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Aim
We test hypotheses on the environmental control of elevational richness patterns of sphingid moths for their global applicability and generality. Specifically, we compare effects of area with climate‐related drivers, such as primary productivity and temperature, while also considering direct effects of precipitation.
Major taxa
Sphingid moths (Lepidoptera).
Location
Eighty‐six mountain ranges...
Aims
We aim to document elevational richness patterns of geometrid moths in a globally replicated, multi‐gradient setting, and to test general hypotheses on environmental and spatial effects (i.e. productivity, temperature, precipitation, area, mid‐domain effect and human habitat disturbance) on these richness patterns.
Location
Twenty‐six elevational gradients world‐wide (latitudes 28° S to 51° N)...
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