TY - JOUR
T1 - Resilience of primary and export productivity in a eutrophic ecosystem following the Cretaceous-Paleogene mass extinction
AU - Rosenberg, Yoav O.
AU - Ashckenazi-Polivoda, Sarit
AU - Abramovich, Sigal
AU - Thibault, Nicolas
AU - Chin, Shamar
AU - Feinstein, Shimon
AU - Bartov, Yuval
AU - Amrani, Alon
N1 - Funding Information:
Y.O.R and S.A.P acknowledge the support of the Israeli Ministry for Infrastructure, Energy and Water (grant # 217-17-008) and of the Israel Science Foundation (grant # 2456/19). NT acknowledges Carlsbergfondet CF16-0457 for support. SAP wishes to thank the Israeli Ministry of Science and Technology (MOST) for their continued support of the ADSSC. AA thanks the Israel Science Foundation (grant # 1738/16) for partial support of this study. We thank Ward Said-Ahmad, Alexander Meshoulam and Ravid Hagbi for their support of the technical work for the geochemical data and Leeron Ashkenazi for samples preparation for the micropaleontiology analysis. David K. Watkins (Department of Earth and Atmospheric Sciences) from the University of Nebraska-Lincoln, is acknowledged for providing feedback on biostratigraphy and the interpretation of the nannofossil vs. foraminifera data. We thank Thierry Adatte and an annonymous reviewer for their constructive and helpful comments on an early version of this manuscript.
Funding Information:
Y.O.R and S.A.P acknowledge the support of the Israeli Ministry for Infrastructure, Energy and Water (grant # 217-17-008 ) and of the Israel Science Foundation (grant # 2456/19 ). NT acknowledges Carlsbergfondet CF16-0457 for support. SAP wishes to thank the Israeli Ministry of Science and Technology (MOST) for their continued support of the ADSSC. AA thanks the Israel Science Foundation (grant # 1738/16 ) for partial support of this study. We thank Ward Said-Ahmad, Alexander Meshoulam and Ravid Hagbi for their support of the technical work for the geochemical data and Leeron Ashkenazi for samples preparation for the micropaleontiology analysis. David K. Watkins (Department of Earth and Atmospheric Sciences) from the University of Nebraska-Lincoln, is acknowledged for providing feedback on biostratigraphy and the interpretation of the nannofossil vs. foraminifera data. We thank Thierry Adatte and an annonymous reviewer for their constructive and helpful comments on an early version of this manuscript.
Publisher Copyright:
© 2020 Elsevier B.V.
PY - 2021/1/1
Y1 - 2021/1/1
N2 - The recovery time of marine productivity following the Cretaceous-Paleogene (KPg) mass extinction varies tremendously with location (hundreds to millions of years), with possible delays in the tropics as compared to higher latitudes. This heterogeneity is based on prevalent oligo- to mesotrophic marine environments. While highly productive eutrophic environments are less prevalent, they play a greater role in the carbon cycle. Here we present data from a eutrophic region within the tropical southern Tethys. Records of both organic matter and calcite production in this locality exhibit stability across the KPg boundary. In addition, our study points to a remarkably rapid recovery (<11 kyr), even possibly continuous high productivity across the KPg boundary, despite the tropical location. Moreover, the characteristic KPg δ13C negative excursion is observed in our locality, but is independent of high productivity, possibly indicating a reduction in the δ13C of the DIC of the ocean due to the input of light carbon from the atmosphere. Thus, this study provides new insight into the functioning of eutrophic ecosystems during environmental stress imposed by the ecological crisis.
AB - The recovery time of marine productivity following the Cretaceous-Paleogene (KPg) mass extinction varies tremendously with location (hundreds to millions of years), with possible delays in the tropics as compared to higher latitudes. This heterogeneity is based on prevalent oligo- to mesotrophic marine environments. While highly productive eutrophic environments are less prevalent, they play a greater role in the carbon cycle. Here we present data from a eutrophic region within the tropical southern Tethys. Records of both organic matter and calcite production in this locality exhibit stability across the KPg boundary. In addition, our study points to a remarkably rapid recovery (<11 kyr), even possibly continuous high productivity across the KPg boundary, despite the tropical location. Moreover, the characteristic KPg δ13C negative excursion is observed in our locality, but is independent of high productivity, possibly indicating a reduction in the δ13C of the DIC of the ocean due to the input of light carbon from the atmosphere. Thus, this study provides new insight into the functioning of eutrophic ecosystems during environmental stress imposed by the ecological crisis.
KW - Carbon isotopic excursion
KW - Cretaceous Paleogene mass extinction
KW - Primary and export productivity
KW - Recovery
KW - Upwelling ecosystem
UR - http://www.scopus.com/inward/record.url?scp=85097233349&partnerID=8YFLogxK
U2 - 10.1016/j.gloplacha.2020.103371
DO - 10.1016/j.gloplacha.2020.103371
M3 - Article
AN - SCOPUS:85097233349
SN - 0921-8181
VL - 196
JO - Global and Planetary Change
JF - Global and Planetary Change
M1 - 103371
ER -