大气CO_(2)浓度升高条件下稻稗共生系统中稗草对水稻光合生理的影响  被引量：4

作　　者：金殿玉 谢立勇[1] 赵洪亮[1] 李颖[1] 韩雪[2] 何雨桐 林而达[2] JIN Dian-yu;XIE Li-yong;ZHAO Hong-liang;LI Ying;HAN Xue;HE Yu-tong;LIN Er-da(College of Agronomy,Shenyang Agricultural University,Shenyang 110161,China;Institute of Environment and Sustainable Development in Agriculture,Chinese Academy of Agricultural Sciences,Beijing 100081)

机构地区：[1]沈阳农业大学农学院,沈阳110161 [2]中国农业科学院农业环境与可持续发展研究所,北京100081

出　　处：《中国农业气象》2022年第3期204-214,共11页Chinese Journal of Agrometeorology

基　　金：国家自然科学基金(41875141,41175097)。

摘　　要：稗草是水稻田的恶性杂草之一,严重影响水稻的生长发育和产量形成。为明确CO_(2)浓度升高条件下稗草和水稻的光合生理响应及其竞争关系变化,以吉粳88为研究对象,利用开放式CO_(2)浓度富集系统(FACE系统)开展模拟试验。试验设置2个CO_(2)浓度,分别为自然大气CO_(2)浓度(400μmol·mol^(-1))和高CO_(2)浓度(550μmol·mol^(-1)),高CO_(2)浓度环境应用FACE系统进行调控;每种CO_(2)浓度处理中设2种种植方式,分别为清种水稻和水稻与稗草混种,稗草与水稻种植密度比为1:5,在水稻各生育期测定相应的光合生理指标并进行分析。结果表明:CO_(2)浓度升高使水稻每穴穗数显著增加,结实率也有所提高,最终使水稻产量显著提高;稗草与水稻混种使水稻结实率显著降低,水稻千粒重显著增加,最终使水稻产量显著降低;CO_(2)浓度升高和稗草互作使水稻千粒重显著提高,但对产量影响并不显著。CO_(2)浓度升高使水稻干物质量显著提高,稗草使水稻干物质量显著降低;而CO_(2)浓度升高和稗草互作对水稻干物质影响不显著。CO_(2)浓度升高使水稻剑叶净光合速率、胞间CO_(2)浓度及SPAD值显著升高,使水稻剑叶气孔导度和蒸腾速率显著降低,稗草显著降低了水稻剑叶净光合速率、胞间CO_(2)浓度、气孔导度、蒸腾速率、瞬时水分利用效率及SPAD值;CO_(2)浓度和稗草互作使水稻剑叶净光合速率先降低后升高。水稻抽穗后CO_(2)浓度升高对水稻光合作用的影响大于稗草对水稻光合作用的影响。Barnyard grass is one of the vicious weeds in rice field,which affects seriously the growth and development of rice and reduces the yield of rice.In order to clarify the effect of barnyard grass on rice growth and development and yield formation under the condition of elevated atmospheric carbon dioxide(CO_(2))concentration,the experiment was conducted with the Free-Air CO_(2)Enrichment system(FACE system),taking rice Jijing 88 as material.The experiment included 4 treatments:atmospheric CO_(2)concentration(400μmol·mol-1)without barnyard grass,rice planting and barnyard grass together with atmospheric CO_(2)concentration,elevated CO_(2)concentration(550μmol·mol^(-1))without barnyard grass,rice planting and barnyard grass together with elevated CO_(2)concentration.Physiological indicators were measured and analyzed at the tillering stage,jointing stage,heading stage,and mature stage of rice.The results showed that elevated CO_(2)concentration increased significantly the number of rice ears per hole and the seed setting rate,and eventually increased the rice yield.Barnyard grass significantly reduced the rice seed setting rate,and reduced rice yield ultimately.Interaction of elevated CO_(2)concentration and barnyard grass increased significantly thousand-grain weight of rice,yet,the interaction did not affected rice yield significantly.Elevated CO_(2)concentration increased significantly the dry matter of rice,and barnyard grass reduced significantly the dry matter of rice.However,the interaction of elevated CO_(2)concentration and the barnyard grass had no significant difference.Elevated CO_(2)concentration increased significantly the net photosynthetic rate of the flag leaf of rice,the concentration of intercellular CO_(2)of the flag leaf,and the Soil and Plant Analyzer Developrnent(SPAD)value of rice flag leaf.Barnyard grass treatment reduced significantly the net photosynthetic rate of the flag leaf of rice,the concentration of intercellular CO_(2)in the flag leaf,the stomatal conductance,the transpiration

关 键 词：气候变化 二氧化碳 稗草 水稻 光合作用 

分 类 号：S511[农业科学—作物学]