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Root Respiration Associated with Nitrogenase Activity (C2H2) of Soybean and a Comparison of Estimates

机译：大豆根系呼吸作用与硝化酶活性（C2H2）的关系并与估算值进行比较

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Root respiration associated with symbiotic fixation in soybean (Glycine max [L.] Merr.) was estimated by four methods.Averaged over the life of the plant, the root respires 5.8 milligrams C per milligram N accumulated from fixation. When nitrogenase (C2H2) activity and root respiration were decreased by treating roots briefly with 1.0 atmosphere O2, the respiration associated with nitrogenase was estimated as 2.10 micromoles CO2 per micromole C2H4.When nitrogenase activity and respiration were decreased by addition of nitrate, the respiration associated with fixation was calculated as 2.90 micromoles CO2 per micromole C2H4. Removing nodules from roots decreased fixation and root respiration, and the ratio was 4.08 micromoles CO2 per micromole C2H4. When soybean plants were kept in prolonged darkness, then returned to light, the associated drop and recovery of respiration and nitrogenase activity had a ratio of 4.36 micromoles CO2 per micromole C2H2.

机译：大豆（Glycine max [L.] Merr。）与共生固着相关的根部呼吸通过四种方法进行估算。在植物的整个生命周期中，根部固着累积的每N的根部呼吸5.8毫克碳。当通过在1.0个大气压的O2下短暂处理根部而降低了固氮酶（C2H2）的活性和根系呼吸时，与固氮酶相关的呼吸作用估计为每微摩尔C2H4 2.10微摩尔CO2。当通过添加硝酸盐降低固氮酶活性和呼吸作用时，呼吸相关固定的计算为每微摩尔C2H4 2.90微摩尔CO2。从根部去除根瘤减少了固定和根部呼吸，并且比率为每微摩尔C2H4为4.08微摩尔CO2。当大豆植物长时间处于黑暗中，然后恢复光照时，呼吸和固氮酶活性的下降和恢复与每微摩尔C2H2的比率为4.36微摩尔CO2。

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期刊名称 Plant Physiology
作者
Thomas G. Patterson; Thomas A. Larue;
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作者单位

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年(卷),期 1983(72),3
年度 1983
页码 701–705
总页数 5
原文格式 PDF
正文语种
中图分类人体生理学;
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专利

1. CONTINUOUS EXPOSURE OF NODULATED-ROOTS OF SOYBEAN TO ACETYLENE INHIBITS IN VIVO NITROGENASE ACTIVITY (C2H2 REDUCTION) AND PHOTOSYNTHESIS [J] . Vidal R, Gerbaud A, Vidal D, Journal of Plant Physiology . 1995,第3期

机译：大豆根瘤菌连续暴露于体内硝化酶活性（C2H2还原）和光合作用中的乙炔抑制
2. A SHORT-TERM DECREASE IN NITROGENASE ACTIVITY (C2H2 REDUCTION) IS INDUCED BY EXPOSURE OF SOYBEAN SHOOTS TO THEIR CO2 COMPENSATION POINT [J] . Vidal R., Vidal D., Drevon JJ., Plant physiology . 1995,第4期

机译：大豆芽苗暴露于其CO2补偿点会导致氮素酶活性短期下降（C2H2降低）
3. Juglone Disrupts Root Plasma Membrane H+-ATPase Activity and Impairs Water Uptake, Root Respiration, and Growth in Soybean (Glycine max) and Corn (Zea mays) [J] . Angela M. Hejl, Karen L. Koster Journal of Chemical Ecology . 2004,第2期

机译：Juglone破坏大豆（Glycine max）和玉米（Zea mays）的根质膜H + -ATPase活性并损害水分吸收，根系呼吸和生长
4. Comparison of respiration rates from static and dynamic measurement systems for soybeans at 18 moisture and 35°C [C] . Annual International Meeting of the American Society of Agricultural and Biological Engineers . 2017

机译：静态和动态测量系统的呼吸速率与大豆水分静态测量系统和35°C的比较
5. Colchicine causes cytological changes and decreased nitrogenase activity in pea (Pisum sativum) and soybean (Glycine max) root nodules [D] . Mockler, Erica L. 2005

机译：秋水仙碱引起豌豆（Pisum sativum）和大豆（Glycine max）根瘤的细胞学变化并降低固氮酶活性
6. Effect of Supra-Ambient Oxygen on Nitrogenase Activity (C2H2) and Root Respiration of Soybeans and Isolated Soybean Bacteroids [O] . Thomas G. Patterson, Jay B. Peterson, Thomas A. Larue 1983

机译：超环境氧对大豆及离体大豆类细菌氮酶活性（C2H2）和根系呼吸的影响
7. Root Respiration Associated with Nitrogenase Activity (C2H2) of Soybean, and a Comparison of Estimates 1 [O] . Patterson, Thomas G., Larue, Thomas A. 1983

机译：大豆根系呼吸作用与氮酶活性（C2H2）的关系，并与估算值进行比较1

Root Respiration Associated with Nitrogenase Activity (C2H2) of Soybean and a Comparison of Estimates

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