Wednesday, December 1, 2010

Jurassic Dinosaurs from Morrison, Colorado.


In the late 1870s Jurassic dinosaurs were discovered in Morrison, Colorado. The animals excavated by Arthur Lakes and his field crew formed the foundation for Upper Jurassic paleobiology in North America. Dinosaurian icons, like the spike-tailed Stegosaurus and enormous long-necked Apatosaurus were exhumed in or near the tiny foothills town at the type locality of the famed Morrison Formation.


The Morrison Formation forms part of the base of a prominent asymmetrical ridge known as the Dakota Hogback. Made of Mesozoic sediments, the Upper Jurassic (Kimmeridigian - ?Tithonian) Morrison Formation outcrops on the western face of the lower third of the hogback, beneath the early Late Cretaceous (Aptian) South Platte Formation and the Lower Cretaceous Lytle Formation, (Peterson and Turner, 1998). Both Cretaceous Formations are bundled in the Dakota Group, (Peterson and Turner, 1998). Below the Morrison Formation is the (?)Oxfordian –Kimmeridigan age Ralston Creek Formation, (Peterson and Turner, 1998).


Morrison, Colorado circa 1899. The Morrison Formation outcrops on the hillside behind the village.
Photo copyright Denver Public Library 


Lakes shipped crates of Morrison fossils to New Haven, Connecticut into the hands of O. C. Marsh at the Yale Peabody Museum, (Kohl and McIntosh, 1997). Yale-sponsored crews discovered at least a dozen sites where fossils could be collected on the surface, (Kohl and McIntosh, 1997). Between 1877 and 1879, four of these sites were excavated, two in massive sandstones, Quarry 1 and 5, and two mudrock quarries, Quarry 8 and 10, (Kohl and McIntosh, 1997, Ostrom and McIntosh, 1966, McIntosh, 1995). 


Location of a pair of historic dinosaur quarries with local
geological Formations for context. Interpretation by Bryan Turner.
Photo copyright Denver Public Library 


Fossil Vertebrates from Lakes' Quarries: Reassessment and Discovery
Each site is discussed below in context of what the Yale crew found with modern interpretation of significance. Modern quarry names are borrowed from Ostrom and McIntosh, 1966, while Lakes' nomenclature is preserved in quotes. Only historical specimens are discussed in this section, although modern interpretations are offered with recently collected specimens when relevant.

Lakes' first site, Quarry 1, is historically significant and a glimpse at unusual fauna. Disappointingly, both species recovered there remain obscured by a lack of material. The only indisputable non-dinosaur recovered by Lakes was found in a sandstone talus boulder: the skull of the goniopholid mesoeucrocodylian "Diplosaurus" felix. No other remains have been unearthed at any site, historic or otherwise, in Morrison. 


Sauropod remains were surface collected from the talus blocks Lakes called "Saurian 1." The genoholotype of Atlantosaurus montanus (YPM-1835/YPM 1835A) is based on a weathered, but uncrushed sacrum with ambiguous characters - the size matches that of a large apatosaur but the pinching of the vertebral bodies suggests diplodocine affinity. To date, no other Morrison Formation sauropod sacrum displays the same unique features.


Quarry 5 Sandstone (center photo) near Alameda Parkway.
The original site worked by Lakes is center, right near the
 steel railing of the cement overlook.
Photo copyright M. T. Mossbrucker / MNHM


To the south of Quarry 1, another fluvial (river) sandstone harbored fossils. Quarry 5 produced some of the most significant fossils from the Morrison area, such as the genoholotype of Stegosaurus armatus, YPM-1850, the specimen that defined the genus.


Reconstruction of Stegosaurus armatus, YPM 1850. Highlighted bones in the tail are some YPM 1850 specimens. The remainder of the body is based upon the National Museum of Natural History specimen USNM 6646.
Reconstruction copyright R. T. Bakker & M. T. Mossbrucker 


The Quarry 5 sandstone dips into the hillside, making in situ collection difficult as several meters of sandstone and mudrock cap the bone-bearing layer. Lakes collected specimens in loose blocks as indicated by his field journal "On removing the loose masonary of rock above it... [w]e broke open the block in which it (fossil bone) lay and exposed twelve long black enameled spines [Stegosaurus armatus]" (Kohl and McIntosh, 1997). Lakes' watercolor of work at Quarry 5 depicts a sledgehammer-wielding gentleman cracking open a hard sandstone block. Perhaps this man is the passing farmer who "lent his powerful arm" to cleave the loose boulder for examination by Lakes and crew.



