitylibrary.org/item/109911#page/574/mode/1up

Bigsby, John J. 1852
On the physical geography, geology, and commercial resources of Lake Superior. R. Inst., Pr. 1: 154-162; Edinburgh New Philosophical Journal 53:55-82
https://www.biodiversitylibrary.org/item/131100#page/71/mode/1up

Bigsby, John J. 1853
On the Geology of Quebec and its environs.   Quarterly Journal Geological Society of London, vol. ix, pp. 82–101, with map and 4 engravings. 
https://www.biodiversitylibrary.org/item/108767#page/202/mode/1up

Bigsby, John J. 1854
On the geology of Rainy Lake, south Hudson Bay. Geol Society of London, Q. J. 10:215-22

 Bigsby, John J., 1858.
On the Palæozoic Basin of the State of New York. Part i. The Stratigraphy and Classification of the Series. Quart. Journ. Geol. Soc.  Lond., vol. xiv,   pp. 241, 305, 306, and 335–427.
 https://www.biodiversitylibrary.org/item/111684#page/578/mode/1up

Bigsby, John J., 1858
 On the Palæozoic Basin of the State of New York. Part ii.Classification of the Palæozoic strata of the State of New York   Quart. Journ. Geol. Soc.  Lond., vol xiv, pp 427-452
https://www.biodiversitylibrary.org/item/111684#page/679/mode/1up

 Bigsby, John J., 1858
On the Palæozoic Basin of the State of New York. Part iii.  An Inquiry into the Sedimentary and other External Relations of the Palceozoic Fossils of the State of New York. Quart. Journ. Geol. Soc.  Lond., vol xv, pp 251- 333  https://www.biodiversitylibrary.org/item/111474#page/328/mode/1up

Bigsby, John J., 1864 
On the Cambrian and Huronian formations;  Quart. Journ. Geol. Soc.  Lond., vol 19, pp 36-52

 Bigsby, John J., 1863 
On the Organic Contents of the Older Metamorphic Rocks : a Review and a Classification.  
The Edinburgh New Philosophical Journal, new series,  vol 17, 171-197.
https://books.google.ca/books?id=Gk8EAAAAYAAJ

Bigsby, John J., 1864
On the Laurentian Formation: its mineral constitution, its geographical distribution, and its residuary elements of life.  Geological Magazine, Dec. 1, vol. i, pp. 154-158, 200–206..

 J. J. Bigsby, 1867
A Brief Account of the 'Thesaurus Siluricus,' with a Few Facts and Inferences.
Proceedings of the Royal Society of London, Vol. 15 (1866 - 1867), pp. 372-385
https://www.biodiversitylibrary.org/item/138616#page/420/mode/1up

Bigsby, John J., 1868
Thesaurus Siluricus:  the flora and fauna of the Silurian period, with addenda (from recent acquisitions). London : J. Van Voorst, 1868, 214 pages
https://www.biodiversitylibrary.org/item/73263#page/9/mode/1up

Bigsby, John J., 1878
Thesaurus Devonico-Carboniferus:  The flora and fauna of the Devonian and Carboniferous periods.  London : John Van Voorst, 1878, 447 pages
https

Brett, Christopher P., 2012
New Display of Dr. James Wilson’s Mineral And Fossil Collection at the Perth Museum. Blog posting October 9, 2012
http://fossilslanark.blogspot.com/2012/10/new-display-of-dr-james-wilsons-mineral_9.html

Brett, Christopher P., 2013a
Perthite from Burgess Ward, Tay Valley Township, Lanark County, Ontario.  Blog posting dated January 14, 2013  http://fossilslanark.blogspot.com/2013/01/perthite-from-burgess-ward-tay-valley.html

Brett, Christopher P., 2013b
Abraham, Logan and Owen: The Discovery of the First Protichnites trackways – Part 1; Blog posting dated August 29, 2013.  http://fossilslanark.blogspot.com/2013/08/abraham-logan-and-owen-discovery-of.html

Brett, Christopher P., 2014
Peristerite and its Connection With Lanark County, Blog posting dated 28 April 2014
http://fossilslanark.blogspot.com/2014/04/

Brett, Christopher P., 2015
Dr. Edward Van Cortlandt, M.D., (1805-1875) of Bytown and Ottawa, Surgeon, Field Naturalist, Museum Curator and Amateur Geologist.  Blog Posting dated Tuesday, 17 March 2015
http://fossilslanark.blogspot.com/2015/03/dr-edward-van-cortlandt-md-1805-1875-of.html

Etheridge, Robert, 1881
 “Obituary Notice: John Jeremiah Bigsby,”, in Anniversary Address of the President. Geological Soc. of London, Quarterly Journal, 37 (1881), [pt.ii]: 39–41 in 37-235 https://www.biodiversitylibrary.org/item/150452#page/893/mode/1up

Guettard, J.É., 1752,
Carte Minéralogique où l’on voit la Nature des Terrains du Canada et de la Lousianne, in Mémoire dans lequel on compare la Canada à la Suisse par rapport à ses mineraux: Histoire de l’Académie Royale des sciences, v. 4, p. 189, plate VII.
Map at: http://www.corpusetampois.com/cse-18-guettard1752carteducanada.jpg

Howard, John M., and Hess, Walter, 2002
History of the Pancreas: Mysteries of a Hidden Organ. Springer.

