A Research Road Map for Responsible Use of Agricultural Nitrogen

Michael Udvardi; Frederick E. Below; Michael J. Castellano; Alison J. Eagle; Ken E. Giller; Jagdish Kumar Ladha; Xuejun Liu; Tai Mc Clellan Maaz; Barbara Nova-Franco; Nandula Raghuram; G. Philip Robertson; Sonali Roy; Malay Saha; Susanne Schmidt; Mechthild Tegeder; Larry M. York; John W. Peters

doi:10.3389/fsufs.2021.660155

A Research Road Map for Responsible Use of Agricultural Nitrogen

Michael Udvardi
, Frederick E. Below
, Michael J. Castellano
, Alison J. Eagle
, Ken E. Giller
, Jagdish Kumar Ladha
, Xuejun Liu
, Tai Mc Clellan Maaz
, Barbara Nova-Franco
, Nandula Raghuram
, G. Philip Robertson
, Sonali Roy
, Malay Saha
, Susanne Schmidt
, Mechthild Tegeder
, Larry M. York
, John W. Peters

Research output: Contribution to journal › Review article › peer-review

73 Scopus citations

Abstract

Nitrogen (N) is an essential but generally limiting nutrient for biological systems. Development of the Haber-Bosch industrial process for ammonia synthesis helped to relieve N limitation of agricultural production, fueling the Green Revolution and reducing hunger. However, the massive use of industrial N fertilizer has doubled the N moving through the global N cycle with dramatic environmental consequences that threaten planetary health. Thus, there is an urgent need to reduce losses of reactive N from agriculture, while ensuring sufficient N inputs for food security. Here we review current knowledge related to N use efficiency (NUE) in agriculture and identify research opportunities in the areas of agronomy, plant breeding, biological N fixation (BNF), soil N cycling, and modeling to achieve responsible, sustainable use of N in agriculture. Amongst these opportunities, improved agricultural practices that synchronize crop N demand with soil N availability are low-hanging fruit. Crop breeding that targets root and shoot physiological processes will likely increase N uptake and utilization of soil N, while breeding for BNF effectiveness in legumes will enhance overall system NUE. Likewise, engineering of novel N-fixing symbioses in non-legumes could reduce the need for chemical fertilizers in agroecosystems but is a much longer-term goal. The use of simulation modeling to conceptualize the complex, interwoven processes that affect agroecosystem NUE, along with multi-objective optimization, will also accelerate NUE gains.

Original language	English
Article number	660155
Journal	Frontiers in Sustainable Food Systems
Volume	5
DOIs	https://doi.org/10.3389/fsufs.2021.660155
State	Published - May 31 2021
Externally published	Yes

Funding

This work was primarily supported by the NSF Research Coordination Network, PlaNNet, grant awarded to MU and JP (grant # IOS-1444832). Additional support for individual authors includes grants from the US National Science Foundation (grant # IOS-1457183 to MT, # 1832042 to GR), and the Figure 1 was created with BioRender.com. Funding. This work was primarily supported by the NSF Research Coordination Network, PlaNNet, grant awarded to MU and JP (grant # IOS-1444832). Additional support for individual authors includes grants from the US National Science Foundation (grant # IOS-1457183 to MT, # 1832042 to GR), and the US Department of Agriculture/National Institute of Food and Agriculture (NIFA; Grant no. 2017-67013-26158 to MT and grant no. 2017-67007-25948 to LY).

Keywords

agronomy
biological nitrogen fixation
breeding
microbiome
nitrogen use efficiency
policy
roots
soil health

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10.3389/fsufs.2021.660155

Cite this

Udvardi, M., Below, F. E., Castellano, M. J., Eagle, A. J., Giller, K. E., Ladha, J. K., Liu, X., Maaz, T. M. C., Nova-Franco, B., Raghuram, N., Robertson, G. P., Roy, S., Saha, M., Schmidt, S., Tegeder, M., York, L. M., & Peters, J. W. (2021). A Research Road Map for Responsible Use of Agricultural Nitrogen. Frontiers in Sustainable Food Systems, 5, Article 660155. https://doi.org/10.3389/fsufs.2021.660155

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title = "A Research Road Map for Responsible Use of Agricultural Nitrogen",

abstract = "Nitrogen (N) is an essential but generally limiting nutrient for biological systems. Development of the Haber-Bosch industrial process for ammonia synthesis helped to relieve N limitation of agricultural production, fueling the Green Revolution and reducing hunger. However, the massive use of industrial N fertilizer has doubled the N moving through the global N cycle with dramatic environmental consequences that threaten planetary health. Thus, there is an urgent need to reduce losses of reactive N from agriculture, while ensuring sufficient N inputs for food security. Here we review current knowledge related to N use efficiency (NUE) in agriculture and identify research opportunities in the areas of agronomy, plant breeding, biological N fixation (BNF), soil N cycling, and modeling to achieve responsible, sustainable use of N in agriculture. Amongst these opportunities, improved agricultural practices that synchronize crop N demand with soil N availability are low-hanging fruit. Crop breeding that targets root and shoot physiological processes will likely increase N uptake and utilization of soil N, while breeding for BNF effectiveness in legumes will enhance overall system NUE. Likewise, engineering of novel N-fixing symbioses in non-legumes could reduce the need for chemical fertilizers in agroecosystems but is a much longer-term goal. The use of simulation modeling to conceptualize the complex, interwoven processes that affect agroecosystem NUE, along with multi-objective optimization, will also accelerate NUE gains.",