Unprepared proximal tail vertebrae from
Stegosaurus armatus, YPM 1850.
Photo coypright MNHM


In 1993, some of the historic material was loaned to the newly founded Morrison Natural History Museum (MNHM) via the Yale Peabody Museum of Natural History. About half of the material of Stegosaurus specimen YPM 1850, and Apatosaurus specimen YPM 4676 were entrusted to MNHM for study, display, and preparation. Robert O'Donnell, a retired United States Geological Survey fossil preparator began the cleaning of YPM 1850, as the material had never been prepared for study. Although a proximal caudal (tail) vertebra was fully cleaned and returned to Yale, the remainder of the specimen was placed on display in Morrison. The nature of the specimen –hard matrix enveloping softer bone plagued with microfractures – prevented further preparation at the time.


Prepared proximal tail vertebrae from
Stegosaurus armatus, YPM 1850.
Photo coypright MNHM


The specimen YPM 1850 is currently undergoing preparation and evaluation at the Morrison Natural History Museum. Preliminary reports (Mossbrucker, et al., 2009) indicate that S. armatus is unlike any other North American stegosaur in that the mid-tail neural spines are taller and more robust than known stegosauria.


Vertebrae from the mid-tail region from YPM 1850,
the type specimen of Stegosaurus armatus.
Photo copyright M. T. Mossbrucker / MNHM


Sauropod remains were discovered to be miscataloged as YPM 1850 by Matthew Mossbrucker. The nature of Quarry 5 bone deposits are jumbled isolated bones from various taxa, with the exception of S. armatus remains which occur in partially articulated caudal series. The sauropod remains cataloged with YPM 1850 appear to belong to Apatosaurus cf. ajax: a robust pedal ungual (I or II) and a large, left prezyagapophosis and partial neural arch from a dorsal vertebra. A matched pair of diplodocid premaxillae (MNHM-999), belonging to a large individual might match the dentaries of Diplodocus lacustris (YPM 1922). It is more likely that these skull components belong to Apatosaurus, not Diplodocus, as the former is the only diagnosed sauropod from Quarry 5.


Apatosaurus cf. ajax claw, Quarry 5.
Photo copyright M. T. Mossbrucker / MNHM

The holotype for Diplodocus lacustris (specimen YPM-1922) (Marsh, 1884) are based upon a partial dentary with teeth and are nondiagnostic to the generic level and should be considered nomen dubium.




Quarry 8 produced beautifully preserved partial forelimbs and scapula of Apatosaurus ajax, specimen YPM 4676 which are on display currently at the Morrison Museum. The style of preservation is very similar to that of the upper "black streak" mudstone Quarry 10 bones. Lakes field notes and illustrations demonstrate that Quarry 8 was a mudstone quarry (Kohl and McIntosh, 1997). Test trenches made by MNHM staff near Quarry 8 and the green mudstone with orange-stained calcareous concretions match the descriptions by Lakes. This lithology is present far to the south, near Bear Creek, in several layers immediately below Lakes Quarry 10 but these southern outcrops have not produced bones.


Quarry 10 in 2001. The majority of fossils from this site were
discovered in the mudrock below the prominent sandstone beds.
Photo copyright Sally White / MNHM


Quarry 10 was the most prolific dig site in Morrison during the late 1870s. Bones are crowded into two superimposed layers of dark grey siltstone, about a meter thick, separated by a meter thick light green siltstone. Each bone-bearing mudstone layer contains a well preserved specimen of Apatosaurus ajax. Lakes reported a third bone layer in the "ceiling sandstone" above the upper bone bearing mudstone, (Kohl and McIntosh, 1997).

The genoholotypic Apatosaurus ajax, YPM 1860 was collected in the lower siltstone bed. From the upper dark siltstone bed YPM 1861 (Apatosaurus laticollis) and YPM 1840 (Atlantosaurus immanis) were recovered. It is likely that the remains represent at least two individuals, as the composite left "femur" is actually a pair of femora and do not associate. The distal femur at maximum width is narrower than the proximal shaft and head, which is a condition not observed in other diplodocid femora. It appears that these remains were reworked from the top dark grey siltstone into the ceiling sandstone and represent specimens YPM 1861/1840, not another individual, (McIntosh, 1995).


