Patterns of fossil distributions within their environmental context from the Middle Triassic in South Canyon, Central Nevada, USA

Abstract
References(34)
Related Articles(1)
Read Tracking
Download Tracking

Download: PDF (111620 KB) HTML (1 KB)
Export: BibTeX | EndNote (RIS) Supporting Info

Abstract

The Middle Triassic records the return of diverse marine communities after the severe effects of the end-Permian mass extinction. This diversification leads to the Mesozoic/modern adaptive radiation resulting in substantial changes in marine communities in comparison to their Paleozoic predecessors. This analysis focuses on the faunal abundance, ecological patterns, and environmental interpretation of a Middle Triassic section in Central Nevada. Twelve bulk samples were collected. Visible fossils were identified and tallied from hand samples and thin-sections were used to aid in environmental interpretation. Beginning in the Late Anisian, we observed an ammonoid dominated to flat-clam, epifaunal dominated benthic community within a muddy, quiet, inner shelf depositional environment. Through time, epifaunal bivalves dominate within a middle shelf environment followed by an increase in infaunalization and shell-thickness. During this time the presence of oncoids and the reported finding of corals suggest the middle shelf environment gave way to a higher energy patch reef shelf edge environment. Finally, we observe epifaunal brachiopods communities at the top of our section deposited in a middle shelf environment. In sum, we observe the dominance of modern taxa (i.e., bivalves) with Paleozoic ecologies (i.e., epifaunal), followed by the dominance of modern taxa with Modern ecologies (i.e., infaunal, thick shells) and then a return to Paleozoic taxa (i.e., brachiopods) and Paleozoic ecologies within an overall transgressive environment.

	Service

	E-mail this article
	Add to my bookshelf
	Add to citation manager
	E-mail Alert
	RSS
	Articles by authors
	Pedro M. Monarrez
	Nicole Bonuso

Key words: biotic recovery Middle Triassic Star Peak Group Favret Formation Augusta Mountain Formation

Fund:

This research was supported by grants from California State University to Dr. Bonuso. We would like to thank Dr. Nathaniel J. Lorentz for thoughtful comments and overall field support, and Dr. Frank Corsetti for support with microfacies analyses.

Corresponding Authors: *Corresponding author. E-mail: nbonuso@fullerton.edu.

Cite this article:

Pedro M. Monarrez,Nicole Bonuso. Patterns of fossil distributions within their environmental context from the Middle Triassic in South Canyon, Central Nevada, USA[J]. Journal of Palaeogeography, 2014, 3(1): 74-89 .

URL:

http://www.journalofpalaeogeography.org/EN/10.3724/SP.J.1261.2014.00004 OR http://www.journalofpalaeogeography.org/EN/Y2014/V3/I1/74

