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AuthorNadeem, Muhammad
AuthorYahya, Muhammad
AuthorTong, Jingyang
AuthorShah, Liaqut
AuthorKhan, Sana Ullah
AuthorAli, Ahmad
AuthorSher, Alam
AuthorUllah, Najeeb
AuthorWaheed, Abdul
Available date2023-05-10T10:14:14Z
Publication Date2023-01-01
Publication NameJournal of Plant Growth Regulation
Identifierhttp://dx.doi.org/10.1007/s00344-023-10938-9
CitationNadeem, M., Yahya, M., Tong, J. et al. Improving Nitrogen Acquisition and Utilization Through Root Architecture Remodelling: Insight from Legumes. J Plant Growth Regul (2023). https://doi.org/10.1007/s00344-023-10938-9
ISSN07217595
URIhttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85148655862&origin=inward
URIhttp://hdl.handle.net/10576/42566
AbstractIn crop species, nutrient deficiency severely damages plant growth and developmental processes, leading to end-yield penalties. Root architecture remodelling is considered a key factor underpinning nutrient-poor soil environments. Adequate nitrogen (N) supply can play a significant role in sustaining crop productivity on nutrient-deficient soils. However, excessive application of nitrogenous fertilizer may pollute the soil and increase the production cost for the growers. To tackle this problem, crop breeders have made tremendous efforts to improve the N-use efficiency of agricultural crops. This article summarizes the recent progress in identifying QTLs/genes, regulatory pathways, and hormonal crosstalk involved in the growth and development of legumes roots system. Moreover, we have described the progress in microbe–root symbiosis via QTLs/genes regulations, which results in improved N acquisition. Understanding the molecular mechanisms that regulate the root architecture in response to N availability may help to strengthen the root system of legumes and promote environmental friendly and sustainable agriculture.
Languageen
PublisherSpringer
SubjectHormonal regulation
Legumes
Microbe–root symbiosis
Molecular mechanisms
Nitrogen-use efficiency
Root system architecture
TitleImproving Nitrogen Acquisition and Utilization Through Root Architecture Remodelling: Insight from Legumes
TypeArticle
ESSN1435-8107
dc.accessType Open Access


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