Keating, William H.,  1825
Narrative of an expedition to the source of St. Peter's River, Lake Winnepeek, Lake of the Woods, [etc.] : performed in the year 1823, by order of the Hon. J.C. Calhoun, Secretary of War, under the command of Stephen H. Long, Volume II.  London: Geo. B. Whittaker.
https://archive.org/details/narrativeofexped00keat_1

Leggett, R. F., 197?
The Bigsby Medal.   Geoscience Canada, Volume 2, Number 1, 64-65
https://journals.lib.unb.ca/index.php/gc/article/view/2901/3418

Morgan, Henry James, 1867
Bibliotheca Canadensis: Or, A Manual of Canadian Literature.   Ottawa: G. E. Desbarats
[Bigsby at page 31; Billings at page 31-35; Logan at 228 -232; Robert Abraham 4-5; Andrew Fernando Holmes at 193]

Rasporich, Anthony W., 2003
“Bigsby, John Jeremiah,” in Dictionary of Canadian Biography, vol. 11, University of Toronto/Université Laval, 2003–, accessed September 21, 2020, http://www.biographi.ca/en/bio/bigsby_john_jeremiah_11E.html.

Reed, John C. Jr.;  Wheeler, John O.; and  Brian E. Tucholke;.2005
Decade of North American Geology Geologic Map of North America—Perspectives and explanation.  The Geological Society of America. 28 pages
https://ngmdb.usgs.gov/gmna/meta_and_manu/gmna_explan_pamphlet.pdf

Say, Thomas, 1825
On two genera and several species of Crinoidea.  By Thomas Say. Read March 1st, 1825
Journal Academy of Sciences, Philadelphia, vol. i p. 289-296
https://www.biodiversitylibrary.org/item/79352#page/303/mode/1up

Silliman, Benjamin, 1824, second Edition
Remarks made on a short tour between Hartford and Quebec. New-Haven: S. Converse
https://babel.hathitrust.org/cgi/pt?id=hvd.hn7zv8&view=image&seq=19

Troost, Gerard, 1824
Description of the American Petalite from Lake Ontario. By G. Troost, M. D. Read January 13th, 1824.    Journal Academy of Sciences, Philadelphia, vol. 3. p. 234-237
https://www.biodiversitylibrary.org/item/79390#page/252/mode/1up

Troost, Gerard, 1825
Description of a new crystalline form of Apophyllite, Laumonite, and Amphibole, and of a
variety of Pearlstoxe. .By Gerard Troost,  Read May 17, 1825.  Journal Academy of Sciences, Philadelphia, vol. 5. p. 51-56
https://www.biodiversitylibrary.org/item/79357#page/61/mode/1up

Wilson, Leonard G., 2013
John Jeremiah Bigsby, MD: British Army physician and pioneer North American geologist.
book chapter in A History of Geology and Medicine. Edited by: C. J. Duffin. Geological Society London Special Publications 375(1):375-394   [ Not Read ]
https://doi.org/10.1144/SP375.20





Monday, 14 September 2020

A Plucked, Glacially Polished, Flat Outcrop of March (Theresa) Formation Rock East of Perth

 [Rewritten and Corrected  October 19, 2021.  I originally visited this outcrop in September, 2020.  I visited the outcrop again on October 18, 2021.   A more thorough examination of the outcrop has convinced me that the plucked texture records deformed stromatolites and biofilms.]

Below are photographs of a flat, glacially polished, flat outcrop exhibiting a plucked, curved texture.  The outcrop is about four kilometers due east of Perth, Ontario.  The rock has been mapped by Wilson and  Dugas (1961) of the Geological Survey of Canada (Map 1089A) and by Williams and Wolf (1984) of the Ontario Geological Survey (Map P2724) as the March Formation interbedded quartz sandstone, sandy dolostone and dolomite.   The March Formation of Ontario is equivalent to the Theresa Formation of Quebec and New York.   

The top surface of the outcrop is badly weathered sandstone.  The plucked texture is about a half inch (1 1/2 centimeters)  deep.  The ruler in the photographs is a meter stick (recording cm and inches).  The underlying beds, which can be observed about 50 meters to the north of the flat outcrop, are comprised of at least ten meters of sandstone and sandy dolostone–undoubtedly the March (Theresa) formation.

 


 

In my September, 2020 posting I suggested three possible origins for the plucked texture:

- trace fossils formed by deposit feeders;

-the trace fossil  Furchenstein, which Othenio Abel (1935) had figured in his text ‘Vorzeitliche Lebensspuren’

- deformed stromatolites or biofilms much like outcrops in Nepean sandstone in Kanata.

My recent (October, 2021) examination of the outcrop has convinced me that the plucked texture records deformed stromatolites and biofilms.  I will include further photographs of the outcrop in a posting in October, 2021.

 The closest looking named trace fossils I could find were Ophiomorpha irregulaire,  Megagrapton submontanum, and Megagrapton submontanum (See López Cabrer  &  Oliver, 2015, figures 3b, 4a, 5, 6 and 2c;  Mourad et al., 2020, figures 4E, 4F; and  Uchman , 1998, figures 104, 105), but none were bang on. 9.

Here is Othenio Abel’s drawing of Furchenstein.

‘Furchenstein’ translates into English as ‘grooved stone’ or ‘furrowed stone.’  Abel noted that his drawing was about 1/8 natural size. When enlarged eight times the grooves  would be about the same size as I observed.   Abel’s  specimen was collected from the alpine lake near Mondsee in the Austrian Alps.   In the text of ‘Vorzeitliche Lebensspuren’ Othenio Abel comments (p. 371-372)  that the ‘Furchenstein’ shown in Figure 309 is typical of flysch sandstones of the Austrian Alpine lake district.    He explains the texture by strong algae growth which decomposes the surface of the sandstone and by insects and other animals eating feeding channels in the sandstone. The current view of Furchenstein  is that the furrows result from Cyanobacteria eating into the rock, which may be assisted by some species of boring mushrooms, and that grazing animals such as snails or some larvae may further hollow out the furrows (see Müller-Stoll, 1986, Whitton  and Mateo, 2012, and German Wikipedia under ‘Furchenstein’).  
        

