Scalable diversification options delivers sustainable and nutritious food in Indo-Gangetic plains

Scalable diversification options delivers sustainable and nutritious food in Indo-Gangetic plains

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Indo-Gangetic plains (IGP) of South Asia have supported bulk of human and bovine population in the region since ages, and a spectacular progress has been made in food production. However, malnutrition, diminishing total factor productivity, and natural resource degradation continue to plague this cereal-dominated region, which is also vulnerable to climate change. Addressing these challenges would require a transition towards diversifying cereal rotations with agroecological cropping systems. A study was, therefore, conducted at the experimental farm of ICAR-CSSRI, Karnal on crop diversification and sustainable intensification options using agro-ecological approaches such as Conservation Agriculture (CA) and diversified cropping systems to ensure food and nutritional security while sustaining the natural resources. On 2 years mean basis, CA-based cropping system management scenarios (mean of Sc2–Sc7) using diversified crop rotations; increased the system yield by 15.4%, net return by 28.7%, protein yield by 29.7%, while using 53.0% less irrigation water compared to conventional tillage (CT)-based rice–wheat system (Sc1). Maize-mustard-mungbean on permanent beds (PBs) (Sc4) recorded the highest productivity (+ 40.7%), profitability (+ 60.1%), and saved 81.8% irrigation water compared to Sc1 (11.8 Mg ha−1; 2190 USD ha−1; 2514 mm ha−1). Similarly, Sc5 (maize-wheat-mungbean on PBs) improved productivity (+ 32.2%), profitability (+ 57.4%) and saved irrigation water (75.5%) compared to Sc1. In terms of nutritional value, Sc5 was more balanced than other scenarios, and produced 43.8, 27.5 and 259.8% higher protein, carbohydrate and fat yields, respectively, compared to Sc1 (0.93, 8.55 and 0.14 Mg ha−1). Scenario 5 was able to meet the nutrient demand of 19, 23 and 32 additional persons ha−1 year−1 with respect to protein, carbohydrate and fat, respectively, compared to Sc1. The highest protein water productivity (~ 0.31 kg protein m−3 water) was recorded with CA-based soybean-wheat-mungbean (Sc6) system followed by maize-mustard-mungbean on PBs (Sc4) system (~ 0.29 kg protein m−3) and lowest under Sc1. Integration of short duration legume (mungbean) improved the system productivity by 17.2% and profitability by 32.1%, while triple gains in irrigation water productivity compared to CT-based systems. In western IGP, maize-wheat-mungbean on PBs was found most productive, profitable and nutritionally rich and efficient system compared to other systems. Therefore, diversification of water intensive cereal rotations with inclusion of legumes and CA-based management optimization can be potential option to ensure nutritious food for the dwelling communities and sustainability of natural resources in the region.

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Main Authors: Gora, M.K., Satish Kumar, Jat, H.S., Kakraliya Suresh Kumar, Choudhary, M., Dhaka, A.K., Jat, R.D., Kakraliya, M., Sharma, P.C., Jat, M.L.
Format: Article biblioteca
Language:English
Published: Nature Publishing Group 2022
Subjects:AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, Natural Resources Degradation, Cereal Rotations, Diversified Cropping Systems, Nutritional Security, CLIMATE CHANGE, ENVIRONMENTAL IMPACT, PLANT ECOLOGY, CONSERVATION AGRICULTURE, Sustainable Intensification,
Online Access:https://hdl.handle.net/10883/22407
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id dig-cimmyt-10883-22407
record_format koha
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
Natural Resources Degradation
Cereal Rotations
Diversified Cropping Systems
Nutritional Security
CLIMATE CHANGE
ENVIRONMENTAL IMPACT
PLANT ECOLOGY
CONSERVATION AGRICULTURE
Sustainable Intensification
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Natural Resources Degradation
Cereal Rotations
Diversified Cropping Systems
Nutritional Security
CLIMATE CHANGE
ENVIRONMENTAL IMPACT
PLANT ECOLOGY
CONSERVATION AGRICULTURE
Sustainable Intensification
spellingShingle AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Natural Resources Degradation
Cereal Rotations
Diversified Cropping Systems
Nutritional Security
CLIMATE CHANGE
ENVIRONMENTAL IMPACT
PLANT ECOLOGY
CONSERVATION AGRICULTURE
Sustainable Intensification
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Natural Resources Degradation
Cereal Rotations
Diversified Cropping Systems
Nutritional Security
CLIMATE CHANGE
ENVIRONMENTAL IMPACT
PLANT ECOLOGY
CONSERVATION AGRICULTURE
Sustainable Intensification
Gora, M.K.
