Authors
Vojsava Gjoni, Florian Altermatt, Aurélie Garnier, Gian Marco Palamara, Mathew Seymour, Mikael Pontarp, Frank Pennekamp
Published in
Ecology letters. Volume 28. Issue 9. Pages e70208.
Abstract
Organismal abundance tends to decline with increasing body size. Metabolic theory links this size structure with energy use and productivity, postulating a size-abundance slope of -0.75 that is invariant across environments. We tested the robustness of this relationship across gradients of protist species richness (1-6 species), temperature (15°C-25°C) and time. Using replicated microcosms, we provide an empirical test of how temperature and biodiversity jointly shape the cross-community scaling relationship (CCSR). While our results support the expected slope of -0.75, we also found interactive effects showing the relationship is not invariant. Warming altered abundance scaling with size depending on richness; in high-richness communities, temperature favoured small protists, steepening the CCSR slope. These context-dependent responses emerged over time, suggesting a role of size-dependent species interactions in shaping responses to environmental change. Our findings demonstrate that cross-community size scaling is not fixed but shifts dynamically with ecological context.
PMID:
40946207
Bibliographic data and abstract were imported from PubMed on 14 Sep 2025.
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