Trace Fossils Observed in Loose Slabs to the North of the Plucked Outcrop

Below of two photographs of a loose slab of underlying March Formation rock (a sandstone to sandy dolomite) exhibiting a more convincing trace fossil (simple, mostly straight or almost straight, some slightly curved, flattened cylindrical, subhorizontal, about 2 to 5 mm in width, 2 to 3 cm in length, unbranched, some overlapping, in places a chaotic mess; likely made by a deposit feeder; somewhat like Planolites beverlyensis [see figure 14 G in Erickson and Bjerstedt, 1993]   or the burrowing pattern of the trace fossils Arthrophycus linearis or minimus but lacking features of those traces). 



The numbers on the rulers in the above two photographs record inches on top and centimeters below.

Below is a photograph of another loose slab from the same location, exhibiting circular structures, that is perhaps a bed sole exhibiting the trace fossil Bergaueria,  or perhaps a bed top exhibiting the trace fossil Monocraterion. 


 

Christopher Brett
Ottawa

References and Suggested Reading

Abel, Othenio, 1935,
Vorzeitliche Lebensspuren.  Jena: Gustav Fischer, 644 pages

Anonymous, 2020 

Furchenstein, German Wikipedia  https://de.wikipedia.org/wiki/Furchenstein

Bjerstedt, T. W., and J. M. Erickson, 1989
Trace fossils and bioturbation in peritidal facies of the Potsdam-Theresa Formations (Cambrian–Ordovician, northwest Adirondacks): Palaios, v. 4, p. 203–224, doi:10.2307/3514770.     https://www.jstor.org/stable/3514770

Brett, Christopher, 2015
In 1924 a report of Stromatolites in Nepean Sandstone by Dr. Morley E. Wilson of the Geological Survey of Canada, and Other Reports of Stromatolites and Biofilms in the Potsdam,
Blog posting dated November 4, 2015
http://fossilslanark.blogspot.com/2015/11/in-1924-report-of-stromatolites-in.html

Erickson,  J.  Mark, 1993 
 Cambro-ordovician stratigraphy, sedimentation, and ichnobiology of the St. Lawrence  lowlands  - frontenac arch to the Champlain Valley  of New York, Field trip A3 
https://ottohmuller.com/nysga2ge/Files/1993/NYSGA 1993 A3 (1) - CAMBRO-ORDOVICIAN STRATIGRAPHY, SEDIMENTATION, AND ICHNOBIOLOGY OF THE ST. LAWRENCE LOWLANDS - FRONTENAC ARCH TO THE CHAMPLAIN VALLEY OF NEW YORK.pdf

Erickson,  J. M. and Bjerstedt, T. W.,   1993
Trace Fossils and Stratigraphy in the Potsdam and Theresa Formations of the St. Lawrence Lowland, New York.     In  Field Trip Guidebook (pp.A3 1-21)Edition: 65th Annual Meeting Chapter: A3Publisher: New York State Geological Association 
https://www.researchgate.net/publication/306145931_Trace_Fossils_and_Stratigraphy_in_the_Potsdam_and_Theresa_Formations_of_the_St_Lawrence_Lowland_New_York

López Cabrer, María I. & Eduardo B. Oliver, 2015
Ophiomorpha irregulaire and associated trace fossils from the Upper Cretaceous of Patagonia, Argentina: Palaeogeographical and ethological signifi cance. Spanish Journal of Palaeontology
29 (1), 33-44.

Mourad, Belaid ; Cherif Amine , Olev Vinn, Mohammed Nadir Naimi, 2020
First record of trace fossils from the Oxfordian Argiles rouges de Kheneg Formation (Tiaret, northwestern Algeria).   Geologia Croatica 73(2):85-94

Müller-Stoll,  Wolfgang R. , 1986
Der Cyanophyceen-Bewuchs der Furchenoder Hirnsteine des Bodensees. [The cyanophycean growth on the furrows or brain stones of Lake Constance]  Carolinea  44:51–60
https://www.zobodat.at/pdf/Carolinea_44_0051-0060.pdf

Selleck, Bruce Warren, 1985
Paleoenvironments and Petrography of the Potsdam Sandstone, Theresa Formation and Ogdensburg Dolomite (u. Camb.-l. Ord.) of the Southwestern St. Lawrence Valley, New York
https://www.nysga-online.net/wp-content/uploads/2019/06/NYSGA-1978-A6-Paleoenvironments-of-the-Potsdam-Sandstone-and-Theresa-Formation-of-the-Southwestern-St.-Lawrence-Lowlands.pdf

Stigall, Alycia L., 2020
Chondrites, in  Atlas of Ordovician Life - Exploring the fauna of the Cincinnati region,
http://www.ordovicianatlas.org/atlas/ichnofossils/chondrites/

Uchman, A. (1998): Taxonomy and ethology of flysch trace fossils: revision of the
Marian Ksi.zkiewicz collection and studies of complementary material.. Ann Soc
Geol Polon, 68,105.218.

Whitton, Brian A. and Pilar Mateo, 2012
Rivulariaceae .  Chapter 22 (pp.561-591 ) in book: B.A. Whitton (ed.), Ecology of Cyanobacteria II: Their Diversity in Space and Time.   Springer Science+Business Media B.V. , 760 pages   DOI: 10.13140/2.1.2976.3361


Wilson, Morley E. and  Dugas, Jean,  1961,
Map 1089A, Geology, Perth, Lanark and Leeds Counties, Ontario, Geological Survey of Canada; Geology by Morley E. Wilson, 1930 and Jean Dugas, 1949; Descriptive notes by Jean Dugas.
https://doi.org/10.4095/107951

Williams, D.A., 1991
Paleozoic Geology of the Ottawa-St. Lawrence Lowland, Southern Ontario; Ontario Geological Survey, Open File Report 5770, 292 pages; March Formation at 48-57.
http://www.geologyontario.mndmf.gov.on.ca/mndmaccess/mndm_dir.asp?type=pub&id=OFR5770

Williams, D. A. And Wolf, R.R., 1984
Paleozoic Geology of the Perth Area, Southern Ontario; Ontario Geological Survey, Map P. 2724, Geological Series– Preliminary Map. Scale 1:50,000.  Geology 1982
http://www.geologyontario.mndmf.gov.on.ca/mndmfiles/pub/data/imaging/P2724/P2724.pdf

Sunday, 6 September 2020

Found in Ordovician Oxford Formation Rocks of Eastern Ontario

 This week I made two stops to look at the Oxford Formation outcrops on Iveson Drive, Ottawa (including the stop mentioned in my last blog posting) and picked up a number of loose specimens.

