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Bio-energy, water-use efficiency and economics of maize-wheat-mungbean system under precision-conservation agriculture in semi-arid agro-ecosystem

Author

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  • Parihar, C.M.
  • Jat, S.L.
  • Singh, A.K.
  • Majumdar, K.
  • Jat, M.L.
  • Saharawat, Y.S.
  • Pradhan, S.
  • Kuri, B.R.

Abstract

The maize-wheat-mungbean (MWMb) cropping system is being advocated as an alternative to the traditional rice-based cropping systems of north-western Indo-Gangetic Plains (IGP) to address the issues of energy and nutritional scarcity, residue burning, decline in biomass productivity and water tables. In semi-arid regions, the climate-change-induced variability in rainfall and temperature may have an impact on phenological responses of cereals and pulses which in turn would affect biomass production, economic yield and energy and water-use efficiency (WUE) of the crops. Henceforth, quantification of bioequivalent yields, energy requirement, economics and WUE of MWMb system is essentially required owing to have better understanding of this cropping system. Following a 4-year study was conducted under different tillage and nutrient management. ZT and PB plots had significantly higher pooled average (17.2–20.3%) biomass productivity, (34.4–39.8%) net returns and (49.8–66.2%) biomass water-use efficiency with lesser (8.5–16.1%) water-use than the CT plots. Significantly higher pooled bioenergetic yields (21.7–35.2%), net returns (31.4–37.8%) and biomass water-use efficiency (30.1–35.2%) was observed in SSNM/Ad-hoc plots compared with FFP plots. The total pooled energy input in ZT/PB and SSNM/Ad-hoc plots was significant (P < 0.05) higher than CT and FFP plots, respectively, with greater net energy output, energy productivity and energy efficiency. The interactions between tillage and nutrient management practices on pooled input energy and energy productivity of MWMb system was significant (P < 0.05). Thus, adoption of conservation tillage (ZT/PB) practices with improved nutrient management (SSNM/Ad-hoc) could be a viable option for achieving higher biomass productivity, water and energy-use efficiency and profitability in MWMb system.