Life restoration of Apatosaurus ajax.
Model by Shane Foulkes and Ewan Sanko. Photo copyright MNHM.


Arthur Lakes records seven shed allosaur teeth were around YPM 1860, suggesting feeding behavior at Quarry 10, (Bakker and Bir, 2004). One crown exists in the YPM collection, specimen YPM 4845. Lakes also notes the presence of turtle carapace/plastron fragments, (Ostrom and McIntosh, 1966), but the specimens are not cataloged at the Yale Peabody Museum of Natural History, nor have any chelonian fragment been unearthed in the Quarry 10 "spoil pile" of displaced siltstone by the Morrison Natural History Museum crew.


Arthur Lakes' excavations at Morrison, Colorado proved fruitful. O. C. Marsh, who used the Morrison sample to name a series of genera that became the foundation for Late Jurassic paleobiology.


Morrison, Colorado. The buff sandstone outcrop in the middleground of the photo is 280 million year old Lyons Formation sandstone. The Dakota Hogback, or "Dinosaur Ridge" is pictured in the background.
Photo copyright M. T. Mossbrucker / MNHM


Lakes' Morrison Discoveries at Morrison, Colorado
Name
Specimen Number
Quarry
Notes
Atlantosaurus montanus
YPM 1835
Quarry 1
Marsh initially dubbed the species Titanosaurus montanus (Marsh, 1877{a})but the genus name was pre-occupied and hence Marsh substituted Atlantosaurus, (Marsh, 1877{b}),
Atlantosaurus immanis
YPM 1840
Quarry10, upper
Partial skeleton from the upper black streak of Quarry 10, and was mixed with specimen YPM 1861, (Marsh 1878).
Apatosaurus laticollis
YPM 1861
Quarry10, upper
Based upon a single posterior cervical vertebrae, (Marsh, 1879).
Apatosaurus ajax
YPM 1860
Quarry10,
lower
First species of the genus, specimen YPM 1860 (Marsh 1877{b}) based upon excellent material from the lower "black streak" mudstone at Quarry 10, (McIntosh 1995).
Stegosaurus armatus
YPM 1850
Quarry 5
The first defined specimen of North American stegosauria (Marsh 1877{c}).
Diplodocus lacustris
YPM 1922
Quarry 5
Long after Lakes had stopped forwarding material from Morrison, Marsh used the sample to define this new species, (Marsh, 1884).
Diplosaurus felix
YPM 517
Quarry 1
Lakes quarries at Morrison produced one non-dinosaurian vertebrate: Marsh erected a new genus of goniopholid mesoeucrocodylian, (Marsh, 1877{d}
"YPM" is the institutional abbreviation for the Yale Peabody Museum of Natural History. 

 
No undisputed mammal, pterosaur, chelonian, or osteichthyian remains were identified by Marsh from the Lakes' collection. Minor specimens, an allosaur tooth (YPM 4845 ) and the Apatosaurus cf. ajax YPM 4833 are not listed here due the incomplete or diagnostic nature of the finds.

Nota Bene:

This is a modified excerpt from M.T. Mossbrucker and R.T. Bakker "A Guide to the Paleontology of the Upper Jurassic Morrison Formation of Morrison, Colorado: New Interpretations and Discoveries." Bulletin of the Morrison Natural History Museum, Volume 1, page 2.


References:

Anonymous, 1899. 'Western History and Geneology' Denver Public Library April 14 2010, web October 27 2010. http://photoswest.org:8080/cgibin/cw_cgi?fullRecord+29130+594+773493+130+0


Bakker, R.T. and Bir, G., 2004, Dinosaur crime scene investigations; Theropod behavior at Como Bluff, Wyoming, and the evolution of birdness. – In Currie, P. J., Koppelhus, E. B., Shugar, M. A., and Wright, J. L., (Eds.): Feathered Dragons: Studies on the transition from dinosaurs to birds Indiana University Press, Bloomington,  p. 301-342.

Kohl, M. and McIntosh J. S. (Eds.), 1997, Discovering Dinosaurs in the Old West: The Field Journals of Arthur Lakes. Washington D.C., Smithsonian Institution Press.
 