[1]	.Balini, M., Jenks, J. F., 2007. The Trachyceratidae from South Canyon (Central Nevada): Record, taxonomic problems and stratigraphic significance for the definition of the Ladinian-Carnian boundary. In: Lucas, S. G., Spielmann, J. A., (eds). The Global Triassic. New Mexico of Natural History and Science Bulletin, 41: 14-22.
[2]	.Balini, M., Jenks, J. F., McRoberts, C. A., Orchard, M. J., 2007. The Ladinian-Carnian boundary succession at South Canyon (New Pass Range, Central Nevada). In: Lucas, S. G., Spielmann, J. A., (eds). Triassic of the American West. New Mexico of Natural History and Science Bulletin, 40: 127-138.
[3]	.Bonuso, N., Bottjer, D. J., 2008. Testing biogeographic, environmental, and taxonomic effects on abundance patterns of Triassic brachiopods and bivalves. Palaios, 23: 43-54.
[4]	.Bucher, H., 1988. A new Middle Anisian (Middle Triassic) ammonoid zone from northwestern Nevada (USA). Eclogae Geologicae Helvetiae, 81: 723-762.
[5]	.Bucher, H., 1992a. Ammonoids of the Hyatti Zone (Middle Anisian, Middle Triassic) and the Anisian transgression in the Star Peak Group (northwestern Nevada). Paleontographica Abt. A, 223: 137-166.
[6]	.Bucher, H., 1992b. Ammonoids of the Shoshonensis Zone (Middle Anisian, Middle Triassic) from northwestern Nevada (USA). Palaeontographica A (Paleozoology, Stratigraphy).
[7]	.Chen, J., Chen, Z. Q., Tong, J. N., 2010. Palaeoecology and taphonomy of two brachiopod shell beds from the Anisian (Middle Triassic) of Guizhou, southwest China: Recovery of benthic communities from the end-Permian mass extinction. Global and Planetary Change, 73: 149-160.
[8]	.Diedrich, C., 2009. Vertebrates of the Anisian/Ladinian boundary (Middle Triassic) from Bissendorf (NW Germany) and their contribution to the anatomy, palaeoecology, and palaeobiogeography of the Germanic Basin reptiles. Palaeogeography, Palaeoclimatology, Palaeoecology, 273: 1-16.
[9]	.Dunham, R. J., 1962. Classification of carbonate rocks according to depositional texture. AAPG Mem., 1: 108-121.
[10]	Emmons, S. F., 1877. Desatoya Mountains. U. S. Geological Exploration. 40th Parallel Report, 2: 644-649.
[11]	Feng, Q., Zhang, Z., Ye, M., 2001. Middle Triassic radiolarian fauna from southwest Yunnan, China. Micropaleontology, 47: 173-204.
[12]	Fl��gel, E., 2004. Microfacies of carbonate racks: Analysis, interpretation and application. Springer: Berlin-Germany, 976.
[13]	Gazdzicki, A., Stanley, G. D., 1983. First report of Involutinidae (Foraminifera) in marine Triassic rocks of North America. Jahrbuch f��r Geologie und Pal?ontologie Monatshefte, 2: 80-90.
[14]	Hoover, P. R., 1991. Late Triassic cyrtinoid spiriferinacean brachiopods from western North America and their biostratigraphic and biogeographic implications. Bulletins of America Paleontology, 100: 63-109.
[15]	Hopkin, E. K., McRoberts, C. A., 2005. Middle Triassic flat clams (Pterioida: Halobiidae) from the Middle Triassic Anisian of North-Central Nevada. Jounral of Paleontology, 79: 796-800.
[16]	Johnston, F. N., 1941. Trias at New Pass, Nevada (New Lower Karnic ammonoids). Journal of Paleontology, 15: 447-491.
[17]	King, C., 1878. Systematic Geology. U. S. Geological Exploration. 40th Parallel Report, 1-803.
[18]	Komatsu, T., Jinhua, C., Meizhen, C., Stiller, F., Naruse, H., 2004. Middle Triassic (Anisian) diversified bivalves; depositional environments and bivalve assemblages in the Leidapo Member of the Qingyan Formation, southern China. Palaeogeography, Palaeoclimatology, Palaeoecology, 208: 207-223.
[19]	MacMillian, J. R., 1972. Late Paleozoic and Mesozoic tectonic events in West Central Nevada. Chicago, IL, Northwestern University.
[20]	McRoberts, C. A., 2001. Triassic bivalves and the initial marine Mesozoic revolution: A role for predators? Geology, 29: 359-362. 2.0.CO;2 target="_blank">
[21]	Miller, A. I., Sepkoski, J. J. J., 1988. Modeling bivalve diversification: The effect of interaction on a macroevolutionary system. Paleobiology, 14: 364-369.
[22]	Mosher, L. C., 1968. Triassic conodonts from western North America and Europe and their correlation. Journal of Paleontology, 42: 895-946.
[23]	Nichols, K. M., Silberling, N. J., 1977. Stratigraphy and depositional history of the Star Peak Group (Triassic), Northwestern Nevada. Geological Society of America Special Paper, 178: 1-73.
[24]	P��lfy, J., 1990. Paleoecological significance of Anisian (Middle Triassic) brachiopod assemblages from the Balaton Highland, Hungary. In: MacKinnon, D. I., Lee, D. E., Campbell, J. D., (eds). Second Annual International Brachiopod Congress. Rotterdam, A. A. Balkema, 2: 241-246.
[25]	Payne, J. L., Lehrmann, D. J., Christensen, S., Wei, J., Knoll, A. H., 2006. Environmental and biological controls on the initiaion and growth of a Middle Triassic (Anisian) reef complex on the great bank of Guizhou, Guizhou Province, China. Palaios, 21: 325-343.
[26]	Posenato, R., 2008. Patterns of bivalve biodiversity from Early to Middle Triassic in the Southern Alps (Italy): Regional vs. global events. Palaeogeography, Palaeoclimatology, Palaeoecology, 261: 145-159.
[27]	Roniewicz, E., Stanley, G. D. Jr., 1998. Middle Triassic cnidarians from the New Pass Range, central Nevada. Journal of Paleontology, 72: 246-256.
[28]	Sepkoski, J. J. Jr., 2002. A compendium of fossil marine animal genera. Bulletins of American Paleontology, 363: 1-560.
[29]	Silberling, N. J., 1956. ��Trachyceras Zone�� in the Upper Triassic of the Western United States. Journal of Paleontology, 30: 1147-1153.
[30]	Silberling, N. J., Nichols, K. M., 1982. Middle Triassic molluscan fossils of biostratigraphic significance from the Humboldt Range, northwestern Nevada. Prof. Pap. U.S. geol. Surv., 1207: 1-77.
[31]	Silberling, N. J., Tozer, E. T., 1968. Biostratigraphic classification of marine Triassic in North America. Geological Society of America Special Paper, 110: 1-63.
[32]	Smith, J. P., 1914. The Middle Triassic marine Invertebrate Faunas of North America. United States Geological Survey, Professional Paper, 83: 1-254.
[33]	Vermeij, G. J., 1977. The Mesozoic marine revolution: Evidence from snails, predators, and grazers. Paleobiology, 3: 245-258.
[34]	Waller, T. R., Stanley, J. G. D., 2005. Middle Triassic pteriomorphian bivalvia (Mollusca) from the New Pass Range, West-Central Nevada: Systematics, biostratigraphy, paleoecology, and paleobiogeography. Journal of Paleontology, 79: 1-58.