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Changhsingian brachiopod communities along a marine depth gradient in South China and their ecological significance in the end‐Permian mass extinction
Lethaia ( IF 1.5 ) Pub Date : 2020-03-12 , DOI: 10.1111/let.12373 Huiting Wu 1 , Yang Zhang 2 , Thomas L. Stubbs 3 , Yuanlin Sun 1
Lethaia ( IF 1.5 ) Pub Date : 2020-03-12 , DOI: 10.1111/let.12373 Huiting Wu 1 , Yang Zhang 2 , Thomas L. Stubbs 3 , Yuanlin Sun 1
Affiliation
Diversity indices (dominance and evenness) and ecological spatial structure (lifestyles and relative abundances) are important features of Changhsingian brachiopod communities prior to the end‐Permian mass extinction (EPME) and could predict temporal and spatial extinction patterns during the EPME. In South China, Changhsingian brachiopod communities show higher diversity than other contemporaneous brachiopod communities in the world and have been reported from a variety of sedimentary environments. In this paper, brachiopods from 18 sections in South China were selected to divide communities and compare their ecological structure. Based on the results of network analysis, cluster analysis and quantitative data from the selected sections, we show that Changhsingian brachiopod communities in South China can be categorized into three assemblages along a marine depth gradient: the Neochonetes–Fusichonetes–Paryphella Assemblage from the shallow‐water clastic‐rock facies, Spinomarginifera–Peltichia–Oldhamina Assemblage from the shallow‐water carbonate platform facies and Fusichonetes–Crurithyris Assemblage from the deep‐water siliciclastic intracontinental basin facies. Compared with communities from carbonate platform facies, the communities from siliciclastic facies were characterized by high dominance, low evenness and low lifestyle diversity, which might be important biotic factors leading to earlier extinctions. After the extinction began in all environments, the whole earliest Triassic brachiopod community was first dominated by Fusichonetes and then by Crurithyris. These patterns of domination and replacement could be explained by morphological and ecological advantages. The domination of these two genera, which were already adapted to the oxygen and food‐limited deep‐water habitat, indicates that the cooler deep‐water environment might have been a relatively less stressed habitat after the beginning of the EPME. This suggests that global warming might be the main trigger among the previously proposed synergistic environmental stresses, while anoxia might not, at least for the beginning of EPME.
更新日期:2020-03-12
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