Biological nitrogen fixation and prospects for ecological intensification in cereal-based cropping systems

Biological nitrogen fixation and prospects for ecological intensification in cereal-based cropping systems

The demand for nitrogen (N) for crop production increased rapidly from the middle of the twentieth century and is predicted to at least double by 2050 to satisfy the on-going improvements in productivity of major food crops such as wheat, rice and maize that underpin the staple diet of most of the world's population. The increased demand will need to be fulfilled by the two main sources of N supply – biological nitrogen (gas) (N2) fixation (BNF) and fertilizer N supplied through the Haber-Bosch processes. BNF provides many functional benefits for agroecosystems. It is a vital mechanism for replenishing the reservoirs of soil organic N and improving the availability of soil N to support crop growth while also assisting in efforts to lower negative environmental externalities than fertilizer N. In cereal-based cropping systems, legumes in symbiosis with rhizobia contribute the largest BNF input; however, diazotrophs involved in non-symbiotic associations with plants or present as free-living N2-fixers are ubiquitous and also provide an additional source of fixed N. This review presents the current knowledge of BNF by free-living, non-symbiotic and symbiotic diazotrophs in the global N cycle, examines global and regional estimates of contributions of BNF, and discusses possible strategies to enhance BNF for the prospective benefit of cereal N nutrition. We conclude by considering the challenges of introducing in planta BNF into cereals and reflect on the potential for BNF in both conventional and alternative crop management systems to encourage the ecological intensification of cereal and legume production.