Satish Kumar
Jat, H.S.
Kakraliya Suresh Kumar
Choudhary, M.
Dhaka, A.K.
Jat, R.D.
Kakraliya, M.
Sharma, P.C.
Jat, M.L.
Scalable diversification options delivers sustainable and nutritious food in Indo-Gangetic plains
description Indo-Gangetic plains (IGP) of South Asia have supported bulk of human and bovine population in the region since ages, and a spectacular progress has been made in food production. However, malnutrition, diminishing total factor productivity, and natural resource degradation continue to plague this cereal-dominated region, which is also vulnerable to climate change. Addressing these challenges would require a transition towards diversifying cereal rotations with agroecological cropping systems. A study was, therefore, conducted at the experimental farm of ICAR-CSSRI, Karnal on crop diversification and sustainable intensification options using agro-ecological approaches such as Conservation Agriculture (CA) and diversified cropping systems to ensure food and nutritional security while sustaining the natural resources. On 2 years mean basis, CA-based cropping system management scenarios (mean of Sc2–Sc7) using diversified crop rotations; increased the system yield by 15.4%, net return by 28.7%, protein yield by 29.7%, while using 53.0% less irrigation water compared to conventional tillage (CT)-based rice–wheat system (Sc1). Maize-mustard-mungbean on permanent beds (PBs) (Sc4) recorded the highest productivity (+ 40.7%), profitability (+ 60.1%), and saved 81.8% irrigation water compared to Sc1 (11.8 Mg ha−1; 2190 USD ha−1; 2514 mm ha−1). Similarly, Sc5 (maize-wheat-mungbean on PBs) improved productivity (+ 32.2%), profitability (+ 57.4%) and saved irrigation water (75.5%) compared to Sc1. In terms of nutritional value, Sc5 was more balanced than other scenarios, and produced 43.8, 27.5 and 259.8% higher protein, carbohydrate and fat yields, respectively, compared to Sc1 (0.93, 8.55 and 0.14 Mg ha−1). Scenario 5 was able to meet the nutrient demand of 19, 23 and 32 additional persons ha−1 year−1 with respect to protein, carbohydrate and fat, respectively, compared to Sc1. The highest protein water productivity (~ 0.31 kg protein m−3 water) was recorded with CA-based soybean-wheat-mungbean (Sc6) system followed by maize-mustard-mungbean on PBs (Sc4) system (~ 0.29 kg protein m−3) and lowest under Sc1. Integration of short duration legume (mungbean) improved the system productivity by 17.2% and profitability by 32.1%, while triple gains in irrigation water productivity compared to CT-based systems. In western IGP, maize-wheat-mungbean on PBs was found most productive, profitable and nutritionally rich and efficient system compared to other systems. Therefore, diversification of water intensive cereal rotations with inclusion of legumes and CA-based management optimization can be potential option to ensure nutritious food for the dwelling communities and sustainability of natural resources in the region.
format Article
topic_facet AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Natural Resources Degradation
Cereal Rotations
Diversified Cropping Systems
Nutritional Security
CLIMATE CHANGE
ENVIRONMENTAL IMPACT
PLANT ECOLOGY
CONSERVATION AGRICULTURE
Sustainable Intensification
author Gora, M.K.
Satish Kumar
Jat, H.S.
Kakraliya Suresh Kumar
Choudhary, M.
Dhaka, A.K.
Jat, R.D.
Kakraliya, M.
Sharma, P.C.
Jat, M.L.
author_facet Gora, M.K.
Satish Kumar
Jat, H.S.
Kakraliya Suresh Kumar
Choudhary, M.
Dhaka, A.K.
Jat, R.D.
Kakraliya, M.
Sharma, P.C.
