Technology gap, constraint analysis and improved production technologies for yield enhancement of barley (Hordeum vulgare) and chickpea (Cicer arietinum) under arid conditions of Rajasthan

RAJ SINGH; ATUL DOGRA; ASHUTOSH SARKER; ANURAG SAXENA; BHAGWAN SINGH

doi:10.56093/ijas.v88i2.79207

Authors

RAJ SINGH Principal Scientist, Division of Agronomy, Indian Agricultural Research Institute, New Delhi
ATUL DOGRA Socio-economist, South Asia and China Regional Program, ICARDA, New Delhi
ASHUTOSH SARKER Regional Coordinator and Food Legume Breeder, South Asia and China Regional Program, ICARDA, New Delhi
ANURAG SAXENA Principal Scientist, Division of Integrated Land Use Management and Farming Systems, South Asia and China Regional Program, ICARDA, New Delhi
BHAGWAN SINGH Principal Scientist, Division of Transfer of Technology, Training and Production Economics, Central Arid Zone Research Institute (CAZRI), Jodhpur 342 003

https://doi.org/10.56093/ijas.v88i2.79207

Keywords:

Arid region, Barley, Chickpea, Improved production technology, Low yield, Traditional cultivation practices

Abstract

Agriculture is the mainstay of livelihood in arid region of Rajasthan and improvement in the agricultural productivity is one of the most important strategies to reduce poverty, ensuring food and livelihood security in the region. Moreover, the region is highly prone to recurrent drought owing to its harsh and frequent climatic aberrations which limit the scope of sustainable crop production and encourage the degradation of natural resources. Therefore, majority of farming community is engaged in subsistence farming due lack of adequate resources and because of poor and instable crop production, socio-economic status of the farmers is very poor. This has necessitated improvement in agricultural production by imposing improved production technologies. Barley (Hordeum vulgare L.) and chickpea (Cicer arietinum L.) are the most important food grain crops grown during rainy season under conserved moisture or limited irrigation condition of the region, but average productivity of both the crops is very low. In addition to unfavourable climatic conditions, use of traditional practices is also important factor responsible for low yield. The present study was therefore conducted in five villages of three districts of arid region of Rajasthan during 2013-14 and 2014-15 to understand socio-economic profile of the farmers and also to study the effect of improved production technologies on the yield and economics of barley and chickpea. The results revealed that majority of the respondents (37.93%) had middle level of education and 55.17% of total respondents belong to medium farm size category. None of the respondents has used improved production technologies as per the recommendations for the cultivation of barley and chickpea crops, indicating 100% adoption gap. Further, all the respondents (100%) viewed low price of crop produce as major constraint followed by lack of marketing facility (96.55%), non-availability of improved seed (89.65%), high cost of cultivation (81.03%) and lack of effective extension agencies (81.03%). The grain yield of barley and chickpea showed remarkable improvement due to adoption of improved production technologies. Increase in the grain yield of barley and chickpea recorded as 19.37 to 24.83% and 28.63 to 38.07% respectively, over farmer’s practice. Increase in net return was obtained up to 43.78% due to improved production technologies of barley and 50.11% in chickpea. However, socio-economic status and livelihood of the farmers can be improved due to the adoption of improved production technologies of crops in arid region of Rajasthan.

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References

Anonymous. 2007. Vision 2025: Perspective Plan. CAZRI, Jodhpur, p 94.

Chouhan Nikulsinh M. 2012. Impact and yield gap analysis of trainings and FLD's regarding scientific practices of chickpea (Cicer arietinum). International Journal of Extension Education 8: 44–7.

Dhaka S R. 2015. On farm assessment of performance of barley (Hordeum vulgare L.) varieties in semi-arid region under arid agro-ecosystem of Rajasthan. International Journal of Agricultural Sciences 11(1): 207–9. DOI: https://doi.org/10.15740/HAS/IJAS/11.1/207-209

Directorate of Agriculture. 2015. Final estimate of area and production of rabi crops, 2014-15. Directorate of Agriculture, Government of Rajasthan.

