Phenotypical evidence of effective amelioration of ammonium-inhibited plant (root) growth by exogenous low urea

•Sub-millimolar urea effectively improves NH4+-inhibited plant/root growth of different species. Ammonium and nitrate are major soil inorganic-nitrogen sources for plant growth, but many species cultivated with even low millimolar NH4+ as a sole N form display a growth retardation. To date, critical...

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Bibliographic Details
Published in:Journal of plant physiology 2020-12, Vol.255, p.153306, Article 153306
Main Authors: Ke, Jie, Pu, Wen-Xuan, Wang, Hui, Liu, Lai-Hua, Sheng, Song
Format: Article
Language:English
Subjects:
Ammonium
Ammonium Compounds - adverse effects
Ammonium Compounds - metabolism
Ammonium tolerance Cotton
Arabidopsis
Arabidopsis - genetics
Arabidopsis - growth & development
Arabidopsis - metabolism
Cotton
Crops, Agricultural - genetics
Crops, Agricultural - growth & development
Crops, Agricultural - metabolism
Detoxification
Exogenous urea
Gene Expression Regulation, Plant - drug effects
Genetic Variation
Gossypium - genetics
Gossypium - growth & development
Gossypium - metabolism
Growth rate
Nitrogen
Nitrogen sources
Phenotype
Plant growth
Plant Roots - growth & development
Plant Roots - metabolism
Root growth
Tobacco
Urea
Urea - metabolism
Urea - pharmacology
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Summary:•Sub-millimolar urea effectively improves NH4+-inhibited plant/root growth of different species. Ammonium and nitrate are major soil inorganic-nitrogen sources for plant growth, but many species cultivated with even low millimolar NH4+ as a sole N form display a growth retardation. To date, critical biological components and applicable approaches involved in the effective enhancement of NH4+ tolerance remain to be thoroughly explored. Here, we report phenotypical traits of urea-dependent improvement of NH4+-suppressed plant/root growth. Urea at 0.1 mM was sufficient to remarkably stimulate NH4+ (3 mM)-fed cotton growth, showing a 2.5∼4-fold increase in shoot- and root-biomass and total root-length, 20 % higher GS activity, 18 % less NH4+-accumulation in roots, and a comparable plant total-N content compared to the control, implying a novel role for urea in cotton NH4+detoxification. A similar phenomenon was observed in tobacco and rice. Moreover, comparisons between twelve NH4+-grown Arabidopsis accessions revealed a great degree of natural variation in their root-growth response to low urea, with WAR and Blh-1 exhibiting the most significant increase in primary- and lateral-root length and numbers, and Sav-0 and Edi-0 being the most insensitive. Such phenotypical evidence suggests a common ability of plants to accommodate NH4+-stress by responding to exogenous urea, providing a novel aspect for further understanding the process of urea-dependent plant NH4+ tolerance.
ISSN:0176-1617
1618-1328
DOI:10.1016/j.jplph.2020.153306