I-Ching ChenJane K. HillHau-Jie ShiuJeremy D. Holloway,Suzan BenedickVun Khen CheyHenry S. BarlowChris D. Thomas2024-05-142024-05-142011Chen, I. C., Hill, J. K., Shiu, H. J., Holloway, J. D., Benedick, S., Chey, V. K., Barlow, H.S., & Thomas, C. D. (2011). Asymmetric boundary shifts of tropical montane Lepidoptera over four decades of climate warming. Global Ecology and Biogeography, 20(1), 34-45.https://repoemc.ukm.my/handle/123456789/646To estimate whether species have shifted at equal rates at their leading edges (cool boundaries) and trailing edges (warm boundaries) in response to climate change. We provide the first such evidence for tropical insects, here examining elevation shifts for the upper and lower boundaries shifts of montane moths. Threats to species on tropical mountains are considered.Climate changecloudecological barrierendemic speciesgeologyGeometridaeleading edgeMalaysiarange shifttrailing edge.Journal