The potential of the coral species Porites astreoides as a paleoclimate archive for the Tropical South Atlantic Ocean

Natan S. Pereira; Alcides N. Sial; Robert Frei; Clemens Vinzenz Ullmann; Christoph Korte; Ruy K.P.  Kikuchi; Valderez P. Ferreira; K. H. Kilbourne

doi:10.1016/j.jsames.2017.05.008

The potential of the coral species Porites astreoides as a paleoclimate archive for the Tropical South Atlantic Ocean

Natan S. Pereira, Alcides N. Sial, Robert Frei, Clemens Vinzenz Ullmann, Christoph Korte, Ruy K.P. Kikuchi, Valderez P. Ferreira, K. H. Kilbourne

Geology

3 Citations (Scopus)

Abstract

The aragonitic skeletons of corals are unique archives of geochemical tracers that can be used as proxies for environmental conditions with high fidelity and sub-annual resolution. Such records have been extensively used for reconstruction of climatic conditions in the Pacific and Indian Oceans, Red Sea and Caribbean, but lack for the Equatorial South Atlantic. Here we present coral-based records of Sr/Ca, δ¹⁸O and δ¹³C and the first δ¹⁸O–SST calibration for the scleractinian coral species Porites astreoides from the Rocas Atoll, Equatorial South Atlantic. The investigated geochemical proxies for P. astreoides presented a very well-developed seasonal cyclicity in all proxies. We use the monthly means of δ¹⁸O and SST from the period of 2001–2013 to propose a calibration for a paleothermometer based on Porites, which gives T(°C) = −8.69(±0.79)* δ¹⁸O −7.05(±3.14), and yielded a SST δ¹⁸O–depended reconstruction with fidelity better than 0.5 °C for most of the record. Biases of up to 2 °C might be associated with reduced growth rate periods of the coral record. The Sr/Ca data show systematic, annual fluctuations but analyses are too imprecise to propose a Sr/Ca-SST calibration. The δ¹³C values are found to vary in phase with δ¹⁸O and Sr/Ca and are interpreted to be controlled by solar irradiation-modulated photosynthetic activity on the annual level. Our findings extend the global data base of coral records, contributing to further investigations using coral skeleton as environmental archives. In particular, the present study helps to better understand the climate variability of the South Atlantic tropical ocean-atmosphere system.

Original language	English
Journal	Journal of South American Earth Sciences
Volume	77
Pages (from-to)	276-285
Number of pages	10
ISSN	0895-9811
DOIs	https://doi.org/10.1016/j.jsames.2017.05.008
Publication status	Published - 2017

Keywords

Climate variability
Coral geochemistry
Coral-based archive
Rocas Atoll

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.jsames.2017.05.008

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@article{fecee2e5b0fa462c8a498013a7adcb62,

title = "The potential of the coral species Porites astreoides as a paleoclimate archive for the Tropical South Atlantic Ocean",

abstract = "The aragonitic skeletons of corals are unique archives of geochemical tracers that can be used as proxies for environmental conditions with high fidelity and sub-annual resolution. Such records have been extensively used for reconstruction of climatic conditions in the Pacific and Indian Oceans, Red Sea and Caribbean, but lack for the Equatorial South Atlantic. Here we present coral-based records of Sr/Ca, δ18O and δ13C and the first δ18O–SST calibration for the scleractinian coral species Porites astreoides from the Rocas Atoll, Equatorial South Atlantic. The investigated geochemical proxies for P. astreoides presented a very well-developed seasonal cyclicity in all proxies. We use the monthly means of δ18O and SST from the period of 2001–2013 to propose a calibration for a paleothermometer based on Porites, which gives T(°C) = −8.69(±0.79)* δ18O −7.05(±3.14), and yielded a SST δ18O–depended reconstruction with fidelity better than 0.5 °C for most of the record. Biases of up to 2 °C might be associated with reduced growth rate periods of the coral record. The Sr/Ca data show systematic, annual fluctuations but analyses are too imprecise to propose a Sr/Ca-SST calibration. The δ13C values are found to vary in phase with δ18O and Sr/Ca and are interpreted to be controlled by solar irradiation-modulated photosynthetic activity on the annual level. Our findings extend the global data base of coral records, contributing to further investigations using coral skeleton as environmental archives. In particular, the present study helps to better understand the climate variability of the South Atlantic tropical ocean-atmosphere system.",

keywords = "Climate variability, Coral geochemistry, Coral-based archive, Rocas Atoll",

author = "Pereira, {Natan S.} and Sial, {Alcides N.} and Robert Frei and Ullmann, {Clemens Vinzenz} and Christoph Korte and Kikuchi, {Ruy K.P.} and Ferreira, {Valderez P.} and Kilbourne, {K. H.}",

year = "2017",

doi = "10.1016/j.jsames.2017.05.008",

language = "English",

volume = "77",

pages = "276--285",

journal = "Journal of South American Earth Sciences",

issn = "0895-9811",

publisher = "Pergamon Press",

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TY - JOUR

T1 - The potential of the coral species Porites astreoides as a paleoclimate archive for the Tropical South Atlantic Ocean

AU - Pereira, Natan S.