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Main Authors: Ladha, J.K., Peoples, M.B., Reddy, P.M., Biswas, J.C., Bennett, A., Jat, M.L., Krupnik, T.J.
Format: Article biblioteca
Language:English
Published: Elsevier 2022
Subjects:AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, Symbiotic Nitrogen Fixation, Non-Symbiotic Nitrogen Fixation, Diazotrophs, Crop Nitrogen Nutrition, CEREALS, CROP PRODUCTION, FERTILIZER APPLICATION, GROWTH RATE, LEGUMES, NITROGEN CYCLE, NITROGEN FIXATION, NITROGEN FIXING BACTERIA,
Online Access:https://hdl.handle.net/10883/22062
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spelling dig-cimmyt-10883-220622024-01-24T15:34:38Z Biological nitrogen fixation and prospects for ecological intensification in cereal-based cropping systems Ladha, J.K. Peoples, M.B. Reddy, P.M. Biswas, J.C. Bennett, A. Jat, M.L. Krupnik, T.J. AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Symbiotic Nitrogen Fixation Non-Symbiotic Nitrogen Fixation Diazotrophs Crop Nitrogen Nutrition CEREALS CROP PRODUCTION FERTILIZER APPLICATION GROWTH RATE LEGUMES NITROGEN CYCLE NITROGEN FIXATION NITROGEN FIXING BACTERIA The demand for nitrogen (N) for crop production increased rapidly from the middle of the twentieth century and is predicted to at least double by 2050 to satisfy the on-going improvements in productivity of major food crops such as wheat, rice and maize that underpin the staple diet of most of the world's population. The increased demand will need to be fulfilled by the two main sources of N supply – biological nitrogen (gas) (N2) fixation (BNF) and fertilizer N supplied through the Haber-Bosch processes. BNF provides many functional benefits for agroecosystems. It is a vital mechanism for replenishing the reservoirs of soil organic N and improving the availability of soil N to support crop growth while also assisting in efforts to lower negative environmental externalities than fertilizer N. In cereal-based cropping systems, legumes in symbiosis with rhizobia contribute the largest BNF input; however, diazotrophs involved in non-symbiotic associations with plants or present as free-living N2-fixers are ubiquitous and also provide an additional source of fixed N. This review presents the current knowledge of BNF by free-living, non-symbiotic and symbiotic diazotrophs in the global N cycle, examines global and regional estimates of contributions of BNF, and discusses possible strategies to enhance BNF for the prospective benefit of cereal N nutrition. We conclude by considering the challenges of introducing in planta BNF into cereals and reflect on the potential for BNF in both conventional and alternative crop management systems to encourage the ecological intensification of cereal and legume production. 2022-05-05T00:25:19Z 2022-05-05T00:25:19Z 2022 Article Published Version https://hdl.handle.net/10883/22062 10.1016/j.fcr.2022.108541 English https://www.sciencedirect.com/science/article/pii/S0378429022001125?via%3Dihub#sec0145 Nutrition, health & food security Transforming Agrifood Systems in South Asia Resilient Agrifood Systems United States Agency for International Development (USAID) Bill & Melinda Gates Foundation (BMGF) https://hdl.handle.net/10568/126447 CIMMYT manages Intellectual Assets as International Public Goods. The user is free to download, print, store and share this work. In case you want to translate or create any other derivative work and share or distribute such translation/derivative work, please contact CIMMYT-Knowledge-Center@cgiar.org indicating the work you want to use and the kind of use you intend; CIMMYT will contact you with the suitable license for that purpose Open Access Amsterdam (Netherlands) Elsevier 283 0378-4290 Field Crops Research 108541
institution CIMMYT
collection DSpace
country México
countrycode MX
component Bibliográfico
access En linea
databasecode dig-cimmyt
tag biblioteca
region America del Norte
libraryname CIMMYT Library
language English
topic AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Symbiotic Nitrogen Fixation
Non-Symbiotic Nitrogen Fixation
Diazotrophs
Crop Nitrogen Nutrition
CEREALS
CROP PRODUCTION
FERTILIZER APPLICATION
GROWTH RATE
LEGUMES
NITROGEN CYCLE
NITROGEN FIXATION
NITROGEN FIXING BACTERIA
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Symbiotic Nitrogen Fixation
Non-Symbiotic Nitrogen Fixation
Diazotrophs
Crop Nitrogen Nutrition
CEREALS
CROP PRODUCTION
FERTILIZER APPLICATION
GROWTH RATE
LEGUMES
NITROGEN CYCLE
NITROGEN FIXATION
NITROGEN FIXING BACTERIA
spellingShingle AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Symbiotic Nitrogen Fixation
Non-Symbiotic Nitrogen Fixation
Diazotrophs
Crop Nitrogen Nutrition
CEREALS
CROP PRODUCTION
FERTILIZER APPLICATION
GROWTH RATE
LEGUMES
NITROGEN CYCLE
NITROGEN FIXATION
NITROGEN FIXING BACTERIA
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Symbiotic Nitrogen Fixation
Non-Symbiotic Nitrogen Fixation
Diazotrophs
Crop Nitrogen Nutrition
CEREALS
CROP PRODUCTION
FERTILIZER APPLICATION
GROWTH RATE
LEGUMES
NITROGEN CYCLE
NITROGEN FIXATION
NITROGEN FIXING BACTERIA
Ladha, J.K.
Peoples, M.B.
Reddy, P.M.
Biswas, J.C.
Bennett, A.
Jat, M.L.
Krupnik, T.J.
Biological nitrogen fixation and prospects for ecological intensification in cereal-based cropping systems
description The demand for nitrogen (N) for crop production increased rapidly from the middle of the twentieth century and is predicted to at least double by 2050 to satisfy the on-going improvements in productivity of major food crops such as wheat, rice and maize that underpin the staple diet of most of the world's population. The increased demand will need to be fulfilled by the two main sources of N supply – biological nitrogen (gas) (N2) fixation (BNF) and fertilizer N supplied through the Haber-Bosch processes. BNF provides many functional benefits for agroecosystems. It is a vital mechanism for replenishing the reservoirs of soil organic N and improving the availability of soil N to support crop growth while also assisting in efforts to lower negative environmental externalities than fertilizer N. In cereal-based cropping systems, legumes in symbiosis with rhizobia contribute the largest BNF input; however, diazotrophs involved in non-symbiotic associations with plants or present as free-living N2-fixers are ubiquitous and also provide an additional source of fixed N. This review presents the current knowledge of BNF by free-living, non-symbiotic and symbiotic diazotrophs in the global N cycle, examines global and regional estimates of contributions of BNF, and discusses possible strategies to enhance BNF for the prospective benefit of cereal N nutrition. We conclude by considering the challenges of introducing in planta BNF into cereals and reflect on the potential for BNF in both conventional and alternative crop management systems to encourage the ecological intensification of cereal and legume production.
format Article
topic_facet AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Symbiotic Nitrogen Fixation
Non-Symbiotic Nitrogen Fixation
Diazotrophs
Crop Nitrogen Nutrition
CEREALS
CROP PRODUCTION
FERTILIZER APPLICATION
GROWTH RATE
LEGUMES
NITROGEN CYCLE
NITROGEN FIXATION
NITROGEN FIXING BACTERIA
author Ladha, J.K.
Peoples, M.B.
Reddy, P.M.
Biswas, J.C.
Bennett, A.
Jat, M.L.
Krupnik, T.J.
author_facet Ladha, J.K.
Peoples, M.B.
Reddy, P.M.
Biswas, J.C.
Bennett, A.
Jat, M.L.
Krupnik, T.J.
author_sort Ladha, J.K.
title Biological nitrogen fixation and prospects for ecological intensification in cereal-based cropping systems
title_short Biological nitrogen fixation and prospects for ecological intensification in cereal-based cropping systems
title_full Biological nitrogen fixation and prospects for ecological intensification in cereal-based cropping systems
title_fullStr Biological nitrogen fixation and prospects for ecological intensification in cereal-based cropping systems
title_full_unstemmed Biological nitrogen fixation and prospects for ecological intensification in cereal-based cropping systems
title_sort biological nitrogen fixation and prospects for ecological intensification in cereal-based cropping systems
publisher Elsevier
publishDate 2022
url https://hdl.handle.net/10883/22062
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AT bennetta biologicalnitrogenfixationandprospectsforecologicalintensificationincerealbasedcroppingsystems
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