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Dedert, Mascha et al. (2012): Productivity response of calcareous nannoplankton to Eocene Thermal Maximum 2 (ETM2)
Leg/Site/Hole:
Related Expeditions:
ODP 198
ODP 208
ODP 198 1209
ODP 208 1265
Identifier:
ID:
2012-091714
Type:
georefid
Creator:
Name:
Dedert, Mascha
Affiliation:
Vrije Universiteit Amsterdam, Faculty of Earth and Life Sciences, Cluster Earth & Climate Department of Earth Sciences, Amsterdam, Netherlands
Role:
author
Name:
Stoll, Heather M.
Affiliation:
Universidad de Oviedo, Spain
Role:
author
Name:
Kroon, Dick
Affiliation:
University of Massachusetts at Amherst, United States
Role:
author
Name:
Shimizu, Nobumichi
Affiliation:
University of Edinburgh, United Kingdom
Role:
author
Name:
Kanamaru, Kinuyo
Affiliation:
Woods Hole Oceanographic Institution, United States
Role:
author
Name:
Ziveri, Patrizia
Affiliation:
Autonomous University of Barcelona, Spain
Role:
author
Identification:
Title:
Productivity response of calcareous nannoplankton to Eocene Thermal Maximum 2 (ETM2)
Year:
2012
Source:
Climate of the Past
Publisher:
Copernicus, Katlenburg-Lindau, International
Volume:
8
Issue:
3
Pages:
977-993
Abstract:
The Early Eocene Thermal Maximum 2 (ETM2) at approximately 53.7 Ma is one of multiple hyperthermal events that followed the Paleocene-Eocene Thermal Maximum (PETM, approximately 56 Ma). The negative carbon excursion and deep ocean carbonate dissolution which occurred during the event imply that a substantial amount (10 (super 3) Gt) of carbon (C) was added to the ocean-atmosphere system, consequently increasing atmospheric CO (sub 2) (pCO (sub 2) ). This makes the event relevant to the current scenario of anthropogenic CO (sub 2) additions and global change. Resulting changes in ocean stratification and pH, as well as changes in exogenic cycles which supply nutrients to the ocean, may have affected the productivity of marine phytoplankton, especially calcifying phytoplankton. Changes in productivity, in turn, may affect the rate of sequestration of excess CO (sub 2) in the deep ocean and sediments. In order to reconstruct the productivity response by calcareous nannoplankton to ETM2 in the South Atlantic (Site 1265) and North Pacific (Site 1209), we employ the coccolith Sr/Ca productivity proxy with analysis of well-preserved picked monogeneric populations by ion probe supplemented by analysis of various size fractions of nannofossil sediments by ICP-AES. The former technique of measuring Sr/Ca in selected nannofossil populations using the ion probe circumvents possible contamination with secondary calcite. Avoiding such contamination is important for an accurate interpretation of the nannoplankton productivity record, since diagenetic processes can bias the productivity signal, as we demonstrate for Sr/Ca measurements in the fine (<20 mu m) and other size fractions obtained from bulk sediments from Site 1265. At this site, the paleoproductivity signal as reconstructed from the Sr/Ca appears to be governed by cyclic changes, possibly orbital forcing, resulting in a 20-30% variability in Sr/Ca in dominant genera as obtained by ion probe. The approximately 13 to 21% increase in Sr/Ca above the cyclic background conditions as measured by ion probe in dominating genera may result from a slightly elevated productivity during ETM2. This high productivity phase is probably the result of enhanced nutrient supply either from land or from upwelling. The ion probe results show that calcareous nannoplankton productivity was not reduced by environmental conditions accompanying ETM2 at Site 1265, but imply an overall sustained productivity and potentially a small productivity increase during the extreme climatic conditions of ETM2 in this portion of the South Atlantic. However, in the open oceanic setting of Site 1209, a significant decrease in dominant genera Sr/Ca is observed, indicating reduced productivity.
Language:
English
Genre:
Serial
Rights:
URL:
http://www.clim-past.net/8/977/2012/cp-8-977-2012.pdf
Coverage:
Geographic coordinates:
North:32.4000
West:2.3800
East: 158.3100
South:-28.5000
Keywords:
Stratigraphy; algae; alkaline earth metals; Atlantic Ocean; atmospheric transport; calcite; calcium; calcium carbonate; carbon; carbon dioxide; carbonates; Cenozoic; climate forcing; Coccolithophoraceae; Coccolithus; cycles; dissolved materials; Eocene; human activity; Leg 198; Leg 208; metals; microfossils; nannofossils; nannoplankton; North Pacific; Northwest Pacific; Ocean Drilling Program; ODP Site 1209; ODP Site 1265; orbital forcing; Pacific Ocean; Paleocene; Paleocene-Eocene Thermal Maximum; Paleogene; paleogeography; paleotemperature; pH; phytoplankton; plankton; Plantae; SEM data; Shatsky Rise; solution; South Atlantic; strontium; Tertiary; transport; upwelling; Walvis Ridge; West Pacific;
.
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