ReefHistory: Difference between revisions
Line 13: | Line 13: | ||
== Interpretation == | == Interpretation == | ||
A. Indicate changes in climate<br> | A. Indicate changes in climate<br> | ||
I. Acidification Effects<br> | |||
II. Temperature Effects<br> | |||
B. Showing Evolution Over Time<br> | B. Showing Evolution Over Time<br> | ||
I. Changes in fish with similar ecological niches<br> | I. Changes in fish with similar ecological niches<br> |
Revision as of 19:28, 23 February 2015
Reefs in the Fossil Record
Formation
A. Range of Time Period of Origin
B. Process of Becoming a Fossil
C. Factors That Lead to Becoming a Fossil
Location
A. Map with short description
Media:F1.large.jpg
Interpretation
A. Indicate changes in climate
I. Acidification Effects
II. Temperature Effects
B. Showing Evolution Over Time
I. Changes in fish with similar ecological niches
C. Demonstrating Biome Changes
I.Transition from other reef builders to corals
II. Changes in predator and prey species
References
1. Lieberman, B. S., & Kaesler, R. (n.d.). Prehistoric Life : Evolution and the Fossil Record. Wiley-Blackwell. Retrieved from http://site.ebrary.com.libproxy.lib.unc.edu/lib/uncch/detail.action?docID=10387090
2. Bellwood, D. R., Goatley, C. H. ., Brandl, S. J., & Bellwood, O. (2014). Fifty million years of herbivory on coral reefs: fossils, fish and functional innovations. Proceedings of the Royal Society B, 281, 1–8.
3. Hopping Hotspots: Global Shifts in Marine Biodiversity. W. Renema, D. R. Bellwood, J. C. Braga, K. Bromfield, R. Hall, K. G. Johnson, P. Lunt, C. P. Meyer, L. B. McMonagle, R. J. Morley, A. O'Dea, J. A. Todd, F. P. Wesselingh, M. E. J. Wilson and J. M. Pandolfi.
Science. New Series, Vol. 321, No. 5889 (Aug. 1, 2008), pp. 654-657. http://www.jstor.org/stable/20054634.
4.Kiessling, W., & Simpson, C. (2011). On the potential for ocean acidification to be a general cause of ancient reef crises. Global change biology, 17(1), 56–67. doi:10.1111/j.1365-2486.2010.02204.x