Y. Zhang scite author profile

This study examines the morphological responses of Late Permian brachiopods to environmental changes. Quantitative analysis of body size data from Permian-Triassic brachiopods has demonstrated significant, directional changes in body size before, during and after the Late Permian mass extinction event. Brachiopod size significantly reduced before and during the extinction interval, increased for a short time in more extinction-resistant taxa in the latter stages of extinction and then dramatically reduced again across the Permian/Triassic boundary. Relative abundances of trace elements and acritarchs demonstrate that the body size reductions which happened before, during and after extinction were driven by primary productivity collapse, whereas declining oxygen levels had less effect. An episode of size increase in two of the more extinction-resistant brachiopod species is unrelated to environmental change and possibly was the result of reduced interspecific competition for resources following the extinction of competitors. Based on the results of this study, predictions can be made for the possible responses of modern benthos to present-day environmental changes.

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Late Permian marine ecosystem collapse began in deeper waters: evidence from brachiopod diversity and body size changes

Shi

Twitchett

et al. 2014

Geobiology

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Analysis of Permian-Triassic brachiopod diversity and body size changes from different water depths spanning the continental shelf to basinal facies in South China provides insights into the process of environmental deterioration. Comparison of the temporal changes of brachiopod diversity between deepwater and shallow-water facies demonstrates that deepwater brachiopods disappeared earlier than shallow-water brachiopods. This indicates that high environmental stress commenced first in deepwater settings and later extended to shallow waters. This environmental stress is attributed to major volcanic eruptions, which first led to formation of a stratified ocean and a chemocline in the outer shelf and deeper water environments, causing the disappearance of deep marine benthos including brachiopods. The chemocline then rapidly migrated upward and extended to shallow waters, causing widespread mass extinction of shallow marine benthos. We predict that the spatial and temporal patterns of earlier onset of disappearance/extinction and ecological crisis in deeper water ecosystems will be recorded during other episodes of rapid global warming.

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GIS-based landslide susceptibility mapping using ensemble methods for Fengjie County in the Three Gorges Reservoir Region, China

Gong

Zhang

et al. 2021

Int. J. Environ. Sci. Technol.

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Evolution of high-pressure mafic granulites and pelitic gneisses from NE Madagascar: Tectonic implications

et al. 2015

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Risk assessment of roadway networks exposed to landslides in mountainous regions—a case study in Fengjie County, China

et al. 2023

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Y. Zhang

Controls on body size during the Late Permian mass extinction event

Late Permian marine ecosystem collapse began in deeper waters: evidence from brachiopod diversity and body size changes

GIS-based landslide susceptibility mapping using ensemble methods for Fengjie County in the Three Gorges Reservoir Region, China

Evolution of high-pressure mafic granulites and pelitic gneisses from NE Madagascar: Tectonic implications

Risk assessment of roadway networks exposed to landslides in mountainous regions—a case study in Fengjie County, China

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