Assessing ocean acidification and carbon cycle perturbations during the end-Permian extinction using boron isotopes
The Permian-Triassic mass extinction represents the most severe environmental crisis in Earth’s history, which dictated the course for evolution of life until today. Volcanism from Siberian traps played a significant role involving a substantial input of relatively light carbon into the atmosphere l...
| Main Authors: | , , , , , , , , , |
|---|---|
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
2017
|
| Subjects: | |
| Online Access: | http://hdl.handle.net/11392/2381303 |
| _version_ | 1832476950072918016 |
|---|---|
| author | Jurikova, H. Gutjahr, M. Liebetrau, V. Flögel, S. Wallmann, K. Eisenhauer, A. Posenato, R. Angiolini, L. Garbelli, C. Brand, U. |
| author2 | Jurikova, H. Gutjahr, M. Liebetrau, V. Flögel, S. Wallmann, K. Eisenhauer, A. Posenato, R. Angiolini, L. Garbelli, C. Brand, U. |
| author_facet | Jurikova, H. Gutjahr, M. Liebetrau, V. Flögel, S. Wallmann, K. Eisenhauer, A. Posenato, R. Angiolini, L. Garbelli, C. Brand, U. |
| author_sort | Jurikova, H. |
| collection | Università degli Studi di Ferrara: CINECA IRIS |
| description | The Permian-Triassic mass extinction represents the most severe environmental crisis in Earth’s history, which dictated the course for evolution of life until today. Volcanism from Siberian traps played a significant role involving a substantial input of relatively light carbon into the atmosphere leading to a combination of global warming by ~6°C, sporadic anoxia or euxinia, and ocean acidification. However, its detailed manifestation and environmental impact is yet to be fully understood. This lack of knowledge also extends to a better quantification of emitted and sequestered carbon budgets (cf. Gutjahr et al., 2017). In order to reconstruct potential changes in seawater chemistry during this time interval, we examined the boron isotope composition (δ11B) of brachiopod shells. Although rarely applied to Paleozoic settings such as the Permian-Triassic (Clarkson et al., 2015), the δ11B of marine calcium carbonate is considered one of the most reliable paleo-pH proxies (e.g., Foster, 2008; Hönisch et al., 2012). The principle of the δ11B proxy is based on the speciation of boron in seawater, where it is present as boric acid [B(OH)3 −] and borate ion [B(OH)4 −], and their relative proportion is pH dependant. Furthermore, because an isotopic fractionation exists between the two species, and principally borate ion is incorporated into the crystal lattice, the δ11B composition of biogenic calcium carbonate can be used to reconstruct ancient seawater pH. Brachiopods present a rich, and largely underutilised archive for Phanerozoic reconstructions considering their high abundance in the geological record that can be traced back to the earlymakes these marine calcifiers more resilient to post-depositional diagenetic alterations of primary chemical signals. We performed δ11B analyses (together with B/Ca and other major and trace element−to−Ca ratios as additional controls on preservation and environmental conditions) on carefully chosen pristine specimens (class Rhynchonellata and Strophomenata) from Val Brutta, Sass ... |
| format | Article in Journal/Newspaper |
| genre | Ocean acidification |
| genre_facet | Ocean acidification |
| geographic | Clarkson |
| geographic_facet | Clarkson |
| id | ftunivferrarair:oai:sfera.unife.it:11392/2381303 |
| institution | Open Polar |
| language | English |
| long_lat | ENVELOPE(-64.767,-64.767,-68.117,-68.117) |
| op_collection_id | ftunivferrarair |
| op_relation | volume:65 firstpage:15 lastpage:15 numberofpages:1 journal:PERMOPHILES http://hdl.handle.net/11392/2381303 |
| publishDate | 2017 |
| record_format | openpolar |