Marsh, O.C. 1877 {a}. Notice of a new gigantic dinosaur. American Journal of Science. Series 3, Vol. 14, pp.87-88. –named Titanosaurus montanus
 
Marsh, O.C. 1877 {b}. Notice of some new dinosaurian reptiles from the Jurassic formation. American Journal of Science, Series 3, Vol.14: pp. 514-516. –named Apatosaurus ajax & renamed Atlantosaurus montanus
 
Marsh, O.C. 1877 {c}. A new order of extinct Reptilia (Stegosauria) from the Jurassic of the Rocky Mountains. American Journal of Science, Series 3, Vol.14: pp. 513-514.  –named Stegosaurus armatus
 
Marsh, O. C. 1877 {d}. Notice of some new vertebrate fossils. American Journal of Science. Series 3,  Vol. 14, 249-256. –named Diplosaurus felix
 
Marsh, O.C. 1878. Notice of new dinosaurian reptiles. American Journal of Science, Series 3, Vol.14: pp. 241-244. –named Atlantosaurus immanis
 
Marsh, O.C. 1879. Principal characters of American Jurassic dinosaurs. Part II. American Journal of Science, Series 3, Vol.17: pp. 86-92. –named Apatosaurus laticollis
 
Marsh, O.C. 1884. Principal characters of American Jurassic dinosaurs. Part VII. American Journal of Science, Series 3, Vol.27: pp. 161-167. –named Diplodocus lacustris.
 
McIntosh, J. S. 1995. Remarks on the North American sauropod Apatosaurus Marsh. In A. Sun and Y. Wang (Eds.), Sixth Symposium on Mesozoic Terrestrial Ecosystems and Biota, Short Papers, pp. 119-123. Beijing: China Ocean Press.
 
Mossbrucker, M. T., Bakker, R. T., and Prueher, L., 2009, 'New information regarding the holotype of Stegosaurus (Marsh 1877).' Symposium on Stegosauria Abstracts, Aathal, Switzerland, p. 9.
 
Ostrom, J.H. and McIntosh, J.S., 1966. Marsh's Dinosaurs: The Collections from Como Bluff, Yale University Press, New Haven, CT. 
 
Peterson, Fred, and Turner, C.E., 1998. Stratigraphy of the Ralston Creek and Morrison Formations (Upper Jurassic) near Denver, in Carpenter, Kenneth, Chure, D.J., and Kirkland J.I., editors, The Upper Jurassic Morrison Formation – an interdisciplinary study: Modern Geology Vol.23, pt. 1, p. 3-38.


 


 

Thursday, November 11, 2010

Defining the Jurassic Strata at Morrison, Colorado

The first stratigraphic analysis of what was to become the Morrison Formation was executed in 1873 by Arch. Marvine who measured section along Bear Creek Canyon, from the Precambrian metamorphics in the west to the Cretaceous strata in the east, (Hayden 1874). Published in F. V. Hayden’s monograph on the geology of western states and territories in 1874, Marvine’s section was the first survey of the local Jurassic rock.

The name paleontologist O.C. Marsh and others used to describe the Front Range rock unit, the “Atlantosaurus Beds,” did not satisfy the requirements for a rock unit so  G. H. Eldridge named the Jurassic strata of the Dakota Hogback the “Morrison Formation” in 1896 (Eldridge 1896). The location of the original type section near Bear Creek seemed obscure, and Waldschmidt and LeRoy designated a new type section of the Morrison Formation in 1944, at the Alameda road cut over the Dakota Hogback, (Waldschmidt and LeRoy, 1944).

In 2001 Houck, suggested moving the type locality of the Morrison Formation once more to the I-70 road cut through the hogback, approximately 1.5 miles to the north, (Houck 2001).
All together, these workers have provided a framework for understanding the type area of the Morrison Formation, along a stretch of the Dakota Hogback now known as Dinosaur Ridge. 

The section of the Dakota Hogback known as "Dinosaur Ridge." 
Photo copyright MNHM / M. T. Mossbrucker
Questions that still need resolution include the stratigraphic relationship between the major historic dinosaur quarries: are they synchronous or even isochronous as Lakes suggested, or diachronous as Turner and Peterson found the northern quarries, 1, 8, and 5, in relation to the only southern major site, Quarry 10, (Turner and Peterson, 1999). 

Morrison Natural History Museum Research Associate Bryan Turner has planned a project that will hopefully shed light upon this mystery.

