Increasing climate sensitivity of subtropical conifers along an aridity gradient

•We explored how subtropical forests respond to changing macro-climate patterns.•Subtropical forests were more sensitive to climate than expected.•Drought limitations were consistent across species and environments.•Drought sensitivity seemed largely related to large-scale climate variability.•Chine...

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Bibliographic Details
Published in:Forest ecology and management 2021-02, Vol.482, p.118841, Article 118841
Main Authors: Su, Jiajia, Gou, Xiaohua, HilleRisLambers, Janneke, Deng, Yang, Fan, Haowen, Zheng, Wuji, Zhang, Ruibo, Manzanedo, Rubén D.
Format: Article
Language:English
Subjects:
Climate gradient
Drought
Dry season
Southwest China
Subtropical coniferous forests
Tree rings
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Summary:•We explored how subtropical forests respond to changing macro-climate patterns.•Subtropical forests were more sensitive to climate than expected.•Drought limitations were consistent across species and environments.•Drought sensitivity seemed largely related to large-scale climate variability.•Chinese subtropical karst ecosystems could face serious threats by increased warming and drying. Subtropical forests are an important but still poorly understood component of the global carbon cycle and global biodiversity. If climate continues to change as anticipated, increasing drought may affect the composition and structure of many subtropical forests. Understanding the environmental conditions that determine drought sensitivity across subtropical ecosystems and trees species will help accurately predict their response to climate change and inform the best mitigation and protection strategies. To identify the broad-scale drivers of drought sensitivity, we collected a large network of ring-width chronologies along a broad climate gradient that spans from east to west of the Yunnan-Guizhou Plateau (YGP), in southwestern China. Our network includes growth data from 10 trees species in 28 old growth subtropical coniferous sites. We used tree ring analyses, Redundancy Analysis (RDA), and linear mixed effects models to assess how drought responses varied geographically, climatically, and taxonomically. We found that aridity exerted the strongest limitation in our study area, implying that subtropical forest responses to drought may be more complex than commonly assumed. Moreover, we found that drought intensity during dry season, proxied by aridity index, is a stronger driver of drought sensitivity than stand characteristics and microenvironment. Further increases in drought frequency and dry season drought intensity in the region associated with climate change may pose a larger-than-expected threat to the growth, and ultimately persistence, of many subtropical coniferous forests.
ISSN:0378-1127
1872-7042
DOI:10.1016/j.foreco.2020.118841