Below are photographs of a specimen showing three linked stromatolites.  The stromatolites are much smaller than the ones pictured in my last blog posting.  The specimen was found among the pieces of rubble in a  ditch beside Iveson Drive about ten meters west of the outcrop on the south side of Iveson Drive.  The silver ruler is 6 inches (15.2 cm) long.


Below is a photograph of a specimen showing soft sediment deformation, likely a precursor to a ball-and-pillow structure.  (The numbers on the ruler are in centimeters.)


 

Below is a photograph of a specimen of oolitic packstone. (The  numbers on the ruler record centimeters.)


Below are two photographs of various specimens containing trace fossils, most of which appear to be bedding parallel burrows or resting traces.



Below is a photograph  of a slab bearing a linear trace with dimples adjacent the linear trace, which is arguably the trace fossil Protichnites Owen, 1852.


 

For the  photo the top numbers record inches, while the upside down number record centimeters.

Mud cracks were also noted on a few specimens, and syneresis  cracks (also known as subaqueous shrinkage cracks) on others.


Christopher Brett
Ottawa



Friday, 4 September 2020

Stromatolites in the Ordovician Oxford Formation, Eastern Ontario

 For the past few years Catherine Béland Otis of the Ontario Geological Survey has been mapping the Paleozoic rocks of Eastern Ontario.   A paper by Catherine Béland Otis (2018) summarized her 2018 field work in the Ottawa area and included a photograph of “Stromatolites in the Oxford (Beauharnois) Formation (UTM 459832E 5013215N; southeast corner of the Ottawa map area).”

On September 2, 2020 I visited the outcrop and the took the photographs that follow.





 The stromatolites are the concave down circular structures and are most often laterally linked to adjacent stromatolites.  The ruler in the photographs is a meter stick. The stromatolites are in rock that is dolomite.  When fresh the dolomite is a dark grey. It  weathers buff to light grey.  Lower down in the sequence are thin dolomite beds with shaley parting layers.  The shaley layers are black.  I found a few bedding parallel trace fossils in the shaley layers.   Below is a photograph of the thin layers. To the right of the 33 cm mark on the ruler are some rounded structures that are arguably ball-and-pillow structures representing soft sediment deformation.


 The Oxford (Beauharnois) Formation outcrops at this location on both sides of Iveson Drive at the second intersection with Loney Crescent (assuming you take the entrance to Iveson off 8th Line Road).  Numerous stromatolite domes can be seen in outcrops on both sides of Iveson Drive.  Plugging 45.271285,-75.512069 into Google will show the location.  

Stromatolites have been reported in the Oxford formation of Ontario by numerous authors. They were reported by Logan (1852, 1863) who called them concretions and by Morley Wilson (1924) and Alice Wilson (1945) who both called them Cryptozoon.   Bernstein  (1992) includes a  photograph (figure 9.f) of an outcrop with the caption “Geologist stands on exhumed, large domal stromatolites similar to those described by Logan (1852, 1863) ...).”   Morley Wilson (1924, Plates VII, VIII) and Alice Wilson (1945, plate II B) both included photographs of the stromatolites in the Oxford formation in Ontario.  Morley Wilson’s photographs were of outcrops near Arnprior, while Alice Wilson’s photograph was taken of an outcrop in Osgoode Township, Ontario

When the Ontario Geological Survey mapped the Paleozoic rocks of Eastern Ontario in the early 1980's (e.g., Wolf, Williams, Rae (1984) Map P. 2724 -Ottawa Area) it mapped the Potsdam Group rocks as the Covey Hill Formation and the Nepean Formation.   It mapped the overlying Beekmantown age rocks as two formations, following Alice E. Wilson (1938a, b; 1946), by placing the lower  interbedded quartz sandstone, sandy dolostone and dolostone in the March Formation and the upper dolostone in the  Oxford Formation.   What the OGS called the March Formation is known in Quebec and in New York State as the Theresa formation, and many are calling on Ontario to adopt the name Theresa formation as that term was in use before Alice E. Wilson named the March Formation.  Further, prior to Wilson naming the Oxford Formation, geologists in Quebec had been using the terms Beauharnois formation and Carillon Formation for similar rocks.  In some recent publications the term Oxford Formation has been replaced with (the lower)  Beauharnois formation and (the upper) Carillon Formation when describing Ontario rocks.   See Bernstein (1992) and Salad-Hersi, Lavoie and Nowlan (2003) for a detailed description of the naming issue.   Béland Otis (2018)’s Figure 22.2 is a diagram comparing the nomenclature  in use by the OGS since the early 1980's with the nomenclature proposed in recent publications.

