水稻分蘖期干物质积累对大气CO_(2)浓度升高和氮素营养的综合响应差异及其生理机制  被引量：3

作　　者：贺江 丁颖 娄向弟 姬东玲 张向向 王永慧[2] 张伟杨 王志琴[1] 王伟露 杨建昌[1] HE Jiang;DING Ying;LOU XiangDi;JI DongLing;ZHANG XiangXiang;WANG YongHui;ZHANG WeiYang;WANG ZhiQin;WANG WeiLu;YANG JianChang(Jiangsu Key Laboratory of Crop Genetics and Physiology/Jiangsu Key Laboratory of Crop Cultivation and Physiology/Agricultural College of Yangzhou University,Yangzhou 225009,Jiangsu;Jiangsu Coastal Agricultural Science Research Institute,Yancheng 224002,Jiangsu;Joint International Research Laboratory of Agriculture and Agri-product Safety,Ministry of Education/Institutes of Agricultural Science and Technology Development of Yangzhou University,Yangzhou 225009,Jiangsu)

机构地区：[1]江苏省作物遗传生理重点实验室/江苏省作物栽培生理重点实验室/扬州大学农学院,江苏扬州225009 [2]江苏沿海地区农业科学研究所,江苏盐城224002 [3]教育部农业与农产品安全国际合作联合实验室/扬州大学农业科技发展研究院,江苏扬州225009

出　　处：《中国农业科学》2023年第6期1045-1060,共16页Scientia Agricultura Sinica

基　　金：江苏省自然科学青年基金(BK20200923);国家自然科学基金(32201888,32071943);国家重点研发计划(SQ2022YFD2300304,2018YFD0300801);江苏高校优势学科建设工程资助项目(PAPD);扬州市“绿杨金凤”人才引进计划。

摘　　要：【目的】探究不同类型水稻品种物质生产响应大气CO_(2)浓度升高和氮素营养的综合响应差异及其生理机制。【方法】以产量和物质生产对CO_(2)浓度升高响应有明显差异的水稻品种两优培九(LY)和南粳9108(NJ)为材料,在人工气候室进行水培试验。分别设置对照CO_(2)浓度(A-CO_(2),400μmol·mol^(-1))和CO_(2)浓度升高(E-CO_(2),600μmol·mol^(-1))两个CO_(2)处理,高氮(HN,1.25 mmol·L^(-1) NH_(4)NO_(3))和低氮(LN,0.25 mmol·L^(-1) NH_(4)NO_(3))两个氮水平。分析CO_(2)浓度升高对不同水稻品种根系形态与生理活性、叶片和根系中细胞分裂素(CTKs)含量、氮素同化酶活性、叶片生理特性、光合参数以及干物质积累的影响差异。【结果】(1)E-CO_(2)显著增加了LY总冠根数、总根长(LN水平除外)、总根表面积和平均直径,提高其根系呼吸速率和维持较高的根系氧化力,而对NJ无显著影响或表现相反;(2)无论氮水平如何,E-CO_(2)显著提高了LY叶片和根系CTKs含量,但显著降低了HN水平下NJ根系中玉米素核苷(ZR)含量;(3)在LN水平下,E-CO_(2)显著提高了LY叶片GOGAT、GDH活性,显著降低了NJ叶片NR活性。在HN水平下,LY氮同化酶活性在E-CO_(2)条件下都表现为提高,NJ仅NR活性提高;(4)在LN水平下,E-CO_(2)使得LY和NJ净光合速率(P_(n))分别提高了28.0%和29.4%。在HN水平下,两品种分别提高了41.0%和28.1%。LY光合响应大幅度提高归因于叶片最大羧化效率(V_(c,max))、最大光合电子传递效率(J_(max))、核酮糖-1,5-二磷酸羧化酶(Rubisco)含量、叶绿素含量、叶片氮含量等显著提高;(5)E-CO_(2)显著增加了不同氮水平下LY单株叶面积,对NJ无显著影响;(6)E-CO_(2)显著增加了LY各器官及总生物量,且HN水平增幅明显大于LN水平。E-CO_(2)并未显著影响不同氮水平下NJ的总生物量,显著降低了HN水平下NJ地下部生物量(-16.7%)。【结论】无论在HN还是LN水平下,LY物质生产和生理特征�【Objective】The aim of this study was to explore the comprehensive response difference and physiological mechanism of different rice cultivars in response to elevated atmospheric CO_(2)concentration and nitrogen nutrition.【Method】In this study,a rice cultivar Liangyoupeijiu(LY)with high response to CO_(2)(high-response rice cultivar)and a rice cultivar Nanjing 9108(NJ)with low response to CO_(2)(low-response rice cultivar)were selected as materials.Hydroponic experiments were carried out in the climate chamber.Two CO_(2)treatments and two nitrogen treatments were set up with ambient CO_(2)concentration(A-CO_(2),400μmol·mol^(-1))and elevated CO_(2)concentration(E-CO_(2),600μmol·mol^(-1)),and high nitrogen(HN,1.25 mmol·L^(-1) NH_(4)NO_(3))and low nitrogen(LN,0.25 mmol·L^(-1) NH_(4)NO_(3)),respectively.The effects of elevated CO_(2)concentration on root morphology and physiological activity,cytokinin(CTKs)content in leaves and roots,nitrogen assimilation enzyme activity,physiological characteristics of leaves,photosynthetic parameters,and dry matter accumulation of different rice cultivars were analyzed.【Result】(1)E-CO_(2)significantly increased the total crown root number,total root length(except LN level),total root surface area,and average diameter of LY,improved root respiration rate and maintained high root oxidation power,but had no significant or opposite effects on NJ.(2)Regardless of nitrogen level,E-CO_(2)significantly increased CTKs content in LY leaves and roots,but significantly decreased zeatin nucleoside(ZR)content in NJ roots at HN level.(3)At LN level,E-CO_(2)significantly increased GOGAT and GDH activities in LY leaves,but significantly decreased NR activities in NJ leaves.At HN level,the activity of LY nitrogen assimilation enzyme increased under E-CO_(2)condition,but only NR activity increased in NJ.(4)At LN level,E-CO_(2)increased the net photosynthetic rate(P_(n))of LY and NJ by 28.0%and 29.4%,respectively.At HN level,P_(n) of the two cultivars increased by 41.0%and 28.1%,respe

关 键 词：水稻 CO_(2)浓度升高 根系形态 细胞分裂素 光合作用 干物质生产 

分 类 号：S511[农业科学—作物学]