General patterns of acclimation of leaf respiration to elevated temperatures across biomes and plant types

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• 作者：Martijn Slot (1) (2)
  Kaoru Kitajima (1) (2) (3)
  
  1. Department of Biology ; University of Florida ; Gainesville ; FL ; 32611 ; USA
  2. Smithsonian Tropical Research Institute ; Apartado 0843-03092 ; Balboa ; Panama City ; Republic of Panama
  3. Graduate School of Agriculture ; Kyoto University ; Kyoto ; 606-8502 ; Japan
  
• 关键词：Climate change ; Global patterns ; Meta ; analysis ; Plant ecophysiology ; Warming
• 刊名：Oecologia
• 出版年：2015
• 出版时间：March 2015
• 年：2015
• 卷：177
• 期：3
• 页码：885-900
• 全文大小：715 KB
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• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Life Sciences
  Ecology
  Plant Sciences
  
• 出版者：Springer Berlin / Heidelberg
• ISSN：1432-1939

文摘

Respiration is instrumental for survival and growth of plants, but increasing costs of maintenance processes with warming have the potential to change the balance between photosynthetic carbon uptake and respiratory carbon release from leaves. Climate warming may cause substantial increases of leaf respiratory carbon fluxes, which would further impact the carbon balance of terrestrial vegetation. However, downregulation of respiratory physiology via thermal acclimation may mitigate this impact. We have conducted a meta-analysis with data collected from 43 independent studies to assess quantitatively the thermal acclimation capacity of leaf dark respiration to warming of terrestrial plant species from across the globe. In total, 282 temperature contrasts were included in the meta-analysis, representing 103 species of forbs, graminoids, shrubs, trees and lianas native to arctic, boreal, temperate and tropical ecosystems. Acclimation to warming was found to decrease respiration at a set temperature in the majority of the observations, regardless of the biome of origin and growth form, but respiration was not completely homeostatic across temperatures in the majority of cases. Leaves that developed at a new temperature had a greater capacity for acclimation than those transferred to a new temperature. We conclude that leaf respiration of most terrestrial plants can acclimate to gradual warming, potentially reducing the magnitude of the positive feedback between climate and the carbon cycle in a warming world. More empirical data are, however, needed to improve our understanding of interspecific variation in thermal acclimation capacity, and to better predict patterns in respiratory carbon fluxes both within and across biomes in the face of ongoing global warming.