Bernstein’s (1992) Figure 2, entitled “Generalized lithostratigraphy of the Beekmantown Group in the St. Lawrence Lowlands, Quebec and Ontario” shows the location of domal and columnar stromatolites in the  Beauharnois formation and  Carillon Formation.  Williams (1991) noted that “stromatolites and algal lamination are common” in the Oxford Formation in Eastern Ontario and reports stromatolites in three of his measured sections of Oxford Formation rocks (Highway 401 roadcut; Prescott; Highway 16 roadcut, Groveton; roadcut, Harwood Plains, Kanata).   Donaldson and  Chiarenzelli’s (2004b) Field Trip Guide has a stop at Fitzroy Provincial Park, Ontario to look at the stromatolites in the Oxford formation, and include a photograph of the laterally linked stromatolites in the Ottawa River at Fitzroy Provincial Park.  They also included a stop at Almonte, Ontario to look at the stromatolites in the Oxford formation ( likely Carillon Formation, see Dix and Al Rodhan, 2006, outcrop location No. 7) in the Mississippi River.     Keddy (2010 )  mentions the stromatolites in the Mississippi River at the bridge in Appleton, where the rocks are likely in the  Carillon Formation (see Dix and Al Rodhan, 2006, outcrop location No. 8).   Salad-Hersi, Lavoie, and Nowlan (2003) include a photograph of  “Stromatolites of laterally  linked  hemispheroids  (LLH-type)  evolving  into  vertically  stacking  hemispheroids  (SH-type)” in the Ogdensburg Member, Beauharnois Formation in Quebec.     

Stromatolites between one and three metres in diameter in the March Formation can also be seen in the bed of the Jock River at Franktown Road, adjacent the Riverbend Golf Course (Billings, 1975). The riverbed at this location is a Provincially Significant Earth Science ANSI protected site  (Muncaster, 2009) because of the stromatolites.   [On September 11th I drove to where the Franktown Road crosses the Jock River.  Even though the river level was quite low the stromatolites were not visible as the river bed was covered in green and brown slime.  There is a flat outcrop adjacent to the river but it is private land.]

The stromatolites at both Almonte and Appleton are often underwater and not visible (and have been when I’ve tried to look at them).   The ones in the Ottawa River at  Fitzroy Provincial Park are often visible, but are dangerous to look at if the river is high.
 
Recently Nehza and Dix (2012) described the stromatolites of the Carillon Formation and in the younger Pamelia Formation, but their article is not open access.

Husinec and  Donaldson (2014) feature a photograph (figure 15) of stromatolites in the Theresa formation of New York State.   They mention that in Upper New York the “Theresa Formation is unconformably overlain by the  Ogdensburg dolomite. ... . The Ogdensburg Dolomite is best preserved in local quarries, where it commonly contains stromatolites (Kerans, 1977; Selleck, 1984; Van Diver, 1976) formed in upper intertidal to supratidal setting (Kerans, 1977).”    

Christopher Brett
Ottawa


REFERENCE AND SUGGESTED READING

Bernstien, L, 1992,  
A revised lithostratigraphy of the Lower-Middle Ordovician Beekmantown Group, St. Lawrence Lowlands, Quebec and Ontario, Canadian Journal of Earth Sciences 29, 2677-2694 (1992)
https://doi.org/10.1139/e92-212


Brett, Christopher P., 2016
When Stromatolites Were called Concretions, Devil’s Pots, Snow-shoe Tracks and Cannon Balls.  Blog posting Thursday, 17 March 2016
 http://fossilslanark.blogspot.com/2016/03/when-stromatolites-were-called.html

Dix, G.R., and Molgat, Marianne P.,1998
Character of the Middle Ordovician Sauk–Tippecanoe sequence boundary in the Ottawa Embayment (eastern Ontario): possible evidence for platform-interior, Taconic tectonism. Canadian Journal of Earth Sciences, 35 (6): 603–619.  
https://doi.org/10.1139/e98-017

Dix G.R., and Al Rodhan Z. 2006.
A new geological framework for the Middle Ordovician Carillon Formation (uppermost Beekmantown Group, Ottawa Embayment): onset of Taconic foreland deposition and tectonism within the Laurentian platform interior. Canadian Journal of Earth Sciences 43(9): 1367-1387
https://www.nrcresearchpress.com/doi/abs/10.1139/e06-030#.X0wHfrj6iE8

Donaldson, J. A., and Chiarenzelli, J. R., 2004a,
Stromatolites and associated biogenic structures in Cambrian and Ordovician strata in and near Ottawa, Ontario: New York State Geological Association, 76th Annual Meeting, Fieldtrip Guidebook, SUNY, Potsdam, New York, Trip F-1,  p. 1–20.
https://ottohmuller.com/nysga2ge/Files/2004/NYSGA%202004%20F1%20-%20Stromatolites%20And%20Associated%20Biogenic%20Structures%20In%20Cambrian%20And%20Ordovician%20Strata%20In%20And%20Near%20Ottawa,%20Ontario.pdf

Donaldson, J. Allan and Chiarenzelli, Jeffrey R., 2004b,
Precambrian Basement and Cambrian-Ordovician Strata , as Displayed in Three Provincial Parks of Canada, 76th Annual Meeting, Field Trip Guidebook, New York State Geological Association, 283 pages, at pages 63-78.
https://www.nysga-online.net/wp-content/uploads/2019/06/NYSGA-2004-A1-Precambrian-Basement-And-Cambrian-Ordovician-Strata-As-Displayed-In-Three-Provincial-Parks-Of-Canada.pdf

Globensky, Yvon, 1982
Région de Lachute, Rapport Géologique 200, Quebec, Ministère de l'énergie et des Ressources
http://gq.mines.gouv.qc.ca/documents/examine/RG200/RG200.pdf

Husinec, Antun  and J Allan Donaldson, 2014
Lower Paleozoic Sedimentary Succession of the St. Lawrence River Valley, New York and Ontario, in : Geology of the Northwestern Adirondacks and St. Lawrence River Valley (pp.1-28)  86th NEGSA Annual Meeting Field Guidebook, Chapter: A-1. Publisher: New York State Geological Association
https://www.researchgate.net/publication/327513499_Lower_Paleozoic_Sedimentary_Succession_of_the_St_Lawrence_River_Valley_New_York_and_Ontario

Keddy, Cathy, 2010
Triple S Geotur 2010 [An account of a MVFN field trip led by Dr. Allan Donaldson.  The stromatolites at the bridge in Appleton were under water.] https://mvfn.ca/triple-s-geotur-2010/
https://mvfn.ca/wordpress/wp-content/uploads/2010/07/Triple-S-Geotour-2010.pdf

Logan, W. E., 1852,
Geological Survey of Canada, Report of Progress for the Year 1851-52, at page 19.  

