Ecological niche modelling does not support climatically-driven dinosaur diversity decline before the Cretaceous/Paleogene mass extinction

Chiarenza, Alfio Alessandro; Mannion, Philip D.; Lunt, Daniel J.; Farnsworth, Alex; Jones, Lewis A.; Kelland, Sarah Jane; Allison, Peter A.

doi:10.1038/s41467-019-08997-2

Cited by 76 publications

(123 citation statements)

References 97 publications

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“…This implies a very rapid recovery of marine productivity (45,46), which argues against the suggested delay in ecosystem reset caused by continued Deccan volcanism after the K/Pg boundary (9,45,46). In contrast to the end-Permian mass extinction, the K/Pg event was geologically instantaneous (2-4, 10, 23, 35), and there is no clear evidence for a prolonged decline (3,4,35,47) that would be required for Deccan volcanism to trigger a mass extinction-level event due to the short residence time of stratospheric aerosols. In addition, studies on marine macrofossils from Antarctica are consistent with a sudden, catastrophic driver for the extinction, such as the bolide impact, rather than a significant contribution from Deccan Traps volcanism during the latest Cretaceous (48).…”

Section: Discussionmentioning

confidence: 96%

Asteroid impact, not volcanism, caused the end-Cretaceous dinosaur extinction

Chiarenza

Farnsworth

Mannion

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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127

107

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The Cretaceous/Paleogene mass extinction, 66 Ma, included the demise of non-avian dinosaurs. Intense debate has focused on the relative roles of Deccan volcanism and the Chicxulub asteroid impact as kill mechanisms for this event. Here, we combine fossil-occurrence data with paleoclimate and habitat suitability models to evaluate dinosaur habitability in the wake of various asteroid impact and Deccan volcanism scenarios. Asteroid impact models generate a prolonged cold winter that suppresses potential global dinosaur habitats. Conversely, long-term forcing from Deccan volcanism (carbon dioxide [CO2]-induced warming) leads to increased habitat suitability. Short-term (aerosol cooling) volcanism still allows equatorial habitability. These results support the asteroid impact as the main driver of the non-avian dinosaur extinction. By contrast, induced warming from volcanism mitigated the most extreme effects of asteroid impact, potentially reducing the extinction severity.

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Section: Discussionmentioning

confidence: 96%

Asteroid impact, not volcanism, caused the end-Cretaceous dinosaur extinction

Chiarenza

Farnsworth

Mannion

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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127

107

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“…While the ENM implemented by Chiarenza et al 1 is impressive and we have no reason to question the accuracy of their model, linking the projected suitable habitat with species diversity presents a slight problem. That is, even though a particular region of geography may represent a suitable habitat for a particular clade, that does not prove that it was inhabited by the target species for any number of reasons -e.g., geographical barriers, low dispersal rates, etc.…”

mentioning

confidence: 83%

“…More crucially, diversity (= species richness) as implied by Chiarenza et al 1 from their ENM, equates to the numbers of taxa within distinct intervals of time -e.g., geological stages. This is regardless of whether various sources of bias have been accounted for -e.g., through the use of rarefaction, SQS 3 , TRiPS 4 , or spatial sampling standardization 5 .…”

mentioning

confidence: 99%

Dinosaurs Still in Long-Term Net Speciation Decline Before the K-Pg Boundary

Sakamoto¹,

Benton²,

Venditti³

2019

Preprint

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A recent study in Nature Communications used ecological niche modelling (ENM) to project suitable habitat for dinosaurs during the latest stages of the Cretaceous Period (83-66 million years [Myr] ago) from detailed climate data, apparently refuting the hypothesis that dinosaurs were in a long-term decline before the Cretaceous-Paleogene (K-Pg) mass extinction event. However, we note here that: 1) suitable habitat does not necessarily equate to taxonomic diversity (i.e., number of species); and 2) lack of a decline in diversity across time intervals is not evidence against a gradual decline in net speciation through time – diversity and net speciation measure two separate things. Diversity measures the number of species within discrete time intervals, while phylogenetically inferred net speciation measures the dynamic relationship between speciation and extinction through time. Additionally, net speciation is estimated in a model framework that accounts for statistically undesired effects of shared ancestry, whereas diversity is not. Thus, diversity and net speciation are not directly comparable, and a lack of a decline in diversity does not necessarily refute a decline in net speciation through time.

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“…The avian fossil record reveals information on where early representatives of various lineages were found and, just as importantly, when in Earth history these birds lived. Paleontological evidence for major fluctuations in avian historical biogeographic patterns therefore raises questions about the extent to which historical factors, such as Cenozoic climatic change, may have been responsible for driving historical shifts in avian geographic range, as has been demonstrated for ectothermic clades, such as turtles (40), and dismissed as a factor influencing the demise of nonavian dinosaurs in the Late Cretaceous (41). Here, we integrate both past and present avian distributional data and climate characterizations to model how habitable regions for 10 neornithine higher level clades ( Fig.…”

Section: Significancementioning

confidence: 99%

Climatic shifts drove major contractions in avian latitudinal distributions throughout the Cenozoic

Saupe

Farnsworth

Lunt

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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Many higher level avian clades are restricted to Earth’s lower latitudes, leading to historical biogeographic reconstructions favoring a Gondwanan origin of crown birds and numerous deep subclades. However, several such “tropical-restricted” clades (TRCs) are represented by stem-lineage fossils well outside the ranges of their closest living relatives, often on northern continents. To assess the drivers of these geographic disjunctions, we combined ecological niche modeling, paleoclimate models, and the early Cenozoic fossil record to examine the influence of climatic change on avian geographic distributions over the last ∼56 million years. By modeling the distribution of suitable habitable area through time, we illustrate that most Paleogene fossil-bearing localities would have been suitable for occupancy by extant TRC representatives when their stem-lineage fossils were deposited. Potentially suitable habitat for these TRCs is inferred to have become progressively restricted toward the tropics throughout the Cenozoic, culminating in relatively narrow circumtropical distributions in the present day. Our results are consistent with coarse-scale niche conservatism at the clade level and support a scenario whereby climate change over geological timescales has largely dictated the geographic distributions of many major avian clades. The distinctive modern bias toward high avian diversity at tropical latitudes for most hierarchical taxonomic levels may therefore represent a relatively recent phenomenon, overprinting a complex biogeographic history of dramatic geographic range shifts driven by Earth’s changing climate, variable persistence, and intercontinental dispersal. Earth’s current climatic trajectory portends a return to a megathermal state, which may dramatically influence the geographic distributions of many range-restricted extant clades.

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Ecological niche modelling does not support climatically-driven dinosaur diversity decline before the Cretaceous/Paleogene mass extinction

Cited by 76 publications

References 97 publications

Asteroid impact, not volcanism, caused the end-Cretaceous dinosaur extinction

Asteroid impact, not volcanism, caused the end-Cretaceous dinosaur extinction

Dinosaurs Still in Long-Term Net Speciation Decline Before the K-Pg Boundary

Climatic shifts drove major contractions in avian latitudinal distributions throughout the Cenozoic

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