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Latitudinal diversity gradients in bryophytes and woody plants: Roles of temperature and water availability
Author(s) -
Chen ShengBin,
Ferry Slik J. W.,
Gao Jie,
Mao LingFeng,
Bi MengJie,
Shen MengWei,
Zhou KeXin
Publication year - 2015
Publication title -
journal of systematics and evolution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.249
H-Index - 46
eISSN - 1759-6831
pISSN - 1674-4918
DOI - 10.1111/jse.12158
Subject(s) - species richness , ecology , woody plant , seasonality , spatial ecology , biology , spatial variability , spatial heterogeneity , moss , mathematics , statistics
It remains unclear whether the latitudinal diversity gradients of micro‐ and macro‐organisms are driven by the same macro‐environmental variables. We used the newly completed species catalog and distribution information of bryophytes in China to explore their spatial species richness patterns, and to investigate the underlying roles of energy availability, climatic seasonality, and environmental heterogeneity in shaping these patterns. We then compared these patterns to those found for woody plants. We found that, unlike woody plants, mosses and liverworts showed only weakly negative latitudinal trends in species richness. The spatial patterns of liverwort richness and moss richness were overwhelmingly explained by contemporary environmental variables, although explained variation was lower than that for woody plants. Similar to woody plants, energy and climatic seasonality hypotheses dominate as explanatory variables but show high redundancy in shaping the distribution of bryophytes. Water variables, that is, the annual availability, intra‐annual variability and spatial heterogeneity in precipitation, played a predominant role in explaining spatial variation of species richness of bryophytes, especially for liverworts, whereas woody plant richness was affected most by temperature variables. We suggest that further research on spatial patterns of bryophytes should incorporate the knowledge on their ecophysiology and evolution.

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