Logan, W. E., 1863,
Geology of Canada, Geological Survey of Canada, Report of Progress from its Commencement to 1863, 983 pages,  at pages 112-113

Muncaster Environmental Planning Inc., 2009    (Herein, Muncaster, 2009)
Environmental impact statement and tree conservation report. Proposed residential development and golf course relocation.  Part of lots 7 and 8, Concession iv Geographic Township of Goulbourn, City of Ottawa, Riverbend Golf Course
http://webcast.ottawa.ca/plan/All_Image%20Referencing_Subdivision_Image%20Reference_Environmental_Impact_Statement_and_Tree_Conservation_Report_D07-16-09-0025.PDF

Nehza, Odette and George R. Dix, 2012
Stratigraphic restriction of stromatolites in a Middle and Upper Ordovician foreland-platform succession (Ottawa Embayment, eastern Ontario).  
Canadian Journal of Earth Sciences, 2012, 49(10): 1177-1199, https://doi.org/10.1139/e2012-048

Otis, C. Béland  2018
Paleozoic Geology of Eastern Ontario: Ottawa Area,   Project SO-18-006, pages 22-1 to 22-10, in  Ontario Geological Survey Summary of Field Work and Other Activities, 2018 (OFR 6350) http://www.geologyontario.mndm.gov.on.ca/mndmaccess/mndm_dir.asp?type=pub&id=ofr6350

Salad-Hersi, O; Lavoie, D; Nowlan, G S 2003
Reappraisal of the Beekmantown Group sedimentology and stratigraphy, Montréal area, southwestern Quebec: Implications for understanding the depositional evolution of the Lower-Middle Ordovician Laurentian passive margin of eastern Canada. Canadian Journal of Earth Sciences 40, 2, 2003 p. 149-176,  https://doi.org/10.1139/e02-077
https://www.nrcresearchpress.com/doi/pdf/10.1139/e02-077

Williams, D.A., 1991
Paleozoic Geology of the Ottawa-St. Lawrence Lowland, Southern Ontario; Ontario Geological Survey, Open File Report 5770, 292p.
http://www.geologyontario.mndmf.gov.on.ca/mndmaccess/mndm_dir.asp?type=pub&id=OFR5770

Wilson, Alice E., 1938a
Ottawa Sheet, (East Half) , Carleton and Hull Counties, Ontario and Quebec, Geological Survey of Canada,  Map 413A, Scale 1 inch to 1 mile, Geology by A. E. Wilson, 1935
https://doi.org/10.4095/107511

Wilson, Alice E., 1938b
Ottawa Sheet, (West  Half) , Carleton and Hull Counties, Ontario and Quebec, Geological Survey of Canada, Map 414A,  Scale 1 inch to 1 mile, Geology by A. E. Wilson, 1935
https://doi.org/10.4095/107545

Wilson, Alice E., 1946,
Geology of the Ottawa-St. Lawrence Lowland, Ontario and Quebec, Geological Survey of Canada, Memoir 241, 66 pages.  Plate II B, page 45. Photo No. 81893, Lot 15, Con. viii, Osgoode Township, Ontario
https://doi.org/10.4095/101632 (Open Access)

Wilson, Morley E., 1924,
Arnprior-Quyon and Maniwaki Areas, Ontario and Quebec, Geological Survey of Canada,
Plates VII, VIII,  Memoir 136, 163 pages.
https://doi.org/10.4095/100837 (Open Access)

Wolf, R.R., Williams, D.A., Rae, A.M., 1984
Paleozoic Geology of the Ottawa Area, Southern Ontario. Ontario Geological Survey
Map P2716 Geological Series - Preliminary Map.  Scale 1:50,000 Geology 1982 

http://www.geologyontario.mndmf.gov.on.ca/mndmfiles/pub/data/imaging/P2716//P2716.pdf
 

 


 

Thursday, 27 August 2020

Dave Forsyth’s Photographs of Aspidella from the Richmond Quarry, Lanark County

 I have previously mentioned Dave Forsyth in four of my earlier postings (November 29, 2013; January 29, 2014; August 27, 2015; September 22, 2016).  Dave is a retired geophysicist who has been interested in the rocks of eastern Ontario at least since 1968 when he authored a Bachelor’s thesis with the title “Studies in the Potsdam”.   Dave spent his career with the Earth Physics Branch and the Geological Survey of Canada, Department of Energy, Mines and Resources, Ottawa .   Since his retirement Dave has co-authored at least three geological field trip guides on the rocks of eastern Ontario, and has been active leading geological field trips for the Macnamara Field Naturalists’ Club, Arnprior, the Niagara Peninsula Geological Society and The Grenville Land Stewardship Council.  

Last year I mentioned in numerous blog postings (Brett, 2019a-f) that I had found the Ediacaran fossil Aspidella and Ediacaran rocks at Tackaberry’s active quarry on Highway 7 about five kilometers (three miles)  north of Perth, Lanark County, Ontario.   Last year I sent the information to Dave and he replied that a number of years ago he had seen similar structures at an abandoned quarry close to Tackaberry’s active quarry, had photographed them, and would look through his collection of photographs for photos that he had taken at that time.   This year Dave sent to me photographs from his 2008 visit to the Richmond quarry, which is located about one and a half kilometers to the west of Tackaberry’s active quarry.  Below are three of the photos that Dave sent to me.




Dave Forsyth retains ownership of the copyright in the photos.  They cannot be reproduced without his consent and credit being given to him as the photographer and owner of copyright in the photos.

