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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Atlantic Ocean
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sedimentary rocks
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Respiratory medium and circulatory anatomy constrain size evolution in marine macrofauna
Idiographic and nomothetic approaches to heterogeneity are complementary: Response to comments on “Evaluating the influences of temperature, primary production, and evolutionary history on bivalve growth rates”
Body size, sampling completeness, and extinction risk in the marine fossil record
A framework for the integrated analysis of the magnitude, selectivity, and biotic effects of extinction and origination
Evaluating the influences of temperature, primary production, and evolutionary history on bivalve growth rates
Is biodiversity energy-limited or unbounded? A test in fossil and modern bivalves
Stratigraphic distribution of marine fossils in North America
Covariation in macrostratigraphic and macroevolutionary patterns in the marine record of North America
Macrostratigraphy and macroevolution in marine environments: testing the common-cause hypothesis
Abstract Quantitative patterns in the sedimentary rock record predict many different macroevolutionary patterns in the fossil record, but the reasons for this predictability remain uncertain. There are two competing, but non-mutually exclusive, hypotheses: (1) similarities reflect a sampling bias imposed by variable and incomplete sampling of fossils, and (2) similarities reflect environmental perturbations that influence both the patterns of sedimentation and macroevolution (i.e., common-cause). Macrostratigraphy, which is based on the quantitative analysis of hiatus-bound rock packages, permits variation in the rock record to be expressed in terms of rock quantity and, more importantly, spatiotemporal continuity. In combination with spatially-explicit fossil occurrence data in the Paleobiology Database, it is now possible to more rigorously test alternative hypotheses for similarities in the rock and fossil records and to start distinguishing between geologically-controlled sampling bias and the common-cause hypothesis. Here we summarize results from measuring the intersection of Macrostrat and the Paleobiology Database. Our results suggest that patterns in the fossil record are not dominated by large-scale stratigraphic biases. Instead, they suggest that linkages between multiple Earth systems are driving both spatiotemporal patterns of sedimentation and macroevolution.