臭氧诱导的气孔迟缓改变了温带落叶林的碳和水平衡。

Ozone-induced stomatal sluggishness changes carbon and water balance of temperate deciduous forests.

作者信息

Hoshika Yasutomo, Katata Genki, Deushi Makoto, Watanabe Makoto, Koike Takayoshi, Paoletti Elena

机构信息

1] Silviculture and Forest Ecological Studies, Hokkaido University, Sapporo 060-8689, Japan [2] Institute of Sustainable Plant Protection, National Research Council of Italy, Via Madonna del Piano, I-50019 Sesto Fiorentino, Florence, Italy.

1] Research Group for Environmental Science, Japan Atomic Energy Agency, 2-4 Shirakata-Shirane, Tokai, Naka, Ibaraki, 319-1195 Japan [2] Atmospheric Environmental Research, Institute of Meteorology and Climate Research, Karlsruhe Institute of Technology, Kreuzeckbahnstr. 19, 82467, Garmisch-Partenkirchen, Germany.

出版信息

Sci Rep. 2015 May 6;5:9871. doi: 10.1038/srep09871.

DOI:10.1038/srep09871

PMID:25943276

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4421795/

Abstract

Tropospheric ozone concentrations have increased by 60-100% in the Northern Hemisphere since the 19(th) century. The phytotoxic nature of ozone can impair forest productivity. In addition, ozone affects stomatal functions, by both favoring stomatal closure and impairing stomatal control. Ozone-induced stomatal sluggishness, i.e., a delay in stomatal responses to fluctuating stimuli, has the potential to change the carbon and water balance of forests. This effect has to be included in models for ozone risk assessment. Here we examine the effects of ozone-induced stomatal sluggishness on carbon assimilation and transpiration of temperate deciduous forests in the Northern Hemisphere in 2006-2009 by combining a detailed multi-layer land surface model and a global atmospheric chemistry model. An analysis of results by ozone FACE (Free-Air Controlled Exposure) experiments suggested that ozone-induced stomatal sluggishness can be incorporated into modelling based on a simple parameter (gmin, minimum stomatal conductance) which is used in the coupled photosynthesis-stomatal model. Our simulation showed that ozone can decrease water use efficiency, i.e., the ratio of net CO2 assimilation to transpiration, of temperate deciduous forests up to 20% when ozone-induced stomatal sluggishness is considered, and up to only 5% when the stomatal sluggishness is neglected.

摘要

自19世纪以来，北半球对流层臭氧浓度增加了60%至100%。臭氧的植物毒性会损害森林生产力。此外，臭氧会影响气孔功能，既促进气孔关闭，又损害气孔控制。臭氧诱导的气孔迟缓，即气孔对波动刺激的反应延迟，有可能改变森林的碳和水平衡。这种效应必须纳入臭氧风险评估模型中。在这里，我们通过结合详细的多层陆地表面模型和全球大气化学模型，研究了2006 - 2009年臭氧诱导的气孔迟缓对北半球温带落叶林碳同化和蒸腾作用的影响。通过臭氧自由空气浓度增高控制实验（FACE）对结果的分析表明，臭氧诱导的气孔迟缓可以基于一个简单参数（gmin，最小气孔导度）纳入建模，该参数用于耦合光合作用 - 气孔模型。我们的模拟表明，当考虑臭氧诱导的气孔迟缓时，臭氧可使温带落叶林的水分利用效率（即净二氧化碳同化与蒸腾作用的比率）降低多达20%，而当忽略气孔迟缓时，仅降低5%。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3c41/4421795/91701f332b6d/srep09871-f1.jpg

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臭氧诱导的气孔迟缓改变了温带落叶林的碳和水平衡。

Ozone-induced stomatal sluggishness changes carbon and water balance of temperate deciduous forests.

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