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Coral Sr-U thermometry (2016)

DeCarlo, Thomas M. ; Gaetani, Glenn A. ; Cohen, Anne L. ; [et al.]

John WIley & Sons

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Publication Date: 2022-05-26

Description: Author Posting. © American Geophysical Union, 2016. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Paleoceanography 31 (2016): 626–638, doi:10.1002/2015PA002908.

Description: Coral skeletons archive past climate variability with unrivaled temporal resolution. However, extraction of accurate temperature information from coral skeletons has been limited by “vital effects,” which confound, and sometimes override, the temperature dependence of geochemical proxies. We present a new approach to coral paleothermometry based on results of abiogenic precipitation experiments interpreted within a framework provided by a quantitative model of the coral biomineralization process. DeCarlo et al. (2015a) investigated temperature and carbonate chemistry controls on abiogenic partitioning of Sr/Ca and U/Ca between aragonite and seawater and modeled the sensitivity of skeletal composition to processes occurring at the site of calcification. The model predicts that temperature can be accurately reconstructed from coral skeleton by combining Sr/Ca and U/Ca ratios into a new proxy, which we refer to hereafter as the Sr-U thermometer. Here we test the model predictions with measured Sr/Ca and U/Ca ratios of 14 Porites sp. corals collected from the tropical Pacific Ocean and the Red Sea, with a subset also analyzed using the boron isotope (δ11B) pH proxy. Observed relationships among Sr/Ca, U/Ca, and δ11B agree with model predictions, indicating that the model accounts for the key features of the coral biomineralization process. By calibrating to instrumental temperature records, we show that Sr-U captures 93% of mean annual temperature variability (26–30°C) and has a standard deviation of prediction of 0.5°C, compared to 1°C using Sr/Ca alone. The Sr-U thermometer may offer significantly improved reliability for reconstructing past ocean temperatures from coral skeletons.

Description: NSF Grant Numbers: OCE-1338320, OCE-1031971, OCE-1220529; NSF Graduate Research Fellowships

Description: 2016-12-11

Keywords: Coral ; Paleoclimate ; Sea surface temperature ; Geochemistry ; Biomineralization

Repository Name: Woods Hole Open Access Server

Type: Article

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Drake passage benthic foraminiferal abundance during the last deglaciation (2020)

Stewart, Joseph A ; Li, Tao ; Spooner, Peter T ; [et al.]

PANGAEA

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Publication Date: 2024-02-02

Description: The Antarctic Cold Reversal (ACR; 14.7 to 13 ka) phase of the last deglaciation saw a pause in the rise of atmospheric pCO2 and Antarctic temperature, contrasted with warming in the North. Mechanisms associated with interhemispheric heat transfer have been proposed to explain features of this event, but the response of marine biota and the carbon cycle are debated. The Southern Ocean is a key site of deep-water exchange with the atmosphere, hence deglacial changes in nutrient cycling, circulation, and productivity in this region may have global impact. Here we present a new perspective on the sequence of events in the deglacial Southern Ocean, that includes multi-faunal benthic assemblage (foraminifera and cold-water corals) and geochemical data (Ba/Ca, 14C, δ11B) from the Drake Passage. Our records feature anomalies during peak ACR conditions indicative of circulation, biogeochemistry, and regional ecosystem perturbations. Within this cold episode, peak abundances of thick-walled benthic foraminifera and cold-water corals are observed at shallow depths in the sub-Antarctic (~300 m), while coral populations at greater depths and further south diminished. Geochemical data indicate that habitat shifts were associated with enhanced primary productivity in the sub-Antarctic, a more stratified water column, and poorly oxygenated bottom water. These results are consistent with northward migration of primary production in response to Antarctic cooling and widespread biotic turnover across the Southern Ocean. We suggest that expanding sea ice, suppressed ventilation, and shifting centres of upwelling drove changes in planktic and benthic ecology, and were collectively instrumental in halting CO2 rise in the mid-deglaciation.

Keywords: Alabaminella weddellensis; Angulogerina earlandi; Bolivina spp.; Bulimina aculeata; Bulimina sp.; Calendar age; Cassidulina carinata; Cassidulina crassa; Cibicidoides spp.; Core; DEPTH, sediment/rock; Epistominella exigua; Falkland Plateau, Southern Falkland Plateau (same site as GC526); Fissurina spp.; Foraminifera; Foraminifera, benthic agglutinated; Fursenkoina fusiformis; GC; GC528 CORE_NO 528; Globobulimina sp.; Gravity corer; Hoeglundina elegans; Hoeglundina sp.; James Clark Ross; JR20110128; JR244; JR244-GC528; Lagena spp.; Melonis barleeanus; Melonis spp.; Nonionella auris; Nonionella pulchella; Nonionella spp.; Number of taxa; Nuttallides umbonifera; Oridorsalis sp.; Oridorsalis umbonatus; Pullenia bulloides; Pullenia quinqueloba; Pyrgo spp.; Sphaeroidina bulloides; Total counts; Triloculina spp.; Uvigerina bifurcata; Uvigerina spp.; Wet mass

Type: Dataset

Format: text/tab-separated-values, 4995 data points

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U-Th and 14C ages of cold-water corals at Northeast Atlantic from the past 150 thousand years (2022)

de Carvalho Ferreira, Maria Luiza ; Robinson, Laura F ; Stewart, Joseph A ; [et al.]

PANGAEA

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Publication Date: 2024-06-12

Description: The data consist of ~600 U-Th ages of scleractianian cold-water corals dated by laser ablation and isotope dilution methods covering the last 150,000 years. The corals are from three locations: Reykjanes Ridge (57°N to 61°N, 28°W to 33°W); Tropic Seamount (23°55'N, 20°45'W); and the East Equatorial Atlantic from Carter (9°N, 21°W) and Knipovich seamounts (5°N, 27°W). The samples were collected with ROV and dredges during the cruises: CE0806 in 2008 (Reykjanes Ridge); JC094 in 2013 (Equatorial Atlantic); and JC142 in 2016 (Tropic Seamount). Additionally, a compilation of ~750 U-Th and 14C ages of scleractianian cold-water corals from the Northeast Atlantic Ocean is presented. The complete dataset is used to investigate the temporal and spatial coral distribution at Northeast Atlantic Ocean and the relation with past climatic events.

Keywords: Coral biogeography; Holocene; last deglaciation; Last glaciation; Northeast Atlantic; U-Th dating

Type: Dataset

Format: application/zip, 3 datasets

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