keywords = "agronomy, biological nitrogen fixation, breeding, microbiome, nitrogen use efficiency, policy, roots, soil health",

author = "Michael Udvardi and Below, \{Frederick E.\} and Castellano, \{Michael J.\} and Eagle, \{Alison J.\} and Giller, \{Ken E.\} and Ladha, \{Jagdish Kumar\} and Xuejun Liu and Maaz, \{Tai Mc Clellan\} and Barbara Nova-Franco and Nandula Raghuram and Robertson, \{G. Philip\} and Sonali Roy and Malay Saha and Susanne Schmidt and Mechthild Tegeder and York, \{Larry M.\} and Peters, \{John W.\}",

note = "Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2021 Udvardi, Below, Castellano, Eagle, Giller, Ladha, Liu, Maaz, Nova-Franco, Raghuram, Robertson, Roy, Saha, Schmidt, Tegeder, York and Peters.",

year = "2021",

month = may,

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doi = "10.3389/fsufs.2021.660155",

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T1 - A Research Road Map for Responsible Use of Agricultural Nitrogen

AU - Udvardi, Michael

AU - Below, Frederick E.

AU - Castellano, Michael J.

AU - Eagle, Alison J.

AU - Giller, Ken E.

AU - Ladha, Jagdish Kumar

AU - Liu, Xuejun

AU - Maaz, Tai Mc Clellan

AU - Nova-Franco, Barbara

AU - Raghuram, Nandula

AU - Robertson, G. Philip

AU - Roy, Sonali

AU - Saha, Malay

AU - Schmidt, Susanne

AU - Tegeder, Mechthild

AU - York, Larry M.

AU - Peters, John W.

PY - 2021/5/31

Y1 - 2021/5/31

N2 - Nitrogen (N) is an essential but generally limiting nutrient for biological systems. Development of the Haber-Bosch industrial process for ammonia synthesis helped to relieve N limitation of agricultural production, fueling the Green Revolution and reducing hunger. However, the massive use of industrial N fertilizer has doubled the N moving through the global N cycle with dramatic environmental consequences that threaten planetary health. Thus, there is an urgent need to reduce losses of reactive N from agriculture, while ensuring sufficient N inputs for food security. Here we review current knowledge related to N use efficiency (NUE) in agriculture and identify research opportunities in the areas of agronomy, plant breeding, biological N fixation (BNF), soil N cycling, and modeling to achieve responsible, sustainable use of N in agriculture. Amongst these opportunities, improved agricultural practices that synchronize crop N demand with soil N availability are low-hanging fruit. Crop breeding that targets root and shoot physiological processes will likely increase N uptake and utilization of soil N, while breeding for BNF effectiveness in legumes will enhance overall system NUE. Likewise, engineering of novel N-fixing symbioses in non-legumes could reduce the need for chemical fertilizers in agroecosystems but is a much longer-term goal. The use of simulation modeling to conceptualize the complex, interwoven processes that affect agroecosystem NUE, along with multi-objective optimization, will also accelerate NUE gains.

AB - Nitrogen (N) is an essential but generally limiting nutrient for biological systems. Development of the Haber-Bosch industrial process for ammonia synthesis helped to relieve N limitation of agricultural production, fueling the Green Revolution and reducing hunger. However, the massive use of industrial N fertilizer has doubled the N moving through the global N cycle with dramatic environmental consequences that threaten planetary health. Thus, there is an urgent need to reduce losses of reactive N from agriculture, while ensuring sufficient N inputs for food security. Here we review current knowledge related to N use efficiency (NUE) in agriculture and identify research opportunities in the areas of agronomy, plant breeding, biological N fixation (BNF), soil N cycling, and modeling to achieve responsible, sustainable use of N in agriculture. Amongst these opportunities, improved agricultural practices that synchronize crop N demand with soil N availability are low-hanging fruit. Crop breeding that targets root and shoot physiological processes will likely increase N uptake and utilization of soil N, while breeding for BNF effectiveness in legumes will enhance overall system NUE. Likewise, engineering of novel N-fixing symbioses in non-legumes could reduce the need for chemical fertilizers in agroecosystems but is a much longer-term goal. The use of simulation modeling to conceptualize the complex, interwoven processes that affect agroecosystem NUE, along with multi-objective optimization, will also accelerate NUE gains.

KW - agronomy

KW - biological nitrogen fixation

KW - breeding

KW - microbiome

KW - nitrogen use efficiency

KW - policy

KW - roots

KW - soil health

UR - https://www.scopus.com/pages/publications/85107732058

U2 - 10.3389/fsufs.2021.660155

DO - 10.3389/fsufs.2021.660155

M3 - Review article

AN - SCOPUS:85107732058

SN - 2571-581X

VL - 5

JO - Frontiers in Sustainable Food Systems

JF - Frontiers in Sustainable Food Systems

M1 - 660155

ER -

A Research Road Map for Responsible Use of Agricultural Nitrogen

Abstract

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