Nitrogen nutrition in cotton and control strategies for greenhouse gas emissions: a review

Cotton ( Gossypium hirustum L.) is grown globally as a major source of natural fiber. Nitrogen (N) management is cumbersome in cotton production systems; it has more impacts on yield, maturity, and lint quality of a cotton crop than other primary plant nutrient. Application and production of N ferti...

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Published in:Environmental science and pollution research international 2017-10, Vol.24 (30), p.23471-23487
Main Authors: Khan, Aziz, Tan, Daniel Kean Yuen, Munsif, Fazal, Afridi, Muhammad Zahir, Shah, Farooq, Wei, Fan, Fahad, Shah, Zhou, Ruiyang
Format: Article
Language:English
Subjects:
Adenosine triphosphate
Amides
Amines
Amino acids
Ammonia
Ammonia - analysis
Ammonium
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
ATP
Chemical synthesis
Cotton
Crop production
Earth and Environmental Science
Ecotoxicology
Emission analysis
Emissions
Environment
Environmental Chemistry
Environmental Health
Environmental science
Essential nutrients
Fertilization
Fertilizers
Fertilizers - analysis
Glutamate-ammonia ligase
Glutamates
Glutamine
Gossypium - growth & development
Gossypium - metabolism
Greenhouse effect
Greenhouse gases
Greenhouse Gases - analysis
Groundwater
Ketoglutaric acid
Lint
Metabolism
Nitrates - analysis
Nitrogen
Nitrogen - analysis
Nitrogen - metabolism
Nitrous oxide
Nitrous Oxide - analysis
Nucleic acids
Nutrients
Nutrition
Peptides
Pollution control
Polymers
Proteins
Review Article
Slow release fertilizers
Transaminases
Urea
Waste Water Technology
Water Management
Water pollution
Water Pollution Control
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Summary:Cotton ( Gossypium hirustum L.) is grown globally as a major source of natural fiber. Nitrogen (N) management is cumbersome in cotton production systems; it has more impacts on yield, maturity, and lint quality of a cotton crop than other primary plant nutrient. Application and production of N fertilizers consume large amounts of energy, and excess application can cause environmental concerns, i.e., nitrate in ground water, and the production of nitrous oxide a highly potent greenhouse gas (GHG) to the atmosphere, which is a global concern. Therefore, improving nitrogen use efficiency (NUE) of cotton plant is critical in this context. Slow-release fertilizers (e.g., polymer-coated urea) have the potential to increase cotton yield and reduce environmental pollution due to more efficient use of nutrients. Limited literature is available on the mitigation of GHG emissions for cotton production. Therefore, this review focuses on the role of N fertilization, in cotton growth and GHG emission management strategies, and will assess, justify, and organize the researchable priorities. Nitrate and ammonium nitrogen are essential nutrients for successful crop production. Ammonia (NH 3 ) is a central intermediate in plant N metabolism. NH 3 is assimilated in cotton by the mediation of glutamine synthetase, glutamine (z-) oxoglutarate amino-transferase enzyme systems in two steps: the first step requires adenosine triphosphate (ATP) to add NH 3 to glutamate to form glutamine (Gln), and the second step transfers the NH 3 from glutamine (Gln) to α-ketoglutarate to form two glutamates. Once NH 3 has been incorporated into glutamate, it can be transferred to other carbon skeletons by various transaminases to form additional amino acids. The glutamate and glutamine formed can rapidly be used for the synthesis of low-molecular-weight organic N compounds (LMWONCs) such as amides, amino acids, ureides, amines, and peptides that are further synthesized into high-molecular-weight organic N compounds (HMWONCs) such as proteins and nucleic acids.
ISSN:0944-1344
1614-7499
DOI:10.1007/s11356-017-0131-y