MAS3K: An Open Dataset for Marine Animal Segmentation

Previous analyses of the history of Phanerozoic marine biodiversity suggested that the post-Paleozoic increase observed at the family level and below was caused, in part, by an increase in global provinciality associated with the breakup of Pangea. Efforts to characterize the Phanerozoic history of provinciality, however, have been compromised by interval-to-interval variations in the methods and standards used by researchers to calibrate the number of provinces. With the development of comprehensive, occurrence-based data repositories such as the Paleobiology Database (PaleoDB), it is now possible to analyze directly the degree of global compositional disparity as a function of geographic distance (geo-disparity) and changes thereof throughout the history of marine animal life. Here, we present a protocol for assessing the Phanerozoic history of geo-disparity, and we apply it to stratigraphic bins arrayed throughout the Phanerozoic for which data were accessed from the PaleoDB. Our analyses provide no indication of a secular Phanerozoic increase in geo-disparity. Furthermore, fundamental characteristics of geo-disparity may have changed from era to era in concert with changes to marine venues, although these patterns will require further scrutiny in future investigations.

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An Analysis of the History of Marine Animal Diversity

Paleobiology ◽

10.1666/06020.1 ◽

2007 ◽

Vol 33 (sp6) ◽

pp. 1-55 ◽

Cited By ~ 48

Author(s):

Steven M. Stanley

Keyword(s):

Marine Animal ◽

Animal Diversity ◽

History Of

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Microbial analysis of a composted product of marine animal resources and isolation of bacteria antagonistic to a plant pathogen from the compost

The Journal of General and Applied Microbiology ◽

10.2323/jgam.54.149 ◽

2008 ◽

Vol 54 (3) ◽

pp. 149-158 ◽

Cited By ~ 22

Author(s):

Chie Niisawa ◽

Shin-ichiro Oka ◽

Hiroaki Kodama ◽

Mitsuyo Hirai ◽

Yoshifumi Kumagai ◽

...

Keyword(s):

Plant Pathogen ◽

Marine Animal ◽

Microbial Analysis ◽

Animal Resources

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Mass extinctions alter extinction and origination dynamics with respect to body size

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2021.1681 ◽

2021 ◽

Vol 288 (1960) ◽

Author(s):

Pedro M. Monarrez ◽

Noel A. Heim ◽

Jonathan L. Payne

Keyword(s):

Body Size ◽

Mass Extinction ◽

Evolutionary Biology ◽

Marine Animal ◽

Mass Extinctions ◽

Extinction Selectivity ◽

Extinction Events ◽

Mass Extinction Events ◽

Marine Biosphere

Whether mass extinctions and their associated recoveries represent an intensification of background extinction and origination dynamics versus a separate macroevolutionary regime remains a central debate in evolutionary biology. The previous focus has been on extinction, but origination dynamics may be equally or more important for long-term evolutionary outcomes. The evolution of animal body size is an ideal process to test for differences in macroevolutionary regimes, as body size is easily determined, comparable across distantly related taxa and scales with organismal traits. Here, we test for shifts in selectivity between background intervals and the ‘Big Five’ mass extinction events using capture–mark–recapture models. Our body-size data cover 10 203 fossil marine animal genera spanning 10 Linnaean classes with occurrences ranging from Early Ordovician to Late Pleistocene (485–1 Ma). Most classes exhibit differences in both origination and extinction selectivity between background intervals and mass extinctions, with the direction of selectivity varying among classes and overall exhibiting stronger selectivity during origination after mass extinction than extinction during the mass extinction. Thus, not only do mass extinction events shift the marine biosphere into a new macroevolutionary regime, the dynamics of recovery from mass extinction also appear to play an underappreciated role in shaping the biosphere in their aftermath.

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Biotic and Abiotic Controls on the Phanerozoic History of Marine Animal Biodiversity

Annual Review of Ecology Evolution and Systematics ◽

10.1146/annurev-ecolsys-012021-035131 ◽

2021 ◽

Vol 52 (1) ◽

Author(s):

Andrew M. Bush ◽

Jonathan L. Payne

Keyword(s):

Biotic Interactions ◽

Annual Review ◽

Publication Date ◽

Data Sets ◽

Marine Animal ◽

Marine Animals ◽

Marine Habitat ◽

Positive Feedbacks ◽

Abiotic Controls ◽

Time Changes

During the past 541 million years, marine animals underwent three intervals of diversification (early Cambrian, Ordovician, Cretaceous–Cenozoic) separated by nondirectional fluctuation, suggesting diversity-dependent dynamics with the equilibrium diversity shifting through time. Changes in factors such as shallow-marine habitat area and climate appear to have modulated the nondirectional fluctuations. Directional increases in diversity are best explained by evolutionary innovations in marine animals and primary producers coupled with stepwise increases in the availability of food and oxygen. Increasing intensity of biotic interactions such as predation and disturbance may have led to positive feedbacks on diversification as ecosystems became more complex. Important areas for further research include improving the geographic coverage and temporal resolution of paleontological data sets, as well as deepening our understanding of Earth system evolution and the physiological and ecological traits that modulated organismal responses to environmental change. Expected final online publication date for the Annual Review of Ecology, Evolution, and Systematics, Volume 52 is November 2021. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

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