Relating environmental change and species stability in Late Ordovician seas

REFERENCES

• Blakey, R.C., 2011: Library of paleogeography. http://cpgeosystems.com/.
   Google Scholar
• Brame, H.-M.R. & Stigall, A.L., 2014: Controls on niche stability in geologic time: congruent responses to biotic and abiotic environmental changes among Cincinnatian (Late Ordovician) marine invertebrates. Paleobiology40, 70–90.
   Web of Science ®Google Scholar
• Broennimann, O., Treier, U.A., Müller-Schärer, H., Thuiller, W., Peterson, A.T. & Guisan, A., 2007: Evidence of climatic niche shift during biological invasion. Ecology Letters10, 701–709.
   PubMed Web of Science ®Google Scholar
• Brown, J.H., Stevens, G.C. & Kaufman, D.M., 1996: The geographic range: size, shape, boundaries, and internal structure. Annual Review of Ecology and Systematics27, 597–623.
   Google Scholar
• Dattilo, B.F., Brett, C.E. & Schramm, T.J., 2012: Tempestites in a teapot? Condensation-generated shell beds in the Upper Ordovician, Cincinnati Arch, USA. Palaeogeography, Palaeoclimatology, Palaeoecology367, 44–62.
   Web of Science ®Google Scholar
• Eldredge, N. & Gould, S.J., 1972: Punctuated Equilibria: an alternative to phyletic gradualism. In T.J.M.Schopf (ed.): Models in paleobiology, 82–115. San Francisco, CA: Freeman, Cooper and Co.
   Google Scholar
• Eldredge, N., Thompson, J.N., Brakefield, P.M., Gavrilets, S., Jablonski, D., Jackson, J.B.C., Lenski, R.E., Lieberman, B.S., McPeek, M.A. & MillerIII, W., 2005: The dynamics of evolutionary stasis. Paleobiology31, 133–145.
   Web of Science ®Google Scholar
• Environmental Systems Research Institute (ESRI)., 2008: ArcGIS desktop: release 9.3. Redlands, CA: ESRI.
   Google Scholar
• Hammer, O., Harper, D.A.T. & Ryan, P.D., 2001: PAST: paleontological statistics software package for education and data analysis. Paleontologia Electronica4 (1), 9.
   Google Scholar
• Holland, S.M., 1997: Using time/environment analysis to recognize faunal events in the Upper Ordovician of the Cincinnati Arch. In C.E.Brett & G.C.Baird (eds.): Paleontological events: stratigraphic, ecological, and evolutionary implications, 309–334. New York: Columbia University Press.
   Google Scholar
• Holland, S.M., 2009: Paleogeography and paleoenvironment. In D.L.Meyer & R.A.Davis (eds.): A sea without fish: life in the Ordovician sea of the Cincinnati region, 214–226. Bloomington, IN: Indiana University Press.
   Google Scholar
• Holland, S.M. & Patzkowsky, M.E., 1996: Sequence stratigraphy and long-term paleoceanographic change in the Middle to Upper Ordovician of the eastern United States. In B.Witzke, J.Day & G.A.Ludvigson (eds.): Paleozoic sequence stratigraphy: views from the North American Craton, 117–130. Denver, CO: Geological Society of America, Spcial Paper 306.
   Google Scholar
• Holland, S.M. & Patzkowsky, M.E., 2007: Gradient ecology of a biotic invasion: biofacies of the type Cincinnatian Series (Upper Ordovician), Cincinnati, Ohio region, USA. Palaios22, 392–407.
   Web of Science ®Google Scholar
• Jin, J., 2001: Evolution and extinction of the North American Hiscobeccus brachiopod fauna during the Late Ordovician. Canadian Journal of Earth Science38, 143–151.
   Web of Science ®Google Scholar
• Jin, J., 2012: Cincinnetina, a new Late Ordovician dalmanellid brachiopod from the Cincinnati type area, USA: implications for the evolution and palaeogeography of the epicontinental fauna of Laurentia. Palaeontology55, 205–228.
   Web of Science ®Google Scholar
• Kammer, T.W., Baumiller, T.K. & Ausich, W.I., 1997: Species longevity as a function of niche breadth: evidence from fossil crinoids. Geology25, 219–222.
   Web of Science ®Google Scholar
• Lieberman, B.S., MillerIII, W.I. & Eldredge, N., 2007: Paleontological patterns, macroecological dynamics and the evolutionary process. Evolutionary Biology34, 28–48.
   Web of Science ®Google Scholar
• Malizia, R.W. & Stigall, A.L., 2011: Niche stability in Late Ordovician articulated brachiopod species before, during, and after the Richmondian Invasion. Palaeoecology, Palaeoclimatology, Palaeogeography311, 154–170.