I believe that the concentric features that Dave photographed are the Ediacaran fossil Aspidella.    The third photo also shows many obscure markings, a few of  which I have marked with  neon pink boxes around the features.   Some appear to be stalks, fronds, and the trace fossil Helminthopsis.  Other obscure forms might be algae or an Ediacaran fossil such as Kimberella.

Below is a map showing the location of Tackaberry’s active quarry (red square) and the abandoned Richmond quarry (blue square).    The map is based primarily on extracts from Ontario Geological Survey’s Maps P. 2724 and P. 2725 by Williams and Wolf (1984a, b).  It also contains changes based on Wilson, Liberty  and Reinhardt’s (1972) map.


 The two quarries are located about six kilometers directly north of Perth in Drummond North Elmsley Township.  The quarries are  located in an irregular shaped area of flat lying sedimentary rocks covering approximately 140 square kilometers that I have previously designated the “Drummond Sequence”  that has  been mapped by the Ontario Geological Survey (Williams and Wolf, 1984a, b): and by the Geological Survey of Canada (Wilson and Dugas, 1961; Wilson, Liberty,  and Reinhardt, 1972) as  Ordovician March Formation rocks (interbedded quartz sandstone, dolostone and sandy dolostone).  Finding the Ediacaran fossil Aspidella at the two quarries strongly suggests that the underlying rocks are of Ediacaran age.

The Drummond Sequence falls within the old Drummond Township (now Drummond North Elmsley Township).    On Map P2725 Williams and Wolf (1984a) have mapped the March formation (and hence, the Drummond Sequence) as extending northwest into the old Lanark Township (now the Township of Lanark Highlands).  Their mapping contradicts earlier mapping by Wilson, Liberty  and Reinhardt (1972) who mapped Nepean sandstone, and Precambrian marble, amphibolite and gneiss in that part of  old Lanark Township where Williams and Wolf (1984a) have mapped the March formation.  I have preferred Wilson, Liberty  and Reinhardt’s (1972) map and have shown their rock units in the northwest corner of the attached map.  Interestingly, Wilson and Dugas (1961) mapped a small area of Nepean sandstone ( 2 miles by 1/4 mile) not shown by Williams and Wolf (1984a, b) that falls  within the Drummond Sequence.

Williams and Wolf (1984a, b) show  the block that is the Drummond Sequence as bounded by faults that separate it on the west from Cambrian Nepean Formation Sandstone, on the southeast from March Formation,  on the Northeast from Cambrian Nepean Formation Sandstone, on the north and northwest from plutonic and metamorphic rocks of the Grenville Province of the Precambrian Shield.   As I have preferred Wilson, Liberty  and Reinhardt’s (1972) map, the Drummond Sequence is not bounded in the northwest by faults mapped by  Williams and Wolf (1984a) .  Intriguingly, Easton (2017) shows an additional  geophysically defined fault trending southwest- northeast that falls just north of the two quarries.   See Easton’s  (2017)  Figures 18.3. A) and B).

The rocks at the top of the Drummond Sequence have been mapped as the Ordovician March Formation by both the Ontario Geological Survey and the Geological Survey of Canada.  I found no body fossils in these rocks, but found trace fossils suggesting that the rocks are Ordovician (or Cambrian) in age (see photos Sam_0180,  Sam_182 and Sam_0525 shown on my September 13, 2013  blog posting).   The trace fossils are similar to ones found by others in March (Theresa) Formation rocks in New York State.   At Tackaberry’s active quarry the March Formation beds are at most a few meters thick..   

At Tackaberry's active quarry, in the  rocks that are mapped as the March Formation, is a meter thick  layer of rock coloured pink and buff and showing Liesegang banding and rings (Brett, 2012a, first five photographs) likely caused by diagenetic processes involving the circulation of subsurface waters.    The altered rock can be found in outcrops along Highway 7 just north of Perth where the rocks weather grey but the pink colour and the chemical banding in the rocks can still be seen.  Below that layer are tens of meters of flat lying, thin siltstone and sandstone beds bearing Ediacaran fossils (mainly Aspidella) and showing ripple marks (Brett 2019b) and microbial mat textures (Brett2012b, Brett2019c).  Minor carbonate beds are present.   At the base of the quarry are thick sandstone beds that exhibit polygonal cracking (Brett2019c, ninth photo), and which have not yielded any fossils.

For ease of future reference I will define the ‘Drummond Formation’ as that part of the Drummond Sequence that consists of interbedded Ediacaran quartz sandstone, siltstone and minor carbonate rock.   The quartz sandstones and siltstones are thinly to thickly bedded, fine grained, and well sorted. The sandstones and siltstones are coloured light grey, dark grey, brown, buff and reddish brown.   Ripple marks and microbial mat textures are common. Liesegang banding is present in a layer close to the top of the sequence.  Aspidella and other Ediacaran fossils are present.

 Dr. Easton of the Ontario Geological Survey mapped the Precambrian geology of the Perth and Carleton Place areas over the last five years.   He has a map in preparation -- Precambrian geology of the Perth area; Ontario Geological Survey, Preliminary Map P.3818 -- that will hopefully shed some light on the faults and rocks of the Drummond Sequence.     Dr. Easton (2018) noted that  “Most of the major faults shown on the Paleozoic geology map of Williams and Wolf (1984[b]) located solely in Precambrian rocks present in the western half of the Carleton Place map area could not be validated by geology or geophysics.”  The Carleton Place map area covers the northern half of the Drummond Sequence.


