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Macroclimate and canopy characteristics regulate forest understory microclimatic temperature offsets across China

Siying Chen, Pieter De Frenne, Koenraad Van Meerbeek, Qiqian Wu, Yan Peng, Haifeng Zheng, Kun Guo, Chaoxiang Yuan, Ling Xiong, Zemin Zhao, Xiangyin Ni, Fuzhong Wu, Kai Yue

2024Global Ecology and Biogeography12 citationsDOIOpen Access PDF

Abstract

Abstract Forest microclimates can contrast substantially from the macroclimate outside forests. These microclimates regulate understory biodiversity and ecosystem functions. Studies have quantified the global patterns and driving factors of forest understory temperature offsets, but data from China were almost missing, making the global assessment incomplete. To fill this knowledge gap, we quantitatively synthesized 494 paired observations from China extracted from 91 publications to quantify mean ( T mean ), maximum ( T max ) and minimum temperature offsets ( T min ). Results showed that (1) forest canopies significantly buffered understory T mean and T max against macroclimatic temperature, with average offsets of 1.0 and 1.5°C, respectively, while understory T min offsets were not significantly different from zero; (2) forest type (broadleaved, mixed, vs. coniferous) and forest location (rural vs. urban) did not affect T mean , T max or T min offsets, but climate zone and season showed significant impacts; and (3) macroclimatic temperature, wind speed, tree height and canopy density also impacted temperature offsets, although their effects varied among T mean , T max and T min . Our results complement the global assessment of forest buffering capacity, and reiterate the necessity for incorporating microclimatic variability into future bioclimatic modelling of species demography and distributions.

Topics & Concepts

UnderstoryCanopyEcologyChinaGeographyTree canopyEnvironmental scienceBiologyArchaeologyUrban Heat Island MitigationRemote Sensing in AgricultureSpecies Distribution and Climate Change