Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/22024
Appears in Collections:Biological and Environmental Sciences Journal Articles
Peer Review Status: Refereed
Title: Strong topographic sheltering effects lead to spatially complex treeline advance and increased forest density in a subtropical mountain region
Author(s): Greenwood, Sarah
Chen, Jan-Chang
Chen, Chaur-Tzuhn
Jump, Alistair
Contact Email: a.s.jump@stir.ac.uk
Keywords: Abies kawakamii
aerial photography
alpine habitat
central mountain range
climate change
forest density
fragmentation
Taiwan
topography
Issue Date: Dec-2014
Date Deposited: 10-Jul-2015
Citation: Greenwood S, Chen J, Chen C & Jump A (2014) Strong topographic sheltering effects lead to spatially complex treeline advance and increased forest density in a subtropical mountain region. Global Change Biology, 20 (12), pp. 3756-3766. https://doi.org/10.1111/gcb.12710
Abstract: Altitudinal treelines are typically temperature limited such that increasing temperatures linked to global climate change are causing upslope shifts of treelines worldwide. While such elevational increases are readily predicted based on shifting isotherms, at the regional level the realized response is often much more complex, with topography and local environmental conditions playing an important modifying role. Here, we used repeated aerial photographs in combination with forest inventory data to investigate changes in treeline position in the Central Mountain Range of Taiwan over the last 60years. A highly spatially variable upslope advance of treeline was identified in which topography is a major driver of both treeline form and advance. The changes in treeline position that we observed occurred alongside substantial increases in forest density, and lead to a large increase in overall forest area. These changes will have a significant impact on carbon stocking in the high altitude zone, while the concomitant decrease in alpine grassland area is likely to have negative implications for alpine species. The complex and spatially variable changes that we report highlight the necessity for considering local factors such as topography when attempting to predict species distributional responses to warming climate.
DOI Link: 10.1111/gcb.12710
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