Christopher Brett
Ottawa, Ontario


REFERENCES and SUGGESTED READING

Brett, C.P., 2012a
Mud cracks, Liesegang bands and Liesegang rings, and possible Soft-Sediment Deformation Structures in Sedimentary Rocks of Lanark County, Ontario in an Area Mapped as March Formation. Blog posting, 19 October 2012
http://fossilslanark.blogspot.com/2012/10/

Brett, C.P., 2012b
From Trails, to Mud Cracks to Evidence of Microbial Mats: Different Theories For Curved Lines in the troughs of ripple marks in Sandstone.  Blog Posting 5 November 2012
http://fossilslanark.blogspot.com/2012/11/from-trails-to-mud-cracks-to-evidence.html

Brett, C. P., 2019a
Concentric Structures in the Sedimentary Rocks of Lanark County, Ontario that are identical to the Ediacaran Holdfast Aspidella.  Blog posting dated  8 March 2019 -
http://fossilslanark.blogspot.com/2019/03/holdfasts-in-lower-ordovician-march.html

Brett, C. P., 2019b
 Fossil Ripple Marks in Rocks Near Perth Ontario. Blog posting dated 17 March 2019,

Brett, C. P., 2019c
Possible Fossil Microbial Mat Structures in Rocks Near Perth, Ontario.  Blog posting dated 28 March 2019.

Brett, C. P., 2019d
A Selection of Fossils from the ‘March Formation’ in Lanark County, Ontario - A Correction.  Blog posting dated  24 March 2019
http://fossilslanark.blogspot.com/2019/03/a-selection-of-fossils-from-march.html

Brett, C. P., 2019e
If the Ediacaran discoid holdfast Aspidella, why not Ediacaran Stalks, Spindles and Fronds in Lanark County?   Blog posting dated   29 March 2019
http://fossilslanark.blogspot.com/2019/03/if-ediacaran-discoid-holdfast-aspidella.html

Brett, C. P., 2019f - Tubular Structures in the Ediacaran Drummond Sequence in Lanark County, Ontario.  Blog posting dated  22 October 2019   http://fossilslanark.blogspot.com/2019/

Easton, R. M., 2015
Project Unit 15-014. Precambrian and Paleozoic Geology of the Perth Area, Grenville Province, in Summary of Field Work and Other Activities, 2015. Ontario Geological Survey, OFR 6313
at pages 18-1 to 18- 13   

Easton, R.M. 2016. Precambrian and Paleozoic geology of the Perth area, Grenville Province; in Summary of Field Work and Other Activities, 2016, Ontario Geological Survey, Open File Report 6323, p.17-1 to 17-13.

Easton, R.M., 2017
Precambrian and Paleozoic Geology of the Carleton Place Area, Grenville Province.  Project SO-17-001, Chapter 18 in Ontario Geological Survey 2017. Summary of Field Work and Other Activities, 2017; Ontario Geological Survey, Open File Report 6333, 408p.

Easton, R. M. 2018
Precambrian Geology and Mineral Potential of the Carleton Place Area, Grenville Province . Chapter 14. Project SO-17-001. In Ontario Geological Survey 2018. Summary of Field Work and Other Activities, 2018; Ontario Geological Survey, Open File Report 6350, 426p.

Easton, R.M., 2020 [in press].
 Precambrian geology of the Perth area; Ontario Geological Survey, Preliminary Map P.3818, scale 1:50 000.

Williams, D.A., and Wolf, R.R., 1984a
Paleozoic Geology of the Perth Area, Southern Ontario; Ontario; Geological Survey, Map P. 2724, Geological Series-Preliminary Map, scale 1:50 000. Geology 1982.
http://www.geologyontario.mndmf.gov.on.ca/mndmfiles/pub/data/imaging/P2724/P2724.pdf

Williams, D.A., and Wolf, R.R.,  1984b
Paleozoic Geology of the Carleton Place Area, Southern Ontario; Ontario Geological Survey, Map P. 2725, Geological Series-Preliminary Map, scale 1:50 000. Geology 1982.

Wilson, A. E., Liberty, B. A., and Reinhardt, 1972,
Geology Carleton Place, Ontario.  Map 1362, Geological Survey of Canada. Scale 1:50,000
Paleozoic geology by A. E. Wilson, 1946.  Paleozoic compilation by B. A. Liberty, 1963, with changes and additions by E. W. Reinhardt, 1972.  Precambrian geology and compilation by E. W. Reinhardt, 1963, 1969, 1972

Wilson, M E; Dugas, J., 1961
Geological Survey of Canada, "A" Series Map 1089A, 1961, 1 sheet; https://doi.org/10.4095/107951 

 FIELD TRIP GUIDES, ETC., CO-AUTHORED BY DAVE FORSYTH

Donaldson,  Al, Forsyth, Dave,  Findlay, Chris  and Bud Andress, 2010
Fall geology/ecology boat tour - St Lawrence River  1000 Islands.  October 17, 2010.
http://www.frontenacarchbiosphere.ca/explore/fab-education/geology/st-lawrence-river-thousand-islands-geology-boat-tour

Forsyth, D.A. and Forsyth, M.E. 2013a
Madawaska to Macnamara Trail and Macnamara Trail Geotours. Macnamara Field Naturalists Club.    www.mfnc.ca
https://mfnc.ca/wp-content/uploads/2013/02/arnpriorgeotour.pdf

Forsyth, D.A. and Forsyth, M.E.,  2013b
A  geology primer for the Morris Island Conservation Area..  Macnamara Field Naturalists Club.
https://mfnc.ca/wp-content/uploads/2013/02/morrisislandconversationarea_geology.pdf

Forsyth, D.A. and Forsyth, M.E., 2011,
Pillars in the Park, GAC/AGC - MAC/AMC - SEG - SGA  Joint Annual Meeting, Ottawa 2011, Abstracts Volume 34, at page 66
https://gac.ca/wp-content/uploads/2018/11/2011_Ottawa2011AbstractsVolume.pdf

Forsyth, D.A., 2011
Evidence and Hypothesis – How the Sandstone Cylinders Formed
GAC/AGC - MAC/AMC - SEG - SGA  Joint Annual Meeting, Ottawa 2011, Abstracts Volume 34, at pages 66-67
https://gac.ca/wp-content/uploads/2018/11/2011_Ottawa2011AbstractsVolume.pdf