   Web of Science ®Google Scholar
• Meyer, D.L. & Davis, R.A., 2009: A sea without fish: Life in the Ordovician sea of the Cincinnati region. 368 pp.Bloomington, IN: Indiana University Press.
   Google Scholar
• Patzkowsky, M.E. & Holland, S.M., 2007: Diversity partitioning of a Late Ordovician marine biotic invasion: controls on diversity in regional ecosystems. Paleobiology33, 295–309.
   Web of Science ®Google Scholar
• Pearman, P.B., Guisan, A., Broennimann, O. & Randin, C.F., 2008: Niche dynamics in space and time. Trends in Ecology and Evolution23, 149–158.
   PubMed Web of Science ®Google Scholar
• Peterson, A.T., 2011: Ecological niche conservatism: a time-structured review of evidence. Journal of Biogeography38, 817–827.
   Web of Science ®Google Scholar
• Peterson, A.T., Soberón, J., Pearson, R.G., Anderson, R.P., Martínez-Meyer, E., Nakamura, M. & Araújo, M.B., 2011: Ecological niches and geographic distributions. 328 pp.Princeton, NJ: Princeton University Press.
   Google Scholar
• Phillips, S.J., Anderson, R.P. & Schapire, R.E., 2006: Maximum entropy modeling of species geographic distributions. Ecological Modeling190, 231–259.
   Web of Science ®Google Scholar
• Rasmusson, C.M.Ø., 2013: Late Ordovician brachiopods from eastern North Greenland: equatorial offshore migration of the Red River fauna. Palaeontology56, 359–379.
   Web of Science ®Google Scholar
• Rode, A.L. & Lieberman, B.S., 2004: Using GIS to unlock the interactions between biogeography, environment, and evolution in Middle and Late Devonian brachiopods and bivalves. Palaeogeography, Palaeoclimatology, Palaeoecology211, 345–359.
   Web of Science ®Google Scholar
• Sohrabi, A. & Jin, J., 2013: Evolution of the Rhynchotrema-Hiscobeccus lineage: implications for the diversification of the Late Ordovician epicontinental brachiopod fauna of Laurentia. Lethaia46, 188–210.
   Web of Science ®Google Scholar
• Stigall, A.L., 2010a: Using GIS to assess the biogeographic impact of species invasions on native brachiopods during the Richmondian Invasion in the Type-Cincinnatian (Late Ordovician, Cincinnati region). Palaeontologia Electronica13, 5A.
   Google Scholar
• Stigall, A.L., 2010b: Speciation decline during the Late Devonian Biodiversity Crisis related to species invasions. PLoS ONE5 (12), e15584.
   Google Scholar
• Stigall, A.L., 2011: Application of niche modeling to analyze biogeographic patterns in Paleozoic brachiopods: evaluating niche stability in deep time. Memoirs of the Association of Australian Palaeontologists41, 229–255.
   Google Scholar
• Stigall, A.L., 2012a: Using ecological niche modeling to evaluate niche stability in deep time. Journal of Biogeography39, 772–781.
   Web of Science ®Google Scholar
• Stigall, A.L., 2012b: Speciation and collapse and invasive species dynamics during the Late Devonian “Mass Extinction”. GSA Today22 (1), 4–9.
   Google Scholar
• Tyler, C.L. & Leighton, L.R., 2011: Detecting competition in the fossil record: support for character displacement among Ordovician brachiopods. Palaeogeography, Palaeoclimatology, Palaeoecology307, 205–217.
   Web of Science ®Google Scholar
• Walls, B.J. & Stigall, A.L., 2011: Analyzing niche stability and biogeography of Late Ordovician brachiopod species using ecological niche modeling. Palaeogeography, Palaeoclimatology, Palaeoecology299, 15–29.
   Web of Science ®Google Scholar
• Weins, J.J., Ackerly, D.D., Allen, A.P., Anacker, B.L., Buckley, L.B., Cornell, H.V., Damschen, E.I., Davies, T.J., Grytnes, J.A., Harrison, S.P., Hawkins, B.A., Holt, R.D., McCain, C.M. & Stephens, P.R., 2010: Niche conservatism as an emerging principle in ecology and biology. Ecology Letters13, 1310–1324.
   PubMed Web of Science ®Google Scholar
• Wright, D.F. & Stigall, A.L., 2013, in pressGeologic drivers of Late Ordovician faunal change in Laurentia: investigating links between tectonics, speciation, and biotic invasions speciation, and biotic invasions. PLoS ONE8 (7), e68353.
   Google Scholar