The negative relationship between body size and population density in mammals is often interpreted as resulting from energetic constraints. In a global change scenario, however, this relationship might be expected to change, given the size‐dependent nature of anthropogenic pressures and vulnerability to extinction. Here we test whether the size‐density relationship (SDR) in mammals has changed over the last 50 years. We show that the relationship has shifted down and became shallower, corresponding to a decline in population density of 31–73%, for the largest and smallest mammals, respectively. However, the SDRs became steeper in some groups (e.g. carnivores) and shallower in others (e.g. herbivores). The Anthropocene reorganisation of biotic systems is apparent in macroecological relationships, reinforcing the notion that biodiversity pattens are contingent upon conditions at the time of investigation. We call for an increased attention to the role of global change on macroecological inferences.
Rapid Anthropocene realignment of allometric scaling rules / Santini, Luca; Isaac, Nick J. B.. - In: ECOLOGY LETTERS. - ISSN 1461-023X. - (2021). [10.1111/ele.13743]
Rapid Anthropocene realignment of allometric scaling rules
Santini, Luca
Primo
;
2021
Abstract
The negative relationship between body size and population density in mammals is often interpreted as resulting from energetic constraints. In a global change scenario, however, this relationship might be expected to change, given the size‐dependent nature of anthropogenic pressures and vulnerability to extinction. Here we test whether the size‐density relationship (SDR) in mammals has changed over the last 50 years. We show that the relationship has shifted down and became shallower, corresponding to a decline in population density of 31–73%, for the largest and smallest mammals, respectively. However, the SDRs became steeper in some groups (e.g. carnivores) and shallower in others (e.g. herbivores). The Anthropocene reorganisation of biotic systems is apparent in macroecological relationships, reinforcing the notion that biodiversity pattens are contingent upon conditions at the time of investigation. We call for an increased attention to the role of global change on macroecological inferences.File | Dimensione | Formato | |
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