机构地区:[1]中国科学院生态环境研究中心城市与区域生态国家重点实验室,北京100085 [2]中国环境科学研究院生态环境研究所,北京100012 [3]中国环境科学研究院大气化学与气溶胶研究室,北京100012
出 处:《生态学报》2012年第9期2890-2899,共10页Acta Ecologica Sinica
基 金:环境保护公益性行业科研专项经费(200809152);国家自然科学基金(31170424);国家863计划项目(2006AA06A306);中国科学院战略性先导科技专项(XDA05050602;XDA05060102)
摘 要:基于田间原位开顶箱(Open-Top Chambers,OTCs)实验,研究了不同浓度臭氧(O3)处理下(自然大气处理,AA;箱内大气处理,NF;箱内低浓度O3处理,NF+40 nL/L;箱内中等浓度O3处理,NF+80 nL/L;箱内高浓度O3处理,NF+120 nL/L),冬小麦(Triticum aestivum L.)旗叶气孔运动对不同环境因子的响应,并通过剂量反应分析,比较了冬小麦产量损失与累积气孔O3吸收通量(AFstX)和累积O3暴露浓度(AOT40和SUM06)的相关性差异。结果表明:冬小麦旗叶气孔运动的光饱和点和最适温度分别约为400μmol.m-.2s-1和27℃,水汽压差、土壤含水量和O3剂量的气孔限制临界值分别约为1.4 kPa、-100 kPa和20μL.L-.1h-1,超过此临界值时,气孔导度会明显下降。利用Jarvis气孔导度模型对冬小麦旗叶气孔导度和气孔O3吸收通量进行了预测,结果表明Jarvis模型解释了冬小麦实测气孔导度60%的变异性。由于不同时期植物体气孔导度的差异,冬小麦旗叶生长期内累积气孔O3吸收通量(AFstX)呈非线性增加趋势。O3吸收速率临界值(X)为4 nmol.m-.2s-1时,累积O3吸收通量(AFst4)与冬小麦产量的相关性最高(R2=0.76),该数值介于O3暴露指标AOT40和SUM06的剂量反应决定系数(0.74和0.81)之间。与O3浓度指标(AOT40和SUM06)相比,O3通量指标(AFstX)在本试验冬小麦产量损失评价中未表现出明显优势。An Open-Top Chambers (OTCs) experiment on field-grown winter wheat ( Triticum aestivum L. ) was conducted for the purpose of studing the relationships between stomatal conductance (gs) of wheat flag leaves and different environmental variables. Dose-response analysis was also made in order to compare the performance of flux-based and exposure-based indices in predicting the yield loss of winter wheat. Five different ozone ( 03 ) treatments ( Ambient air,AA; Non-filtered air, NF; Non-filtered air with additional 03 of 40 nL/L, NF+40; Non-filtered air with additional 03 of 80 nL/L, NF+80; and Non-filtered air with additional 03 of 120 nL/L, NF+ 120) were adopted. 1471 data points of g, were obtained from twelve measurements through the experiment. Based on the boundary-line analysis, the limiting effects of environmental variables on gs of wheat flag leaves were analyzed. A typical light response curve was found for g, with light saturation at approximately 400 μmol ·m^-2·s^-1 photosynthetically active radiation ( PAR ). The response of gs to air temperature (T) was characterized by a typical single-peak eurve with the physiological optimum temperature at 27℃. The critical values for g, responses to water vapor pressure deficit (VPD), soil water potential (SWP) and 03 dose (AOTO)were approximately 1.4 kPa, -100 kPa and 20 μL·L^-1·h, respectively, and gs decreased sharply when the critical values were exceeded. A Jarvis type muhiplicative model was drawn up and parameterized to predict gs and stomatal 03 uptake (AFstX) of wheat flag leaves from environmental variables (PAR, T, FPD, SWP and AOTO ), which were measured continuously through the experiment. Approximately 60% variation of measured gs could be accounted for by the Jarvis type model. Different phenological variations were found for exposure-based indices (AOT40 and SUM06) and flux-based index (AFst X). Due to the variation of gs which was affected by environmental factors and plant devel
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