Shallow-water carbonate facies herald the onset of the Palaeocene-Eocene Thermal Maximum (Hazara basin, Northern Pakistan)

•Pre-PETM-onset neritic carbonates show early signs of what will occur during PETM.•Corals declined over the study period, whereas foraminifera and red algae increased.•Similar patterns can be observed in most of the Neotethys.•Quantitative data are crucial to better understanding palaeo-environment...

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Published inJournal of Asian Earth Sciences: X Vol. 11; p. 100169
Main Authors Ali, Mubashir, Coletti, Giovanni, Mariani, Luca, Benedetti, Andrea, Munawar, Muhammad-Jawad, Rehman, Saif Ur, Sternai, Pietro, Basso, Daniela, Malinverno, Elisa, Shahzad, Khurram, Khan, Suleman, Awais, Muhammad, Usman, Muhammad, Castelltort, Sébastien, Adatte, Thierry, Garzanti, Eduardo
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.06.2024
Elsevier
Subjects
Carbonate biofacies
Climate Change
Corals
Himalayan Neotethys
Larger foraminifera
Palaeocene hyperthermals
Carbonate biofacies
Himalayan Neotethys
Larger foraminifera
Climate Change
Corals
Palaeocene hyperthermals
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Abstract •Pre-PETM-onset neritic carbonates show early signs of what will occur during PETM.•Corals declined over the study period, whereas foraminifera and red algae increased.•Similar patterns can be observed in most of the Neotethys.•Quantitative data are crucial to better understanding palaeo-environmental changes. We investigate the Palaeocene succession of the Hazara Basin (Northern Pakistan) to better understand the impact of climate change on marine carbonate-producing organisms. These shallow-water carbonates, deposited during the Late Palaeocene, before the onset of the Palaeocene-Eocene Thermal Maximum, were studied using a quantitative approach to highlight changes in the skeletal assemblage. We recognise a decrease in the abundance of colonial corals and green calcareous algae and an increase in larger benthic foraminifera and red calcareous algae from the early Thanetian to the late Thanetian. Increasing temperatures may represent a plausible cause for the decline of the more sensitive colonial corals in favor of the more tolerant larger benthic foraminifera. A similar pattern is observed in most successions deposited along the margins of the Neotethys Ocean, suggesting a connection with the Late Palaeocene environmental changes that heralded the PETM hyperthermal event. Our stratigraphic analysis of the Hazara Basin strata suggests that the biotic turnovers occurred during the Palaeocene – Eocene transition started already before the onset of the Palaeocene Eocene Thermal Maximum as recorded by the geochemical proxies.
AbstractList We investigate the Palaeocene succession of the Hazara Basin (Northern Pakistan) to better understand the impact of climate change on marine carbonate-producing organisms. These shallow-water carbonates, deposited during the Late Palaeocene, before the onset of the Palaeocene-Eocene Thermal Maximum, were studied using a quantitative approach to highlight changes in the skeletal assemblage. We recognise a decrease in the abundance of colonial corals and green calcareous algae and an increase in larger benthic foraminifera and red calcareous algae from the early Thanetian to the late Thanetian. Increasing temperatures may represent a plausible cause for the decline of the more sensitive colonial corals in favor of the more tolerant larger benthic foraminifera. A similar pattern is observed in most successions deposited along the margins of the Neotethys Ocean, suggesting a connection with the Late Palaeocene environmental changes that heralded the PETM hyperthermal event. Our stratigraphic analysis of the Hazara Basin strata suggests that the biotic turnovers occurred during the Palaeocene – Eocene transition started already before the onset of the Palaeocene Eocene Thermal Maximum as recorded by the geochemical proxies.
•Pre-PETM-onset neritic carbonates show early signs of what will occur during PETM.•Corals declined over the study period, whereas foraminifera and red algae increased.•Similar patterns can be observed in most of the Neotethys.•Quantitative data are crucial to better understanding palaeo-environmental changes. We investigate the Palaeocene succession of the Hazara Basin (Northern Pakistan) to better understand the impact of climate change on marine carbonate-producing organisms. These shallow-water carbonates, deposited during the Late Palaeocene, before the onset of the Palaeocene-Eocene Thermal Maximum, were studied using a quantitative approach to highlight changes in the skeletal assemblage. We recognise a decrease in the abundance of colonial corals and green calcareous algae and an increase in larger benthic foraminifera and red calcareous algae from the early Thanetian to the late Thanetian. Increasing temperatures may represent a plausible cause for the decline of the more sensitive colonial corals in favor of the more tolerant larger benthic foraminifera. A similar pattern is observed in most successions deposited along the margins of the Neotethys Ocean, suggesting a connection with the Late Palaeocene environmental changes that heralded the PETM hyperthermal event. Our stratigraphic analysis of the Hazara Basin strata suggests that the biotic turnovers occurred during the Palaeocene – Eocene transition started already before the onset of the Palaeocene Eocene Thermal Maximum as recorded by the geochemical proxies.
ArticleNumber 100169
Author Shahzad, Khurram
Mariani, Luca
Garzanti, Eduardo
Munawar, Muhammad-Jawad
Usman, Muhammad
Malinverno, Elisa
Sternai, Pietro
Basso, Daniela
Adatte, Thierry
Benedetti, Andrea
Ali, Mubashir
Khan, Suleman
Castelltort, Sébastien
Awais, Muhammad
Rehman, Saif Ur
Coletti, Giovanni
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  organization: Institute of Geology, University of Punjab, Lahore, Pakistan
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  fullname: Basso, Daniela
  organization: Department of Earth and Environmental Sciences, Università di Milano-Bicocca, Milano, Italy
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  givenname: Elisa
  surname: Malinverno
  fullname: Malinverno, Elisa
  organization: Department of Earth and Environmental Sciences, Università di Milano-Bicocca, Milano, Italy
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  givenname: Khurram
  surname: Shahzad
  fullname: Shahzad, Khurram
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  fullname: Khan, Suleman
  organization: Department of Geology, University of Peshawar, Peshawar, Pakistan
– sequence: 12
  givenname: Muhammad
  surname: Awais
  fullname: Awais, Muhammad
  organization: Department of Earth, Environmental and Resources Sciences, University of Naples Federico II, Naples, Italy
– sequence: 13
  givenname: Muhammad
  surname: Usman
  fullname: Usman, Muhammad
  organization: Department of Earth and Environmental Sciences, Università di Milano-Bicocca, Milano, Italy
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  fullname: Castelltort, Sébastien
  organization: Department of Earth Sciences University of Geneva, Geneva, Switzerland
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Keywords Carbonate biofacies
Himalayan Neotethys
Larger foraminifera
Climate Change
Corals
Palaeocene hyperthermals
Language English
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SSID ssj0002856848
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Snippet •Pre-PETM-onset neritic carbonates show early signs of what will occur during PETM.•Corals declined over the study period, whereas foraminifera and red algae...
We investigate the Palaeocene succession of the Hazara Basin (Northern Pakistan) to better understand the impact of climate change on marine...
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StartPage 100169
SubjectTerms Carbonate biofacies
Climate Change
Corals
Himalayan Neotethys
Larger foraminifera
Palaeocene hyperthermals
Title Shallow-water carbonate facies herald the onset of the Palaeocene-Eocene Thermal Maximum (Hazara basin, Northern Pakistan)
URI https://dx.doi.org/10.1016/j.jaesx.2023.100169
https://doaj.org/article/3eb718807e1646f18b5986f3e6e09d22
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