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Source-sink balance and carbon allocation below ground in plants exposed to ozone.暴露于臭氧环境下的植物的源-库平衡与地下碳分配
New Phytol. 2003 Feb;157(2):213-228. doi: 10.1046/j.1469-8137.2003.00674.x.
2
Calcium signalling in stomatal responses to pollutants.气孔对污染物响应中的钙信号传导
New Phytol. 2002 Mar;153(3):441-447. doi: 10.1046/j.0028-646X.2001.00336.x. Epub 2002 Mar 5.
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An in vivo analysis of photosynthesis during short-term O3 exposure in three contrasting species.三种不同物种在短期臭氧暴露下光合作用的体内分析。
Photosynth Res. 1995 Jan;43(1):11-8. doi: 10.1007/BF00029457.
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A biochemical model of photosynthetic CO2 assimilation in leaves of C 3 species.C3 植物叶片光合作用 CO2 同化的生化模型。
Planta. 1980 Jun;149(1):78-90. doi: 10.1007/BF00386231.
5
Canopy carbon budget of Siebold's beech (Fagus crenata) sapling under free air ozone exposure.林冠碳预算下自由空气臭氧暴露的西氏山毛榉(Fagus crenata)幼树。
Environ Pollut. 2014 Jan;184:682-9. doi: 10.1016/j.envpol.2013.04.018. Epub 2013 May 9.
6
Photosynthetic traits of Siebold's beech and oak saplings grown under free air ozone exposure in northern Japan.在日本北部自由空气臭氧暴露下生长的 Siebold 山毛榉和栎树苗的光合特性。
Environ Pollut. 2013 Mar;174:50-6. doi: 10.1016/j.envpol.2012.11.006. Epub 2012 Dec 14.
7
Ozone-induced stomatal sluggishness develops progressively in Siebold's beech (Fagus crenata).臭氧诱导的气孔迟钝在楔叶栎(Fagus crenata)中逐渐发展。
Environ Pollut. 2012 Jul;166:152-6. doi: 10.1016/j.envpol.2012.03.013. Epub 2012 Apr 12.
8
Ozone exposure causes a decoupling of conductance and photosynthesis: implications for the Ball-Berry stomatal conductance model.臭氧暴露导致导度和光合作用解耦:对 Ball-Berry 气孔导度模型的启示。
Oecologia. 2012 Jul;169(3):651-9. doi: 10.1007/s00442-011-2242-3. Epub 2012 Jan 5.
9
Growth and photosynthetic traits of hybrid larch F1 (Larix gmelinii var. japonica x L. kaempferi) under elevated CO2 concentration with low nutrient availability.低养分供应下,高浓度 CO2 对杂种落叶松 F1(日本落叶松×欧洲赤松)生长和光合特性的影响。
Tree Physiol. 2011 Sep;31(9):965-75. doi: 10.1093/treephys/tpr059. Epub 2011 Aug 2.
10
Ozone-triggered rapid stomatal response involves the production of reactive oxygen species, and is controlled by SLAC1 and OST1.臭氧触发的快速气孔反应涉及活性氧物质的产生,并受 SLAC1 和 OST1 的控制。
Plant J. 2010 May;62(3):442-53. doi: 10.1111/j.1365-313X.2010.04159.x. Epub 2010 Feb 1.

基于模型的分析表明,贝壳杉(Fagus crenata)通过气孔关闭来避免臭氧胁迫。

Model-based analysis of avoidance of ozone stress by stomatal closure in Siebold's beech (Fagus crenata).

机构信息

Silviculture and Forest Ecological Studies, Hokkaido University, Sapporo 060-8689, Japan.

出版信息

Ann Bot. 2013 Oct;112(6):1149-58. doi: 10.1093/aob/mct166. Epub 2013 Jul 31.

DOI:10.1093/aob/mct166
PMID:23904447
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3783231/
Abstract

BACKGROUND AND AIMS

Resistance of plants to ozone stress can be classified as either avoidance or tolerance. Avoidance of ozone stress may be explained by decreased stomatal conductance during ozone exposure because stomata are the principal interface for entry of ozone into plants. In this study, a coupled photosynthesis-stomatal model was modified to test whether the presence of ozone can induce avoidance of ozone stress by stomatal closure.

METHODS

The response of Siebold's beech (Fagus crenata), a representative deciduous tree species, to ozone was studied in a free-air ozone exposure experiment in Japan. Photosynthesis and stomatal conductance were measured under ambient and elevated ozone. An optimization model of stomata involving water, CO2 and ozone flux was tested using the leaf gas exchange data.

KEY RESULTS

The data suggest that there are two phases in the avoidance of ozone stress via stomatal closure for Siebold's beech: (1) in early summer ozone influx is efficiently limited by a reduction in stomatal conductance, without any clear effect on photosynthetic capacity; and (2) in late summer and autumn the efficiency of ozone stress avoidance was decreased because the decrease in stomatal conductance was small and accompanied by an ozone-induced decline of photosynthetic capacity.

CONCLUSIONS

Ozone-induced stomatal closure in Siebold's beech during early summer reduces ozone influx and allows the maximum photosynthetic capacity to be reached, but is not sufficient in older leaves to protect the photosynthetic system.

摘要

背景与目的

植物对臭氧胁迫的抗性可分为回避和耐受。臭氧暴露期间气孔导度降低可解释回避臭氧胁迫,因为气孔是臭氧进入植物的主要界面。在这项研究中,修改了一个耦合光合作用-气孔模型,以测试臭氧的存在是否可以通过气孔关闭来诱导对臭氧胁迫的回避。

方法

在日本的一项自由空气臭氧暴露实验中,研究了代表落叶树种的日本山毛榉(Fagus crenata)对臭氧的反应。在环境和升高的臭氧下测量光合作用和气孔导度。使用叶片气体交换数据测试了涉及水、CO2 和臭氧通量的气孔优化模型。

主要结果

数据表明,日本山毛榉通过气孔关闭来避免臭氧胁迫有两个阶段:(1)在初夏,通过降低气孔导度有效地限制了臭氧的流入,对光合能力没有明显影响;(2)在夏末和秋季,由于气孔导度的降低很小且伴随着臭氧诱导的光合能力下降,臭氧胁迫回避的效率降低。

结论

在初夏,臭氧诱导的日本山毛榉气孔关闭减少了臭氧的流入,并允许达到最大的光合能力,但在较老的叶片中,不足以保护光合系统。