Jat, M.L.
author_sort Gora, M.K.
title Scalable diversification options delivers sustainable and nutritious food in Indo-Gangetic plains
title_short Scalable diversification options delivers sustainable and nutritious food in Indo-Gangetic plains
title_full Scalable diversification options delivers sustainable and nutritious food in Indo-Gangetic plains
title_fullStr Scalable diversification options delivers sustainable and nutritious food in Indo-Gangetic plains
title_full_unstemmed Scalable diversification options delivers sustainable and nutritious food in Indo-Gangetic plains
title_sort scalable diversification options delivers sustainable and nutritious food in indo-gangetic plains
publisher Nature Publishing Group
publishDate 2022
url https://hdl.handle.net/10883/22407
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spelling dig-cimmyt-10883-224072024-01-26T20:50:42Z Scalable diversification options delivers sustainable and nutritious food in Indo-Gangetic plains Gora, M.K. Satish Kumar Jat, H.S. Kakraliya Suresh Kumar Choudhary, M. Dhaka, A.K. Jat, R.D. Kakraliya, M. Sharma, P.C. Jat, M.L. AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Natural Resources Degradation Cereal Rotations Diversified Cropping Systems Nutritional Security CLIMATE CHANGE ENVIRONMENTAL IMPACT PLANT ECOLOGY CONSERVATION AGRICULTURE Sustainable Intensification Indo-Gangetic plains (IGP) of South Asia have supported bulk of human and bovine population in the region since ages, and a spectacular progress has been made in food production. However, malnutrition, diminishing total factor productivity, and natural resource degradation continue to plague this cereal-dominated region, which is also vulnerable to climate change. Addressing these challenges would require a transition towards diversifying cereal rotations with agroecological cropping systems. A study was, therefore, conducted at the experimental farm of ICAR-CSSRI, Karnal on crop diversification and sustainable intensification options using agro-ecological approaches such as Conservation Agriculture (CA) and diversified cropping systems to ensure food and nutritional security while sustaining the natural resources. On 2 years mean basis, CA-based cropping system management scenarios (mean of Sc2–Sc7) using diversified crop rotations; increased the system yield by 15.4%, net return by 28.7%, protein yield by 29.7%, while using 53.0% less irrigation water compared to conventional tillage (CT)-based rice–wheat system (Sc1). Maize-mustard-mungbean on permanent beds (PBs) (Sc4) recorded the highest productivity (+ 40.7%), profitability (+ 60.1%), and saved 81.8% irrigation water compared to Sc1 (11.8 Mg ha−1; 2190 USD ha−1; 2514 mm ha−1). Similarly, Sc5 (maize-wheat-mungbean on PBs) improved productivity (+ 32.2%), profitability (+ 57.4%) and saved irrigation water (75.5%) compared to Sc1. In terms of nutritional value, Sc5 was more balanced than other scenarios, and produced 43.8, 27.5 and 259.8% higher protein, carbohydrate and fat yields, respectively, compared to Sc1 (0.93, 8.55 and 0.14 Mg ha−1). Scenario 5 was able to meet the nutrient demand of 19, 23 and 32 additional persons ha−1 year−1 with respect to protein, carbohydrate and fat, respectively, compared to Sc1. The highest protein water productivity (~ 0.31 kg protein m−3 water) was recorded with CA-based soybean-wheat-mungbean (Sc6) system followed by maize-mustard-mungbean on PBs (Sc4) system (~ 0.29 kg protein m−3) and lowest under Sc1. Integration of short duration legume (mungbean) improved the system productivity by 17.2% and profitability by 32.1%, while triple gains in irrigation water productivity compared to CT-based systems. In western IGP, maize-wheat-mungbean on PBs was found most productive, profitable and nutritionally rich and efficient system compared to other systems. Therefore, diversification of water intensive cereal rotations with inclusion of legumes and CA-based management optimization can be potential option to ensure nutritious food for the dwelling communities and sustainability of natural resources in the region. 2023-01-14T01:25:13Z 2023-01-14T01:25:13Z 2022 Article Published Version https://hdl.handle.net/10883/22407 10.1038/s41598-022-18156-1 English https://www.nature.com/articles/s41598-022-18156-1#Sec33 Nutrition, health & food security Transforming Agrifood Systems in South Asia Resilient Agrifood Systems CGIAR Research Program on Wheat Indian Council of Agricultural Research (ICAR) https://hdl.handle.net/10568/127492 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 London (United Kingdom) Nature Publishing Group 12 2045-2322 Scientific Reports 14371

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