Past and future decline of tropical pelagic biodiversity
Journal
Proceedings of the National Academy of Sciences
Journal Volume
117
Journal Issue
23
Pages
12891
Date Issued
2020
Author(s)
Yasuhara, Moriaki
Wei, Chih-Lin
Kucera, Michal
Costello, Mark J.
Tittensor, Derek P.
Kiessling, Wolfgang
Bonebrake, Timothy C.
Tabor, Clay R.
Feng, Ran
Baselga, Andr?s
Kretschmer, Kerstin
Kusumoto, Buntarou
Abstract
A major research question concerning global pelagic biodiversity remains unanswered: when did the apparent tropical biodiversity depression (i.e., bimodality of latitudinal diversity gradient [LDG]) begin? The bimodal LDG may be a consequence of recent ocean warming or of deep-time evolutionary speciation and extinction processes. Using rich fossil datasets of planktonic foraminifers, we show here that a unimodal (or only weakly bimodal) diversity gradient, with a plateau in the tropics, occurred during the last ice age and has since then developed into a bimodal gradient through species distribution shifts driven by postglacial ocean warming. The bimodal LDG likely emerged before the Anthropocene and industrialization, and perhaps ∼15,000 y ago, indicating a strong environmental control of tropical diversity even before the start of anthropogenic warming. However, our model projections suggest that future anthropogenic warming further diminishes tropical pelagic diversity to a level not seen in millions of years. © 2020 National Academy of Sciences. All rights reserved.
SDGs
Other Subjects
article; biodiversity; climate change; foraminifer; fossil; ice age; industrialization; last glacial maximum; nonhuman; planktonic foraminifera; sea; species distribution; tropics; warming; animal; physiology; plankton; sediment; tropic climate; Animals; Biodiversity; Climate Change; Fossils; Geologic Sediments; Plankton; Tropical Climate
Type
journal article