D'Hondt, Steven (2005): Consequences of the Cretaceous/Paleogene mass extinction for marine ecosystems

Leg/Site/Hole:
ODP 165
DSDP 74
DSDP 86
DSDP 74 527
DSDP 74 528
DSDP 86 577
ODP 165 1001
Identifier:
2006-030958
georefid

10.1146/annurev.ecolsys.35.021103.105715
doi

Creator:
D'Hondt, Steven
University of Rhode Island, Graduate School of Oceanography, Narragansett, RI, United States
author

Identification:
Consequences of the Cretaceous/Paleogene mass extinction for marine ecosystems
2005
Annual Review of Ecology, Evolution, and Systematics
Annual Reviews, Palo Alto, CA, United States
36
295-317
One of the greatest mass extinctions in Earth's history occurred at the end of the Cretaceous era, sixty-five million years (Myr) ago. Considerable evidence indicates that the impact of a large asteroid or comet was the ultimate cause of this extraordinary event. At the time of mass extinction, the organic flux to the deep sea collapsed, and production of calcium carbonate by marine plankton radically declined. These biogeochemical processes did not fully recover for a few million years. The drastic decline and long lag in final recovery of these processes are most simply explained as consequences of open-ocean ecosystem alteration by the mass extinction. If this explanation is correct, the extent and timing of marine biogeochemical recovery from the end-Cretaceous event was ultimately contingent on the extent and timing of open-ocean ecosystem recovery. The biogeochemical recovery may in turn have created new evolutionary opportunities for a diverse array of marine organisms.
English
Serial
Coverage:Geographic coordinates:
North:32.2632
West:-74.5436East: 157.4324
South:-28.3130

General paleontology; Stratigraphy; algae; Atlantic Ocean; biologic evolution; C-13/C-12; carbon; Caribbean Sea; Cenozoic; Cretaceous; Deep Sea Drilling Project; DSDP Site 527; DSDP Site 528; DSDP Site 577; Foraminifera; Invertebrata; IPOD; isotope ratios; isotopes; K-T boundary; Leg 165; Leg 74; Leg 86; lower Paleocene; marine environment; mass extinctions; Mesozoic; microfossils; nannofossils; North Atlantic; Ocean Drilling Program; ODP Site 1001; Pacific Ocean; Paleocene; paleoecology; paleoenvironment; Paleogene; Plantae; Protista; South Atlantic; stable isotopes; stratigraphic boundary; Tertiary; Upper Cretaceous; Walvis Ridge;

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