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Soil Mapping and Variety-Based Entry-Point Interventions for Strengthening Agriculture-Based Livelihoods - Exemplar Case of 'bhoochetana' in India
Soil health diagnosis in nearly 100,000 farmers' fields under 'Bhoochetana' initiative in Karnataka showed widespread soil degradation. Soil mapping-based fertilizer management was an effective entry-point intervention to take most farmers on-board to initiate the process of upgrading agriculture. Soils of the farmers' fields showed low levels of micro- and secondary nutrients such as zinc (Zn) (55%), boron (B) (62%) and sulphur (S) (52%) in addition to that of phosphorus (P) (41%), potassium (K) (23%) and soil organic carbon (C) (52%). Soil mapping-based fertilizer management recorded significant productivity benefits that varied from 25% to 47% in cereals, 28% to 37% in pulses and 22% to 48% in oilseed crops. In terms of economics, a rupee spent on soil test-based fertility management brought returns of Rs 3 to Rs 15. Similarly, the participatory trials showed that the use of high yielding varieties of sorghum, pearl millet, finger millet, groundnut, soybean, castor, pigeonpea and chickpea enhanced productivity by 30% to 123%. The tangible benefits through soil mapping and variety based interventions have enhanced the risk-taking ability of farmers to invest in technologies based on use of soil testing and use of improved cultivars of crops. The adoption of simple knowledge-based technologies as entry point interventions along with policy reorientation to ensure knowledge sharing and availability of needed inputs at village level, enabled in a period of four years (2009-2013) to outreach more than 5 million families in Karnataka to transfer improved technologies in more than 7 million ha area. The study indicates that knowledge-based entry point interventions like soil mapping and improved varieties targeted at providing simple solutions are the best options for quick benefits and rapportbuilding with the majority farmers to initiate a collective action for technological upgradation of dry land agriculture.
Keywords
Impact, Knowledge-Based Entry Point, Participatory Research, Productivity.
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- Joshi, P. K., Jha, A. K., Wani, S. P. and Sreedevi, T. K., Scalingout community watershed management for multiple benefits in rainfed areas. In Rainfed agriculture: Unlocking the Potential (eds Wani, S. P., Rockstrom, J. and Oweis, T.), CABI: Wallingford, UK, 2009, pp. 276–291.
- Rockstrom, J., Hatibu, N., Oweis, T. and Wani, S. P., Managing water in rainfed agriculture. In Water for Food, Water for Life: A Comprehensive Assessment of Water Management in Agriculture (ed. Molden, D.), Earthscan, London, 2007, pp. 315–348.
- Rockström, J. et al., Managing water in rainfed agriculture-the need for a paradigm shift. Agric. Water Manage., 2010, 97, 543–550.
- Wani, S. P., Pathak, P., Jangawad, L. S., Eswaran, H. and Singh, P., Improved management of Vertisols in the semi-arid tropics for increased productivity and soil carbon sequestration. Soil Use Manage., 2003, 19, 217–222.
- Wani, S. P., Singh, H. P., Sreedevi, T. K., Pathak, P., Rego, T. J., Shiferaw, B. and Iyer, S. R., Farmer-participatory integrated watershed management: adarsha watershed, Kothapally India – an innovative and upscalable approach. In Research Towards Integrated Natural Resources Management: Examples of Research Problems, Approaches and Partnerships in Action in the CGIAR (eds Harwood, R. R. and Kassam, A. H.), Consultative Group on International Agricultural Research: Washington DC, USA and FAO, Italy, 2003, pp. 123–147.
- Wani, S. P., Sreedevi, T. K., Rockstrom, J. and Ramakrishna, Y. S., Rainfed agriculture – past trends and future prospects. In Rainfed Agriculture: Unlocking the Potential (eds Wani, S. P., Rockstrom, J. and Oweis, T.), CAB International, Wallingford, UK, 2009, pp. 1–35.
- Wani, S. P., Chander, G. and Sahrawat, K. L., Soil health awareness: soil science at doorsteps of the farmers. In Proceedings of national seminar on ‘soil security for sustainable agriculture’, Akola, Maharashtra, India, 27–28 February 2010 (eds Sarode, S. V. et al.), Dr Panjabrao Deshmukh Krishi Vidyapeet, Akola, India, 2012, pp. 1–9.
- Bhatia, V. S., Singh, P., Wani, S. P., Kesava Rao, A. V. R. and Srinivas, K., Yield gap analysis of soybean, groundnut, pigeonpea and chickpea in India using simulation modeling, Global Theme on Agroecosystems Report No. 31, ICRISAT, Patancheru, India, 2006.
- Murty, M. V. R., Singh, P., Wani, S. P., Khairwal, I. S. and Srinivas, K., Yield gap analysis of sorghum and pearl millet in India using simulation modeling. Global Theme on Agroecosystems Report No. 37, ICRISAT, Patancheru, India, 2007.
- Aggarwal, P. K., Hebbar, K. B., Venugopalan, M. V., Rani, S., Bala, A., Biswal, A. and Wani, S. P., Quantification of yield gaps in rain-fed rice, wheat, cotton and mustard in India, Global Theme on Agroecosystems Report No. 43, ICRISAT, Patancheru, India, 2008.
