**Author details**

Amanpreet Singh\* and Harmandeep Singh Chahal Department of Agriculture, Khalsa College Amritsar, Punjab

\*Address all correspondence to: nandgharia@gmail.com

© 2020 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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*Organic Grain Legumes in India: Potential Production Strategies, Perspective, and Relevance*

Mungbean (*Vigna radiata*) residue recycling and varietal diversification for enhanced system productivity and profitability in basmati rice (*Oryza sativa*)–wheat (*Triticum aestivum*)– mungbean cropping system. In: Proceedings of National Symposium on Crop Diversification for Sustainable Livelihood and Environmental Security, held during 18-20 November 2014 at PAU, Ludhiana. 2014. pp. 629-630

[9] Padhi AK. Effect of sowing date and planting geometry on a yield of red gram (*Cajanus cajan*) genotypes. Indian Journal of Agronomy. 1995;**40**(1):72-76

[10] Kumar R, Singh M, Waldia RS. Opportunities for extension in area and production of spring/summer mungbean (Vigna radiata) in Haryana (India). Improving income and nutrition by incorporating mungbean in cereal fallows in the indo-Gangetic Plains of South Asia, DFID Mungbean project for 2002-2004. In: Proceedings of Final Workshop and Planning Meeting, Punjab, 27-31 May 2004. Ludhiana, Punjab, India: Agricultural

University; 2006. pp. 236-245

[11] Gupta S, Bhowmick MK. Scope of growing Lathyrus and lentil in relay cropping systems after rice in West Bengal, India. Newsletter. 2005;**4**:28-33

[12] Shweta S, Malik M. Response of pulse production to phosphorus—A review. Agricultural Reviews.

[13] Malhothra RS. Achievements and current status of BNF research in Asia-Pacific. In: International Workshop on Biological Nitrogen Fixation for Increased Crop Productivity, Enhanced Human Health, and Sustained Soil Fertility, 10-14 June. Montpellier,

2014;**35**(4):295-298

France: INSA-INRA; 2002

[14] Kumaravelu G, Kadambian D. Panchagavya and its effect on the

*DOI: http://dx.doi.org/10.5772/intechopen.93077*

[1] Babu S, Singh R, Avasthe RK, Yadav GS. Strategies for enhancing the productivity of organic agriculture in the north eastern region of India. In: Souvenir and Conference Book of National Conference on Global Research Initiatives for Sustainable Agriculture and Allied Sciences, held at Gwalior, Madhya Pradesh, India, 12-13 December

[2] Avasthe RK, Singh R, Babu S. Organic legumes production in India: Perspectives and opportunities. Indian Journal of Agronomy. 2016;**61**(Special

[3] APEDA. Annual report of APEDA regarding legymes and pulses. 2019

Dass A, Bana RS, Rana KS, Rana DS, et al. Improved crop management practices for sustainable pulse production: An Indian perspective. Indian Journal of Agricultural

[4] Pooniya V, Choudhary AK,

Sciences. 2015;**85**(6):747-758

[5] Ali M. Consolidated Report on *Kharif* and *Rabi* Legumes, Agronomy 1997-1998, All India Pulse Improvement

Project. Kanpur, Uttar Pradesh: Directorate of Legumes Research; 1998

[6] Yadav A, Suri VK, Kumar A, Choudhary AK, Meena AL. Enhancing plant water relations, quality, and productivity of pea (*Pisum sativum* L.) through AM fungi, inorganic phosphorus, and irrigation regimes in a Himalayan acid Alfisol. Communications in Soil Science and Plant Analysis. 2015;**46**(1):80-93

[7] Sharma DP, Singh MP, Gupta SK, Sharma NL. The response of pigeon pea to short term water stagnation in a moderately sodic soil under field conditions. Journal of the Indian Society of Soil Science. 2005;**53**(2):243-248

[8] Pooniya V, Choudhary AK,

Sharma SN, Bana RS, Rana DS, Rana KS.

**References**

2015. pp. 55-58

issue):93-101

*Organic Grain Legumes in India: Potential Production Strategies, Perspective, and Relevance DOI: http://dx.doi.org/10.5772/intechopen.93077*
