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      Targeting Nitrogen Metabolism and Transport Processes to Improve Plant Nitrogen Use Efficiency

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          Abstract

          In agricultural cropping systems, relatively large amounts of nitrogen (N) are applied for plant growth and development, and to achieve high yields. However, with increasing N application, plant N use efficiency generally decreases, which results in losses of N into the environment and subsequently detrimental consequences for both ecosystems and human health. A strategy for reducing N input and environmental losses while maintaining or increasing plant performance is the development of crops that effectively obtain, distribute, and utilize the available N. Generally, N is acquired from the soil in the inorganic forms of nitrate or ammonium and assimilated in roots or leaves as amino acids. The amino acids may be used within the source organs, but they are also the principal N compounds transported from source to sink in support of metabolism and growth. N uptake, synthesis of amino acids, and their partitioning within sources and toward sinks, as well as N utilization within sinks represent potential bottlenecks in the effective use of N for vegetative and reproductive growth. This review addresses recent discoveries in N metabolism and transport and their relevance for improving N use efficiency under high and low N conditions.

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          Plant nitrogen assimilation and use efficiency.

          Guohua Xu, Xiaorong Fan, Anthony Miller (2012)
          Crop productivity relies heavily on nitrogen (N) fertilization. Production and application of N fertilizers consume huge amounts of energy, and excess is detrimental to the environment; therefore, increasing plant N use efficiency (NUE) is essential for the development of sustainable agriculture. Plant NUE is inherently complex, as each step-including N uptake, translocation, assimilation, and remobilization-is governed by multiple interacting genetic and environmental factors. The limiting factors in plant metabolism for maximizing NUE are different at high and low N supplies, indicating great potential for improving the NUE of current cultivars, which were bred in well-fertilized soil. Decreasing environmental losses and increasing the productivity of crop-acquired N requires the coordination of carbohydrate and N metabolism to give high yields. Increasing both the grain and N harvest index to drive N acquisition and utilization are important approaches for breeding future high-NUE cultivars.
          Article 0 comments Cited 526 times – based on 0 reviews     Review now
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            Agricultural intensification and ecosystem properties.

            P Matson, W J Parton, A. G. Power (1997)
            Expansion and intensification of cultivation are among the predominant global changes of this century. Intensification of agriculture by use of high-yielding crop varieties, fertilization,irrigation, and pesticides has contributed substantially to the tremendous increases in food production over the past 50 years. Land conversion and intensification,however, also alter the biotic interactions and patterns of resource availability in ecosystems and can have serious local, regional, and global environmental consequences.The use of ecologically based management strategies can increase the sustainability of agricultural production while reducing off-site consequences.
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              Nitrogen uptake, assimilation and remobilization in plants: challenges for sustainable and productive agriculture.

              Céline Masclaux-Daubresse, Françoise Daniel-Vedele, Julie Dechorgnat (2010)
              Productive agriculture needs a large amount of expensive nitrogenous fertilizers. Improving nitrogen use efficiency (NUE) of crop plants is thus of key importance. NUE definitions differ depending on whether plants are cultivated to produce biomass or grain yields. However, for most plant species, NUE mainly depends on how plants extract inorganic nitrogen from the soil, assimilate nitrate and ammonium, and recycle organic nitrogen. Efforts have been made to study the genetic basis as well as the biochemical and enzymatic mechanisms involved in nitrogen uptake, assimilation, and remobilization in crops and model plants. The detection of the limiting factors that could be manipulated to increase NUE is the major goal of such research. An overall examination of the physiological, metabolic, and genetic aspects of nitrogen uptake, assimilation and remobilization is presented in this review. The enzymes and regulatory processes manipulated to improve NUE components are presented. Results obtained from natural variation and quantitative trait loci studies are also discussed. This review presents the complexity of NUE and supports the idea that the integration of the numerous data coming from transcriptome studies, functional genomics, quantitative genetics, ecophysiology and soil science into explanatory models of whole-plant behaviour will be promising.
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                Author and article information

                Contributors
                Journal
                Journal ID (nlm-ta): Front Plant Sci
                Journal ID (iso-abbrev): Front Plant Sci
                Journal ID (publisher-id): Front. Plant Sci.
                Title: Frontiers in Plant Science
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 1664-462X
                Publication date (Electronic): 01 March 2021
                Publication date Collection: 2020
                Volume: 11
                Electronic Location Identifier: 628366
                Affiliations
                School of Biological Sciences, Washington State University , Pullman, WA, United States
                Author notes

                Edited by: Nandula Raghuram, Guru Gobind Singh Indraprastha University, India

                Reviewed by: Bertrand Hirel, Institut National de la Recherche Agronomique (INRA), France; Guillaume Pilot, Virginia Tech, United States

                *Correspondence: Mechthild Tegeder tegeder@ 123456wsu.edu

                This article was submitted to Plant Physiology, a section of the journal Frontiers in Plant Science

                †These authors have contributed equally to this work and share first authorship

                Article
                DOI: 10.3389/fpls.2020.628366
                PMC ID: 7957077
                PubMed ID: 33732269
                SO-VID: d7f880fd-f4ce-4593-bc51-05c1cf5d01f7
                Copyright © Copyright © 2021 The, Snyder and Tegeder.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 11 November 2020
                Date accepted : 31 December 2020
                Page count
                Figures: 3, Tables: 0, Equations: 0, References: 373, Pages: 22, Words: 21860
                Funding
                Funded by: National Science Foundation 10.13039/100000001
                Award ID: IOS-1932661
                Funded by: U.S. Department of Agriculture 10.13039/100000199
                Award ID: 2017-67013- 26158
                Categories
                Subject: Plant Science
                Subject: Review

                ScienceOpen disciplines: Plant science & Botany
                Keywords: amino acid partitioning,nitrogen assimilation,crop improvement,nitrogen uptake and transport,nitrogen use efficiency,seed yield and quality,source and sink physiology,sustainable agriculture
                Data availability:
                ScienceOpen disciplines: Plant science & Botany
                Keywords: amino acid partitioning, nitrogen assimilation, crop improvement, nitrogen uptake and transport, nitrogen use efficiency, seed yield and quality, source and sink physiology, sustainable agriculture

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