- Sahrawat, K. L., Wani, S. P., Parthasaradhi, G. and Murthy, K. V. S., Diagnosis of secondary and micronutrient deficiencies and their management in rainfed agroecosystems: case study from Indian semi-arid tropics. Commun. Soil Sci. Plant Anal., 2010, 41, 346–360.
- Wani, S. P., Sahrawat, K. L., Sarvesh, K. V., Baburao Mudbi and Krishnappa, K., Soil Fertility Atlas for Karnataka, India, ICRISAT, Patancheru, India, 2011.
- Wani, S. P., Chander, G., Sahrawat, K. L. and Pardhasaradhi, G., Soil test-based balanced nutrient management for sustainable intensification and food security: case from Indian semi-arid tropics. Commun. Soil Sci. Plant Anal., 2015, 46, 20–33.
- Chander, G., Wani, S. P., Sahrawat, K. L. and Jangawad, L. S., Balanced plant nutrition enhances rainfed crop yields and water productivity in Jharkhand and Madhya Pradesh states in India. J. Trop. Agric., 2012, 50, 24–29.
- Chander, G., Wani, S. P., Sahrawat, K. L., Kamdi, P. J., Pal, C. K., Pal, D. K. and Mathur, T. P., Balanced and integrated nutrient management for enhanced and economic food production: case study from rainfed semi-arid tropics in India. Arch. Agron. Soil Sci., 2013, 59, 1643–1658.
- Chander, G., Wani, S. P., Sahrawat, K. L. and Rajesh, C., Enhanced nutrient and rainwater use efficiency in maize and soybean with secondary and micro nutrient amendments in the rainfed semi-arid tropics. Arch. Agron. Soil Sci., 2014, 61(3), 285–298; doi:10.1080/03650340.2014.928928.
- Chander, G. et al., Soil test-based nutrient balancing improved crop productivity and rural livelihoods: case study from rainfed semi-arid tropics in Andhra Pradesh, India. Arch. Agron. Soil Sci., 2014, 60, 1051–1066.
- Chennamaneni, S. R., Wani, S. P., Chander, G. and Sahrawat, K. L., Balanced nutrient management for crop intensification and livelihood improvement: a case study from watershed in Andhra Pradesh, India. Commun. Soil Sci. Plant Anal., 2014, 45, 2515–2528.
- Chander, G., Wani, S. P., Sahrawat, K. L., Pal, C. K. and Mathur, T. P., Integrated plant genetic and balanced nutrient management enhances crop and water productivity of rainfed production systems in Rajasthan, India. Commun. Soil Sci. Plant Anal., 2013, 44, 3456–3464.
- Ministry of Agriculture, Land use statics at a glance-state wise, 2013; available online: http://eands.dacnet.nic.in/LUS_1999_2004.htm (accessed on 31 August 2014).
- Ministry of Agriculture, Agricultural statistics at a glance 2011, 2013; available online: http://eands.dacnet.nic.in/latest_20011.htm (accessed on 31 August 2014).
- Sahrawat, K. L., Rego, T. J., Wani, S. P. and Pardhasaradhi, G., Stretching soil sampling to watershed: evaluation of soil-test parameters in a semi-arid tropical watershed. Commun. Soil Sci. Plant Anal., 2008, 39, 2950–2960.
- Rego, T. J., Wani, S. P., Sahrawat, K. L. and Pardhasaradhi, G., Macro-benefits from boron, zinc and sulfur application in Indian SAT: a step for grey to green revolution in agriculture, Global Theme on Agroecosystems Report no. 16, ICRISAT, Patancheru, 2005.
- Nelson, D. W. and Sommers, L. E., Total carbon, organic carbon and organic matter. In Methods of Soil Analysis, Part 3: Chemical methods (Soil Science Society of America Book series No. 5), (ed. Sparks, D. L.), SSSA and ASA, Madison, Wisc., 1996, pp. 961–1010.
- Olsen, S. R. and Sommers, L. E., Phosphorus. In Methods of Soil Analysis, Part 2, 2nd edn (Agronomy Monograph 9), (ed. Page, A. L.), ASA and SSSA, Madison, Wisc, 1982, pp. 403–430.
- Helmke, P. A. and Sparks, D. L., Lithium, sodium, potassium, rubidium and cesium. In Methods of Soil Analysis, Part 3: Chemical methods (Soil Science Society of America Book Series No. 5), (ed. Sparks, D. L.), SSSA and ASA, Madison, Wisc, 1996, pp. 551–574.
- Tabatabai, M. A., Sulphur. In Methods of Soil Analysis, Part 3: Chemical Methods (Soil Science Society of America Book Series No. 5), (ed. Sparks, D. L.), SSSA and ASA, Madison, Wisc., 1996, pp. 921–960.
- Lindsay, W. L. and Norvell, W. A., Development of a DTPA test for zinc, iron, manganese and copper. Soil Sci. Soc. Am. J., 1978, 42, 421–428.
- Keren, R., Boron. In Methods of Soil Analysis, Part 3: Chemical Methods (Soil Science Society of America Book Series No. 5) (ed. Sparks, D. L.), SSSA and ASA, Madison, Wisc., 1996, pp. 603–626.
- Ministry of Agriculture, Agricultural statistics at a glance-2013, 2013, available online: http://eands.dacnet.nic.in/latest_2006.htm (accessed on 31 August 2014).
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