期刊
GLOBAL CHANGE BIOLOGY
卷 19, 期 11, 页码 3540-3552出版社
WILEY
DOI: 10.1111/gcb.12285
关键词
Bergmann's rule; climate change; community size structure; diatoms; global warming; James' rule; phytobenthos; phytoplankton; temperature-size relationships; temperature-size rule
资金
- UK Natural Environment Research Council [NE/H525797/1, NE/H020705/1, NE/I010963, NE/I011889/1]
- NERC [NE/H020705/1, NE/H525797/1, NE/I010963/1, NE/I013776/1, NE/I011889/1, NE/I009280/2] Funding Source: UKRI
- Natural Environment Research Council [NE/I011889/1, NE/I010963/1, NE/I009280/2, NE/H020705/1, NE/I013776/1] Funding Source: researchfish
Climate warming has been linked to an apparent general decrease in body sizes of ectotherms, both across and within taxa, especially in aquatic systems. Smaller body size in warmer geographical regions has also been widely observed. Since body size is a fundamental determinant of many biological attributes, climate-warming-related changes in size could ripple across multiple levels of ecological organization. Some recent studies have questioned the ubiquity of temperature-size rules, however, and certain widespread and abundant taxa, such as diatoms, may be important exceptions. We tested the hypothesis that diatoms are smaller at warmer temperatures using a system of geothermally heated streams. There was no consistent relationship between size and temperature at either the population or community level. These field data provide important counterexamples to both James' and Bergmann's temperature-size rules, respectively, undermining the widely held assumption that warming favours the small. This study provides compelling new evidence that diatoms are an important exception to temperature-size rules for three reasons: (i) we use many more species than prior work; (ii) we examine both community and species levels of organization simultaneously; (iii) we work in a natural system with a wide temperature gradient but minimal variation in other factors, to achieve robust tests of hypotheses without relying on laboratory setups, which have limited realism. In addition, we show that interspecific effects were a bigger contributor to whole-community size differences, and are probably more ecologically important than more commonly studied intraspecific effects. These findings highlight the need for multispecies approaches in future studies of climate warming and body size.
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