In early 1877 H. C. Beckwith, accompanied by Arthur Lakes, discovered the first dinosaur remains from what would be called the Morrison Formation, north of Morrison, Colorado (Kohl and McIntosh, 1997). Beckwith left excavations almost as soon as they began, leaving Lakes to excavate the fossils, which were sent to O.C. Marsh at Yale College’s Peabody Museum of Natural History, (Kohl and McIntosh, 1997). Over the next two years, Lakes and his crew of former students and townsmen uncovered two species which have become icons of the Jurassic -  the peculiarly armored herbivore Stegosaurus, distinguished by its tall triangular plates, and the long-necked, robust sauropod Apatosaurus.

Nota Bene:

This is a modified excerpt from M.T. Mossbrucker and R.T. Bakker "A Guide to the Paleontology of the Upper Jurassic Morrison Formation of Morrison, Colorado: New Interpretations and Discoveries." Bulletin of the Morrison Natural History Museum, Volume 1, page 2.

Acknowledgement: Thanks to Bryan Turner for his editorial skill.

References:

Eldridge, G.H., 1896, Mesozoic geology, IN Geology of the Denver basin in Colorado: U.S. Geological Survey Monograph, 27, p. 51-151.

Hayden, F. V. 1874. Annual Report of the United States Geological and Geographical Survey of the Territories, Embracing Colorado. Annual Report of the United States Geological and Geographical Survey, plate I.

Kohl, M. and McIntosh J. S. (Eds.), 1997, Discovering Dinosaurs in the Old West: The Field Journals of Arthur Lakes. Washington D.C., Smithsonian Institution Press.

Turner, C.E., and Peterson, Fred 1999. Biostratigraphy of Dinosaurs in the Upper Jurassic Morrison Formation of the Western Interior, U.S.A. in Gillette, David, editor, Vertebrate Paleontology in Utah: Miscellaneous Publication 99-1, Utah Geologic Survey, p. 77-102.

Waldschmidt, W.A. and LeRoy, L.W., 1944, Reconsideration of the Morrison formation in the type area, Jefferson County, Colorado: Geological Society of America Bulletin, v. 55, no. 9, p. 1097-1114. 

Tuesday, November 9, 2010

Morrison, Colorado: Home of the Jurassic.



Morrison Natural History Museum's blog "Jurassic Journal" chronicles the fossil discoveries, historic and modern, around Morrison, Colorado. And what a history it is.


Thanks to mountain-building, strata spanning from the end of the Pennsylvanian through the dawn of the Paleogene can be examined at the surface in the foothills belt west of Denver. This is the setting for significant fossil discoveries in the late 1870s.


View from Quarry 10, the "tomb" of the first Apatosaurus. Mount Morrison is the highest point in the photo,  below that point is world famous Red Rocks Park. The "red" rocks  themselves are 300 million year old alluvial fans that were deposited at the base of the Ancestral Rocky Mountains. By the end of the Jurassic, Apatosaurus would have known no mountains at all. Photo copyright MNHM.


The tiny foothills town of Morrison, Colorado holds a special place in the history of North American paleontology.  An early battlefield in the famed Marsh-Cope “Bone Wars,” Morrison produced the earliest large sample of famous Late Jurassic dinosaurs, (Ostrom and McIntosh, 1966).


The dinosaur beds of the Morrison Formation were co-discovered and excavated by geologist and naturalist Arthur Lakes and his crew between 1877 and 1879, (Kohl and McIntosh, 1997). The formation acquired its initial name - the “Atlantosaurus Beds”- in honor of the first name applied to a gigantic sauropod dinosaur dug by Lakes at his Quarry 1, (Kohl and McInstosh, 1997). At least 13 sites were worked by Lakes; four sites yielded specimens of particular paleontological value due to the diagnostic nature of the fossils yielded.


Future blog posts will discuss each major Morrison fossil site, along with new information on historic specimens, and new finds. 


Nota Bene:

This is a modified excerpt from M.T. Mossbrucker and R.T. Bakker "A Guide to the Paleontology of the Upper Jurassic Morrison Formation of Morrison, Colorado: New Interpretations and Discoveries." Bulletin of the Morrison Natural History Museum, Volume 1, page 1.


Acknowledgement: Thanks to Bryan Turner for his editorial skill.

References:

Kohl, M. and McIntosh J. S. (Eds.), 1997, "Discovering Dinosaurs in the Old West: The Field Journals of Arthur Lakes." Washington D.C., Smithsonian Institution Press.

Ostrom, J.H. and McIntosh, J.S., 1966. Marsh’s Dinosaurs: The Collections from Como Bluff, Yale University Press, New Haven, CT.