Feder G, Just R E and Zilberman D. 1985. Adoption of agricultural innovations in developing countries: A survey. Economic Development and Cultural Change 33(2): 255–98. DOI: https://doi.org/10.1086/451461

Faroda A S, Joshi N L, Singh R and Saxena A. 2007. Resource management for sustainable crop production in arid zone- a review. Indian Journal of Agronomy 52(3): 181–93.

Ghosh S, Singh R, Kundu D K and Kannan K. 2005. Canal irrigation command area of Orissa: a comparative situational analysis. Indian Journal of Extension Education 41(3&4): 45–8.

Khan M A and Singh Raj. 2005. Effect of cultivars, nutrient management and mulching on the production potentiality of chickpea under water harvesting condition of arid zone. Journal of Arid Legumes 2(1): 10–4.

Kumar P and Sindhu M. 2014. Globalization of agricultural marketing and its aspects in relation to rural India. International Journal of Emerging Research in Management and Technology 3(12): 1–6.

Kumar R. 2013. Boosting barley (Hordium vulgare, L.) production through crop technology demonstration in transitional plain of inland drainage zone of Rajasthan (India). International Journal of Agricultural Sciences 3(9): 26–8.

Manjunatha A V, Anik Asif Reza, Speelman S and Nuppenau E A. 2013. Impact of land fragmentation, farm size, land ownership and crop diversity on profit and efficiency of irrigated farms in India. Land Use Policy 31: 397–405. DOI: https://doi.org/10.1016/j.landusepol.2012.08.005

Poonia T C and Pithia M S . 2011. Impact of frontline demonstrations of chickpea in Gujarat. Legume Research 34(4): 304–7.

Rai H K, Mughal A H, Sharma V K, Singhal S K and Panday M. 2012. Front line demonstration trial of barley cv. Nurboo on farmers’ field in cold arid Kargil region of J&K. Indian Research Journal of Extension Education 12(2): 55–8.

Raj A D, Yadav V Y and Rathod J H. 2013. Impact of front line demonstration (FLD) on the yield of pulses. International Journal of Scientific and Research Publications 3(9): 1–4. DOI: https://doi.org/10.15740/HAS/AU/9.4/558-561

Ramakrishna A, Wani S P, Rao Srinivasa, Ch and Reddy U S. 2005. Increased chickpea yield and economic benefits by improved crop production technology in rainfed areas of kurnool district of Andhra Pradesh, India. SAT e-journal 1(1): 1–3.

Saha D K, Singh Y V, Gajja B L, Singh R, Chand K, Waris A, Singh B and Jangid B L. 2009. Livelihood opportunities and socio-economic issues. (In) Trends in Arid Zone Research in India, pp 458-78. Kar A, Garg B K, Singh M P and Kathju S (Eds). Central Arid Zone Research Institute, Jodhpur.

Samui S K, Maitra S, Roy D K, Mondal A K and Saha D. 2000. Evaluation of front line demonstration on groundnut (Arachis hypogaea L.). Journal of Indian Society of Coastal Agricultural Research 18: 180–3.

Sharma B L and Sharma K C. 2014. Impact of demonstrations of farmer’s fields in agro climatic zone II-A of Rajasthan. Agricultural Update 9(4): 472. DOI: https://doi.org/10.15740/HAS/AU/9.4/472-475

Singh Dheeraj, Chaudhary M K, Meena M L and Roy M M. 2013. Seed village programme: An innovative approach for small farmers. Agricultural Information Worldwide 6: 143–6.

Singh R B. 2002. Science and technology for sustainable food security, nutritional adequacy and poverty alleviation in the asia-pacific region. FAO Regional Office for Asia and the Pacific, Bangkok:

Thakral S K and Bhatnagar P. 2002. Evaluation of frontline demonstration on chickpea in north-western region of Haryana. Agricultural Science Digest 22(3): 217–8.

Tripathi K P and Kumar P. 2000. Phosphate adsorption in aridosols in relation to soil properties. Annals of Arid Zone 39(2): 131–5.