Suggested Citation

  • Parihar, C.M. & Jat, S.L. & Singh, A.K. & Majumdar, K. & Jat, M.L. & Saharawat, Y.S. & Pradhan, S. & Kuri, B.R., 2017. "Bio-energy, water-use efficiency and economics of maize-wheat-mungbean system under precision-conservation agriculture in semi-arid agro-ecosystem," Energy, Elsevier, vol. 119(C), pages 245-256.
  • Handle: RePEc:eee:energy:v:119:y:2017:i:c:p:245-256
    DOI: 10.1016/j.energy.2016.12.068
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    1. Saad, A.A. & Das, T.K. & Rana, D.S. & Sharma, A.R. & Bhattacharyya, Ranjan & Lal, Krishan, 2016. "Energy auditing of a maize–wheat–greengram cropping system under conventional and conservation agriculture in irrigated north-western Indo-Gangetic Plains," Energy, Elsevier, vol. 116(P1), pages 293-305.
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    1. Vijay Pratap & Anchal Dass & Shiva Dhar & Subhash Babu & Vinod Kumar Singh & Raj Singh & Prameela Krishnan & Susama Sudhishri & Arti Bhatia & Sarvendra Kumar & Anil Kumar Choudhary & Renu Singh & Pram, 2022. "Co-Implementation of Tillage, Precision Nitrogen, and Water Management Enhances Water Productivity, Economic Returns, and Energy-Use Efficiency of Direct-Seeded Rice," Sustainability, MDPI, vol. 14(18), pages 1-20, September.
    2. Dutta, S. K & Laing, Alison M. & Kumar, S. & Gathala, Mahesh K. & Singh, Ajoy K. & Gaydon, D.S. & Poulton, P., 2020. "Improved water management practices improve cropping system profitability and smallholder farmers’ incomes," Agricultural Water Management, Elsevier, vol. 242(C).
    3. Bai, Attila & Gabnai, Zoltán & Kovách, Imre & Czibere, Ibolya & Nagy, János & Sulyok, Dénes & Maloku, Donika & Balogh, Péter, 2019. "Economic Analysis Of Some Agrotechnical Factors In Maize Production. A Hungarian Case Study," APSTRACT: Applied Studies in Agribusiness and Commerce, AGRIMBA, vol. 13(3-4), December.
    4. Parihar, C.M. & Jat, S.L. & Singh, A.K. & Ghosh, A. & Rathore, N.S. & Kumar, B. & Pradhan, S. & Majumdar, K. & Satyanarayana, T. & Jat, M.L. & Saharawat, Y.S. & Kuri, B.R. & Saveipune, D., 2017. "Effects of precision conservation agriculture in a maize-wheat-mungbean rotation on crop yield, water-use and radiation conversion under a semiarid agro-ecosystem," Agricultural Water Management, Elsevier, vol. 192(C), pages 306-319.
    5. Collins C. Okolie & Gideon Danso-Abbeam & Okechukwu Groupson-Paul & Abiodun A. Ogundeji, 2022. "Climate-Smart Agriculture Amidst Climate Change to Enhance Agricultural Production: A Bibliometric Analysis," Land, MDPI, vol. 12(1), pages 1-23, December.
    6. Parihar, C.M. & Jat, S.L. & Singh, A.K. & Kumar, B. & Rathore, N.S. & Jat, M.L. & Saharawat, Y.S. & Kuri, B.R., 2018. "Energy auditing of long-term conservation agriculture based irrigated intensive maize systems in semi-arid tropics of India," Energy, Elsevier, vol. 142(C), pages 289-302.
    7. Choudhary, Mukesh & Rana, K.S. & Bana, R.S. & Ghasal, P.C. & Choudhary, G.L. & Jakhar, Praveen & Verma, R.K., 2017. "Energy budgeting and carbon footprint of pearl millet – mustard cropping system under conventional and conservation agriculture in rainfed semi-arid agro-ecosystem," Energy, Elsevier, vol. 141(C), pages 1052-1058.
    8. Amit Anil Shahane & Yashbir Singh Shivay & Radha Prasanna & Dinesh Kumar & Ram Swaroop Bana, 2022. "Effect of Crop Establishment Methods and Microbial Inoculations on Augmenting the Energy Efficiency and Nutritional Status of Rice and Wheat in Cropping System Mode," Sustainability, MDPI, vol. 14(10), pages 1-25, May.
    9. Parihar, C.M. & Meena, B.R. & Nayak, Hari Sankar & Patra, K. & Sena, D.R. & Singh, Raj & Jat, S.L. & Sharma, D.K. & Mahala, D.M. & Patra, S. & Rupesh, & Rathi, N. & Choudhary, M. & Jat, M.L. & Abdalla, 2022. "Co-implementation of precision nutrient management in long-term conservation agriculture-based systems: A step towards sustainable energy-water-food nexus," Energy, Elsevier, vol. 254(PB).
    10. Wang, Hongzhang & Ren, Hao & Han, Kun & Li, Geng & Zhang, Lihua & Zhao, Yali & Liu, Yuee & He, Qijin & Zhang, Jiwang & Zhao, Bin & Ren, Baizhao & Liu, Peng, 2023. "Improving the net energy and energy utilization efficiency of maize production systems in the North China Plain," Energy, Elsevier, vol. 274(C).
    11. Kumar, Ashok & Singh, Dilip & Mahapatra, S.K., 2022. "Energy and carbon budgeting of the pearl millet-wheat cropping system for environmentally sustainable agricultural land use planning in the rainfed semi-arid agro-ecosystem of Aravalli foothills," Energy, Elsevier, vol. 246(C).
    12. Kakraliya, S.K. & Jat, H.S. & Singh, Ishwar & Sapkota, Tek B. & Singh, Love K. & Sutaliya, Jhabar M. & Sharma, Parbodh C. & Jat, R.D. & Choudhary, Meena & Lopez-Ridaura, Santiago & Jat, M.L., 2018. "Performance of portfolios of climate smart agriculture practices in a rice-wheat system of western Indo-Gangetic plains," Agricultural Water Management, Elsevier, vol. 202(C), pages 122-133.
    13. Wang, Donglin & Feng, Hao & Li, Yi & Zhang, Tibin & Dyck, Miles & Wu, Feng, 2019. "Energy input-output, water use efficiency and economics of winter wheat under gravel mulching in Northwest China," Agricultural Water Management, Elsevier, vol. 222(C), pages 354-366.
    14. Jat, H.S. & Jat, R.D. & Nanwal, R.K. & Lohan, Shiv Kumar & Yadav, A.K. & Poonia, Tanuja & Sharma, P.C. & Jat, M.L., 2020. "Energy use efficiency of crop residue management for sustainable energy and agriculture conservation in NW India," Renewable Energy, Elsevier, vol. 155(C), pages 1372-1382.
    15. Meena, Ram Swaroop & Pradhan, Gourisankar & Kumar, Sandeep & Lal, Rattan, 2023. "Using industrial wastes for rice-wheat cropping and food-energy-carbon-water-economic nexus to the sustainable food system," Renewable and Sustainable Energy Reviews, Elsevier, vol. 187(C).

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