低温胁迫下增施锌肥对水稻氮代谢与干物质积累的影响  被引量：11

作　　者：刘智蕾 苏锦铠 孟静柔 李鹏飞[1] 宋佳媚 张昊楠 陈志豪 于彩莲[2] 袁英才 彭显龙[1] LIU Zhi-lei;SU Jin-kai;MENG Jing-rou;LI Peng-fei;SONG Jia-mei;ZHANG Hao-nan;CHEN Zhi-hao;YU Cai-lian;YUAN Ying-cai;PENG Xian-long(Northeast Agricultural University,Harbin,Heilongjiang 150030,China;Harbin University of Science and Technology,Harbin,Heilongjiang 150040,China;Heilongjiang Chunyu Intelligent Agricultural Technology Co.,Ltd,Harbin,Heilongjiang 150030,China)

机构地区：[1]东北农业大学,黑龙江哈尔滨150030 [2]哈尔滨理工大学,黑龙江哈尔滨150040 [3]黑龙江春雨智慧农业科技有限公司,黑龙江哈尔滨150030

出　　处：《植物营养与肥料学报》2022年第1期15-22,共8页Journal of Plant Nutrition and Fertilizers

基　　金：黑龙江省高校青年创新人才(UNPYSCT-2018171)资助。

摘　　要：【目的】施锌是缓解低温胁迫对水稻伤害的有效途径之一,低温胁迫下研究增加施锌量对水稻氮代谢与物质积累的影响,为低温年提高水稻抗低温能力提供理论依据。【方法】采用三叶一心期水稻幼苗进行水培试验,设置低(Zn 0.08μmol/L)、常规(Zn 0.15μmol/L)、高(Zn 0.30μmol/L)3个ZnSO4·7H2O水平,即Zn0.08、Zn0.15、Zn0.30处理。水稻长至五叶一心期时,分别进行低温(12℃)与常温(20℃)处理,处理7天后取样分析水稻根系活力、抗氧化酶活性、干物质积累、养分吸收与氮代谢等指标。【结果】与20℃常温下Zn0.15处理相比,12℃低温下Zn0.15处理水稻丙二醛(MDA)含量显著增加,水稻根系总吸收面积、根系活跃吸收面积和根系氧化力降低,水稻地上部氮与锌的积累量减少,导致水稻分蘖数量减少22.86%(P<0.05),地上部及根系干重分别降低33.60%和28.42%(P<0.05)。12℃低温胁迫下,Zn0.30处理显著提高了水稻根系总吸收面积、活跃吸收面积和根系氧化力,Zn0.08处理水稻根系活力显著下降。12℃低温胁迫下,Zn0.30处理水稻分蘖数量与地上部干重虽然显著高于Zn0.15处理,但仍低于20℃常温下Zn0.15处理。12℃低温胁迫下,Zn0.30处理显著增加水稻含锌量,促进地上部和根系锌的积累,提高硝酸还原酶(NR)与谷氨酰胺合成酶(GS)活性,显著增加水稻氮积累量,同时提高水稻叶片抗氧化酶活性,使MDA含量较Zn0.15处理降低26.39%(P<0.05)。在12℃低温下,与Zn0.15处理相比,Zn0.08处理的水稻根系含锌量显著降低,GS活性减少17.65%(P<0.05),根系含氮量降低了4.78%(P<0.05)。【结论】苗期增加施锌量能显著提高水稻根系活力,促进锌吸收,增强氮代谢,减少低温对细胞膜的破坏,促进氮与干物质积累,从而缓解营养生长期低温对水稻的伤害。【Objectives】Zinc(Zn)has been proved of enhancing rice growth and resistance to low temperature stress.We studied the potential of increasing Zn supply to alleviate low temperature damage on rice during vegetative period.【Methods】A hydroponic culture experiment was conducted using 3-leaves-1-heart leaf rice seedlings inside growth chamber.ZnSO_(4)·7H_(2)O concentrations of 0.08,0.15,and 0.30μmol/L were set up to represent low,conventional and high Zn application levels.When the rice seedlings grew to 5 leaves-1-heart leaf stage,they were subjected to low and regular temperatures(12℃and 20℃)for 7 days,then harvested for analysis of dry matter,Zn and N content,root vitality,and indexes of N metabolism.【Results】Compared to regular temperature,low temperature significantly reduced the total and active absorption area and oxidizing ability of rice root,decreased N and Zn uptake,and then decreased rice tiller number by 22.86%(P<0.05),shoot and root dry matter by 33.60%(P<0.05)and 28.42%(P<0.05),respectively.Under low temperature,high Zn treatment significantly increased the total and active absorption area,and oxidizing capacity of root,although the rice tillering and shoot dry matter under high Zn treatment were not as high as regular temperature,but were significantly higher than the conventional Zn treatment.Compared with conventional Zn treatment,high Zn under low temperature significantly increased Zn concentration,the nitrate reductase(NR)and glutamine synthetase(GS)activities,the shoot and root N accumulation.Meanwhile,high Zn increased the rice leaf antioxidant enzymes activities and decreased the malondialdehyde concentration by 26.39%(P<0.05).Under low temperature,rice root Zn concentration decreased significantly,the GS activity and N concentration decreased by 17.65%and 4.78%(P<0.05),respectively.【Conclusions】Increasing Zn supply level during rice seedling stage could increase the root vigor,improve Zn absorption,enhance N metabolism,and then promote nutrients and dry matter accumulatio

关 键 词：水稻 低温抗性 锌 根系活力 氮代谢 干重 

分 类 号：S511[农业科学—作物学]