AU - Sial, Alcides N.

AU - Frei, Robert

AU - Ullmann, Clemens Vinzenz

AU - Korte, Christoph

AU - Kikuchi, Ruy K.P.

AU - Ferreira, Valderez P.

AU - Kilbourne, K. H.

PY - 2017

Y1 - 2017

N2 - The aragonitic skeletons of corals are unique archives of geochemical tracers that can be used as proxies for environmental conditions with high fidelity and sub-annual resolution. Such records have been extensively used for reconstruction of climatic conditions in the Pacific and Indian Oceans, Red Sea and Caribbean, but lack for the Equatorial South Atlantic. Here we present coral-based records of Sr/Ca, δ18O and δ13C and the first δ18O–SST calibration for the scleractinian coral species Porites astreoides from the Rocas Atoll, Equatorial South Atlantic. The investigated geochemical proxies for P. astreoides presented a very well-developed seasonal cyclicity in all proxies. We use the monthly means of δ18O and SST from the period of 2001–2013 to propose a calibration for a paleothermometer based on Porites, which gives T(°C) = −8.69(±0.79)* δ18O −7.05(±3.14), and yielded a SST δ18O–depended reconstruction with fidelity better than 0.5 °C for most of the record. Biases of up to 2 °C might be associated with reduced growth rate periods of the coral record. The Sr/Ca data show systematic, annual fluctuations but analyses are too imprecise to propose a Sr/Ca-SST calibration. The δ13C values are found to vary in phase with δ18O and Sr/Ca and are interpreted to be controlled by solar irradiation-modulated photosynthetic activity on the annual level. Our findings extend the global data base of coral records, contributing to further investigations using coral skeleton as environmental archives. In particular, the present study helps to better understand the climate variability of the South Atlantic tropical ocean-atmosphere system.

AB - The aragonitic skeletons of corals are unique archives of geochemical tracers that can be used as proxies for environmental conditions with high fidelity and sub-annual resolution. Such records have been extensively used for reconstruction of climatic conditions in the Pacific and Indian Oceans, Red Sea and Caribbean, but lack for the Equatorial South Atlantic. Here we present coral-based records of Sr/Ca, δ18O and δ13C and the first δ18O–SST calibration for the scleractinian coral species Porites astreoides from the Rocas Atoll, Equatorial South Atlantic. The investigated geochemical proxies for P. astreoides presented a very well-developed seasonal cyclicity in all proxies. We use the monthly means of δ18O and SST from the period of 2001–2013 to propose a calibration for a paleothermometer based on Porites, which gives T(°C) = −8.69(±0.79)* δ18O −7.05(±3.14), and yielded a SST δ18O–depended reconstruction with fidelity better than 0.5 °C for most of the record. Biases of up to 2 °C might be associated with reduced growth rate periods of the coral record. The Sr/Ca data show systematic, annual fluctuations but analyses are too imprecise to propose a Sr/Ca-SST calibration. The δ13C values are found to vary in phase with δ18O and Sr/Ca and are interpreted to be controlled by solar irradiation-modulated photosynthetic activity on the annual level. Our findings extend the global data base of coral records, contributing to further investigations using coral skeleton as environmental archives. In particular, the present study helps to better understand the climate variability of the South Atlantic tropical ocean-atmosphere system.

KW - Climate variability

KW - Coral geochemistry

KW - Coral-based archive

KW - Rocas Atoll

U2 - 10.1016/j.jsames.2017.05.008

DO - 10.1016/j.jsames.2017.05.008

M3 - Journal article

AN - SCOPUS:85020270433

SN - 0895-9811

VL - 77

SP - 276

EP - 285

JO - Journal of South American Earth Sciences

JF - Journal of South American Earth Sciences

ER -

The potential of the coral species Porites astreoides as a paleoclimate archive for the Tropical South Atlantic Ocean

Abstract

Keywords

UN SDGs

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