Mercury anomalies within the lower Cambrian (stage 2–3) in South China: Links between volcanic events and paleoecology

The early Cambrian period is characterized by not only the explosive radiation of metazoans, but also several mass extinction events. Mercury (Hg) enrichment is now widely used as a proxy for volcanic input, with implications for the CO2 and temperature to which the biosphere was subject during thes...

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Published inPalaeogeography, palaeoclimatology, palaeoecology Vol. 558; p. 109956
Main Authors Wang, Zhanghu, Tan, Jingqiang, Boyle, Richard, Wang, Wenhui, Kang, Xun, Dick, Jeffrey, Lyu, Qiao
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.11.2020
Subjects
Animalia
basins
biosphere
Cambrian period
Cambrian radiation
carbon
carbon dioxide
China
euphotic zone
Extinction
fauna
fossils
isotopes
mercury
Mercury enrichment
Niutitang shale
organic matter
palaeogeography
paleoclimatology
paleoecology
Photic zone euxinia
shale
Small shelly fossils
temperature
volcanic activity
China
Mercury enrichment
Niutitang shale
Small shelly fossils
Extinction
Cambrian radiation
Photic zone euxinia
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Abstract The early Cambrian period is characterized by not only the explosive radiation of metazoans, but also several mass extinction events. Mercury (Hg) enrichment is now widely used as a proxy for volcanic input, with implications for the CO2 and temperature to which the biosphere was subject during these events. Here, we report the oldest mercury anomaly records from organic matter in the Phanerozoic, taken from two wells (Xa1 and Xb1), which represent early Cambrian slope to basin sections in South China. The first mercury anomaly coincided with both a negative carbon isotope excursion (Shiyantou Carbon isotope Excursion, SHICE) recorded in Cambrian Stage 2, and the disappearance of small shelly fossil assemblages (SSFs). The above events may have been closely related to an unknown large igneous province (LIP) in Earth's history. Two subsequent mercury anomalies occur in conjunction with phases of hydrothermal (submarine volcanic) events. In addition, we find evidence for photic zone euxinia (PZE) in some parts of the depositional environment, with iron-speciation data suggestive of dissolved H2S concentrations close to 10 mM in the basin environment, along with hyper-enrichment of V and Zn in shale suggesting the presence of dissolved H2S in the photic zone. We interpret our results as providing potential evidence for links between volcanism, widespread euxinia, and early Cambrian faunal changes. •The oldest mercury anomaly since the Palaeozoic was determined.•Volcanic events with carbon isotope excursion coincide with biotic extinction.•Geochemical data reflected redox stratification of the water column.•Hyper-enrichments of V and Zn in black shales indicated extreme euxinic conditions.•Photic zone euxinia event occurred in South China in the early Cambrian.
AbstractList The early Cambrian period is characterized by not only the explosive radiation of metazoans, but also several mass extinction events. Mercury (Hg) enrichment is now widely used as a proxy for volcanic input, with implications for the CO2 and temperature to which the biosphere was subject during these events. Here, we report the oldest mercury anomaly records from organic matter in the Phanerozoic, taken from two wells (Xa1 and Xb1), which represent early Cambrian slope to basin sections in South China. The first mercury anomaly coincided with both a negative carbon isotope excursion (Shiyantou Carbon isotope Excursion, SHICE) recorded in Cambrian Stage 2, and the disappearance of small shelly fossil assemblages (SSFs). The above events may have been closely related to an unknown large igneous province (LIP) in Earth's history. Two subsequent mercury anomalies occur in conjunction with phases of hydrothermal (submarine volcanic) events. In addition, we find evidence for photic zone euxinia (PZE) in some parts of the depositional environment, with iron-speciation data suggestive of dissolved H2S concentrations close to 10 mM in the basin environment, along with hyper-enrichment of V and Zn in shale suggesting the presence of dissolved H2S in the photic zone. We interpret our results as providing potential evidence for links between volcanism, widespread euxinia, and early Cambrian faunal changes. •The oldest mercury anomaly since the Palaeozoic was determined.•Volcanic events with carbon isotope excursion coincide with biotic extinction.•Geochemical data reflected redox stratification of the water column.•Hyper-enrichments of V and Zn in black shales indicated extreme euxinic conditions.•Photic zone euxinia event occurred in South China in the early Cambrian.
The early Cambrian period is characterized by not only the explosive radiation of metazoans, but also several mass extinction events. Mercury (Hg) enrichment is now widely used as a proxy for volcanic input, with implications for the CO₂ and temperature to which the biosphere was subject during these events. Here, we report the oldest mercury anomaly records from organic matter in the Phanerozoic, taken from two wells (Xa1 and Xb1), which represent early Cambrian slope to basin sections in South China. The first mercury anomaly coincided with both a negative carbon isotope excursion (Shiyantou Carbon isotope Excursion, SHICE) recorded in Cambrian Stage 2, and the disappearance of small shelly fossil assemblages (SSFs). The above events may have been closely related to an unknown large igneous province (LIP) in Earth's history. Two subsequent mercury anomalies occur in conjunction with phases of hydrothermal (submarine volcanic) events. In addition, we find evidence for photic zone euxinia (PZE) in some parts of the depositional environment, with iron-speciation data suggestive of dissolved H₂S concentrations close to 10 mM in the basin environment, along with hyper-enrichment of V and Zn in shale suggesting the presence of dissolved H₂S in the photic zone. We interpret our results as providing potential evidence for links between volcanism, widespread euxinia, and early Cambrian faunal changes.
ArticleNumber 109956
Author Dick, Jeffrey
Wang, Wenhui
Lyu, Qiao
Kang, Xun
Wang, Zhanghu
Boyle, Richard
Tan, Jingqiang
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  givenname: Wenhui
  surname: Wang
  fullname: Wang, Wenhui
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  organization: Key Laboratory of Metallogenic Prediction of Nonferrous Metals and Geological Environment Monitoring, Ministry of Education, School of Geosciences and Info-physics, Central South University, Changsha, 410083, China
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  givenname: Jeffrey
  surname: Dick
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  givenname: Qiao
  surname: Lyu
  fullname: Lyu, Qiao
  organization: Key Laboratory of Metallogenic Prediction of Nonferrous Metals and Geological Environment Monitoring, Ministry of Education, School of Geosciences and Info-physics, Central South University, Changsha, 410083, China
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Keywords Mercury enrichment
Niutitang shale
Small shelly fossils
Extinction
Cambrian radiation
Photic zone euxinia
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Snippet The early Cambrian period is characterized by not only the explosive radiation of metazoans, but also several mass extinction events. Mercury (Hg) enrichment...
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SubjectTerms Animalia
basins
biosphere
Cambrian period
Cambrian radiation
carbon
carbon dioxide
China
euphotic zone
Extinction
fauna
fossils
isotopes
mercury
Mercury enrichment
Niutitang shale
organic matter
palaeogeography
paleoclimatology
paleoecology
Photic zone euxinia
shale
Small shelly fossils
temperature
volcanic activity
Title Mercury anomalies within the lower Cambrian (stage 2–3) in South China: Links between volcanic events and paleoecology
URI https://dx.doi.org/10.1016/j.palaeo.2020.109956
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