| spelling | ftunivferrarair:oai:sfera.unife.it:11392/2381303 2025-05-18T14:05:55+00:00 Assessing ocean acidification and carbon cycle perturbations during the end-Permian extinction using boron isotopes Jurikova, H. Gutjahr, M. Liebetrau, V. Flögel, S. Wallmann, K. Eisenhauer, A. Posenato, R. Angiolini, L. Garbelli, C. Brand, U. Jurikova, H. Gutjahr, M. Liebetrau, V. Flögel, S. Wallmann, K. Eisenhauer, A. Posenato, R. Angiolini, L. Garbelli, C. Brand, U. 2017 ELETTRONICO http://hdl.handle.net/11392/2381303 eng eng volume:65 firstpage:15 lastpage:15 numberofpages:1 journal:PERMOPHILES http://hdl.handle.net/11392/2381303 end Permian extinction brachiopods geochemistry isotopes info:eu-repo/semantics/article 2017 ftunivferrarair 2025-04-21T05:03:42Z The Permian-Triassic mass extinction represents the most severe environmental crisis in Earth’s history, which dictated the course for evolution of life until today. Volcanism from Siberian traps played a significant role involving a substantial input of relatively light carbon into the atmosphere leading to a combination of global warming by ~6°C, sporadic anoxia or euxinia, and ocean acidification. However, its detailed manifestation and environmental impact is yet to be fully understood. This lack of knowledge also extends to a better quantification of emitted and sequestered carbon budgets (cf. Gutjahr et al., 2017). In order to reconstruct potential changes in seawater chemistry during this time interval, we examined the boron isotope composition (δ11B) of brachiopod shells. Although rarely applied to Paleozoic settings such as the Permian-Triassic (Clarkson et al., 2015), the δ11B of marine calcium carbonate is considered one of the most reliable paleo-pH proxies (e.g., Foster, 2008; Hönisch et al., 2012). The principle of the δ11B proxy is based on the speciation of boron in seawater, where it is present as boric acid [B(OH)3 −] and borate ion [B(OH)4 −], and their relative proportion is pH dependant. Furthermore, because an isotopic fractionation exists between the two species, and principally borate ion is incorporated into the crystal lattice, the δ11B composition of biogenic calcium carbonate can be used to reconstruct ancient seawater pH. Brachiopods present a rich, and largely underutilised archive for Phanerozoic reconstructions considering their high abundance in the geological record that can be traced back to the earlymakes these marine calcifiers more resilient to post-depositional diagenetic alterations of primary chemical signals. We performed δ11B analyses (together with B/Ca and other major and trace element−to−Ca ratios as additional controls on preservation and environmental conditions) on carefully chosen pristine specimens (class Rhynchonellata and Strophomenata) from Val Brutta, Sass ... Article in Journal/Newspaper Ocean acidification Università degli Studi di Ferrara: CINECA IRIS Clarkson ENVELOPE(-64.767,-64.767,-68.117,-68.117) |
| spellingShingle | end Permian extinction brachiopods geochemistry isotopes Jurikova, H. Gutjahr, M. Liebetrau, V. Flögel, S. Wallmann, K. Eisenhauer, A. Posenato, R. Angiolini, L. Garbelli, C. Brand, U. Assessing ocean acidification and carbon cycle perturbations during the end-Permian extinction using boron isotopes |
| title | Assessing ocean acidification and carbon cycle perturbations during the end-Permian extinction using boron isotopes |
| title_full | Assessing ocean acidification and carbon cycle perturbations during the end-Permian extinction using boron isotopes |
| title_fullStr | Assessing ocean acidification and carbon cycle perturbations during the end-Permian extinction using boron isotopes |
| title_full_unstemmed | Assessing ocean acidification and carbon cycle perturbations during the end-Permian extinction using boron isotopes |
| title_short | Assessing ocean acidification and carbon cycle perturbations during the end-Permian extinction using boron isotopes |
| title_sort | assessing ocean acidification and carbon cycle perturbations during the end-permian extinction using boron isotopes |
| topic | end Permian extinction brachiopods geochemistry isotopes |
| topic_facet | end Permian extinction brachiopods geochemistry isotopes |
| url | http://hdl.handle.net/11392/2381303 |