CO2 升高对 C3 维管束植物氮同化和生长的影响与所同化的氮形式无关。

Elevated CO2 effects on nitrogen assimilation and growth of C3 vascular plants are similar regardless of N-form assimilated.

机构信息

Faculty of Agriculture and Life Sciences, Lincoln University, Lincoln, New Zealand.

Institute of Agriculture and Environment, Massey University, Palmerston North, New Zealand.

出版信息

J Exp Bot. 2019 Jan 7;70(2):683-690. doi: 10.1093/jxb/ery371.

DOI:10.1093/jxb/ery371

PMID:30403798

Abstract

Atmospheric carbon dioxide concentration ([CO2]) increased from around 280 ppm in 1750 to 400 ppm in 2016 and is likely to continue to increase throughout this century. It has been argued that wheat, Arabidopsis, and C3 plants in general respond more positively to elevated atmospheric [CO2] under ammonium (NH4+) nutrition than under nitrate (NO3-) nutrition because elevated CO2 inhibits their photoreduction of NO3- and hence reduces their total plant nitrogen (N) assimilation and ultimately growth. Here, it is argued that the weight of evidence in the literature indicates that elevated atmospheric [CO2] does not inhibit NO3- assimilation and growth of C3 vascular plants. New data for common bean and wheat support this view and indicate that the effects of elevated atmospheric [CO2] on N assimilation and growth of C3 vascular plants will be similar regardless of the form of N assimilated.

摘要

大气二氧化碳浓度（[CO2]）从 1750 年的约 280ppm 增加到 2016 年的 400ppm，预计本世纪还将继续增加。有人认为，与硝态氮（NO3-）营养相比，在铵（NH4+）营养下，小麦、拟南芥和一般的 C3 植物对大气[CO2]升高的反应更为积极，因为升高的 CO2 抑制了它们对 NO3-的光还原，从而降低了它们的总植物氮（N）同化，最终影响生长。在这里，有证据表明，文献中的大量证据表明，大气[CO2]升高不会抑制 C3 维管束植物对 NO3-的同化和生长。关于普通豆和小麦的新数据支持这一观点，并表明无论吸收的氮形式如何，大气[CO2]升高对 C3 维管束植物氮同化和生长的影响将是相似的。

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CO2 升高对 C3 维管束植物氮同化和生长的影响与所同化的氮形式无关。

Elevated CO2 effects on nitrogen assimilation and growth of C3 vascular plants are similar regardless of N-form assimilated.

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