Abstract
This study examines economic sustainability of agri-horticultural systems on reclaimed ravine lands in western India. Ravine lands are marked by their susceptibility to soil erosion along the course of river systems. Introduction of tree component with traditional crops on such marginal lands is beneficial not only in terms of short-term profitability but also resource conservation. Moringa oleifera (drumstick)- and Emblica officinalis (aonla)-based agri-horticulture trees with Phaseolus radiatus and Foeniculum vulgare crops have been examined as case studies based on data from a research farm adjacent to a major ravine system in western India. Drumstick, as green pod and also in dried powder form, is traditionally used as vegetable in Indian diet. Aonla is used in various forms as food as well as for medicinal purpose. This is marketed in different forms such as pickle, candy and dried powder. Enterprise budgeting analysis revealed that the net present values from M. oleifera + P. radiatus followed by F. vulgare and E. officinalis + P. radiatus followed by F. vulgare were 386 and 1190 USD ha−1, respectively, at 2012–13 local prices over a production cycle of 15 years. Saving in soil nutrients and soil carbon build-up worth 12–240 and 665 USD ha−1 was observed. Further, the land expectation value of E. officinalis-based agri-horticulture production system (1564 USD ha−1) revealed higher land value as compared to tobacco monocropping system (1039 USD ha−1). While the financial viability of these cropping systems proved their worth on the marginal lands of ravines in Gujarat, market and yield risks in crop component, examined through sensitivity analysis, need to be taken into consideration before recommending the agri-horticultural system to farmers. Nevertheless, in view of the declining profitability of the tobacco crop, largely grown on reclaimed ravine lands, an alternative production system, particularly aonla-based agri-horticulture system would help farmers explore alternative production system suiting to their resource endowments.
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References
Ajayi CA, Williams OA, Famuyide OO, Adebayo O (2013) Economic potential of Moringa Oleifera as a commercial tree species and its suitability for forest management intervention in Taungya farming system. Agrosearch 13(3):242–255
Animashaun JO (2013) Prospects of agriculture enterprise for sustainable economic development: success story of university of ilorin moringa value-addition activities. Paper presented at the 4th international conference of the African Association of Agricultural Economists, Hammamet, 22–25 September 2013
Anjum K, Khan GS, Afzal M, Khan ZH (2011) Economic comparison of agriculture with agroforestry in Tehsil Kamalia, district Toba Tek Singh, Pakistan. J Agric Res 49(4):551–561
Anonymous (2013) Technical update of the social cost of carbon for regulatory impact analysis under executive order 12866- interagency-working group on social cost of carbon. United States Government, Washington
Campbell CA, Zentner RP, Janzen HH, Bowren KE (1990) Crop rotation studies on the Canadian prairies, Publ. 1841/E. Can. Gov. Publ. Cent, Supply and Services Canada, Ottawa
Chase C (2006) Using enterprise budgets to make decisions. Ag Decision Maker, file A1-19, Publ. FM 1875. Iowa State Univ. Ext, Ames
Das DK, Chaturvedi OP, Jha RK, Kumar R (2011) Yield, soil health and economics of aonla (Emblica officinalis Gaertn.)-based agri-horticultural systems in eastern India. Curr Sci 101(6):786–790
Doye D (2007) Budgets: Their use in farm management. Fact Sheet F-139. Oklahoma Cooperative Extension Service, Oklahoma State Univ, Norman
FAO (Food and Agriculture Organization) (2003) Issues in the global tobacco economy: Selected case studies. Food and Agriculture Organization of the United Nations, Rome
Gill MS, Ahlawat IPS (2006) Crop diversification- its role towards sustainability and profitability. Indian J Fert 2(9):125–138
Godsey LD, Mercer DE, Grala RK, Grado SC, Alavalapati JRR (2009) Agroforestry economics and policy. In: Garrett HE (ed) North American Agroforestry: an integrated science and practice, 2nd edn. American Society of Agronomy, Madison, pp 315–337
Gondalia VK, Patel GN (2007) An Economic Evaluation of Investment on Aonla (Emblica officinalis G.) in Gujarat. Agricultural Economics Research Review 20(2):385–394
ICAR (Indian Council of Agricultural Research) (2011) ICAR Vision 2030. New Delhi, India
Jackson ML (1967) Soil chemical analysis. Prentice Hall of India Pvt. Ltd., New Delhi
Jaimini SN, Tikka SBS (2007) Agroforestry practices and systems in North Gujarat. In: Panwar P (ed) Agroforestry: systems and practices. New Indian Publishing, New Delhi, pp 163–174
Jose S (2009) Agroforestry for ecosystem services and environmental benefits: an overview. Agrofor Syst 76:1–10
Kasem S, Thapa GB (2011) Crop diversification in Thailand: status, determinants, and effects on income and use of inputs. Land Use Policy 28:618–628
Klemperer WD (2003) Forest resource economics and finance. W.D. Klemperer, Blacksburg
Lecours N, Almeida GEG, Abdalla JM, Novotny TE (2012) Environmental health impacts of tobacco farming: a review of the literature. Tob Control 21:191–196. doi:10.1136/tobaccocontrol-2011-050318
Mitra S (2015) Is India’s craving for Tobacco declining? Live Mint, E- paper, May 27, 2015. http://www.livemint.com/Companies/PCcJEvyl6WqCgFXApi78GJ/Is-Indias-craving-for-tobacco-declining.html Accessed July 6, 2016
Nair PKR, Kumar BM, Nair VD (2009) Agroforestry as a strategy for carbon sequestration. J Plant Nutr Soil Sci 172:10–23
Pandey DN (2007) Multifunctional agroforestry systems in India. Curr Sci 92(4):455–463
Pandey CB (2011) A modified alley cropping system of agroforestry in South Andaman Islands: an analysis of production potential and economic benefit. Indian J Agric Sci 81(7):616–621
Pandit V (2013) Gujarat eyes bumper kharif crop; farmers give tobacco a miss. The Hindu Business Line. August 9. Accessed 15 July 2016
Prasad VM (2007) Case study of tobacco cultivation and alternate crops in India. Study conducted as a technical document for The first meeting of the Ad Hoc Study Group on Alternative Crops established by the Conference of the Parties to the WHO Framework Convention on Tobacco Control Accessed 25 July 2014 www.who.int/tobacco/framework/cop/events/2007/india_case_studypdf
Rao EK, Nancharaiah G (2012) Alternative to tobacco crop cultivation in rabi season: a cost benefit analysis. Agri Situat India LXIX(2):67–78
Reddy BN, Suresh G (2009) Crop diversification with oilseed crops for-maximizing productivity, profitability and resource conservation. Indian J Agron 54(2):206–214
Schroth G, Sinclair F (2003) Trees crops and soil fertility: concepts and research methods. CABI, Wallingford
Sharma AK, Pradhan IP, Nema JP, Tejwani KG (1981) 25 years research on soil & water conservation in ravine lands of Gujarat. Monograph No. 2. Central Soil & Water Conservation Research & Training Institute, Research Centre, Vasad
Singh HB (2006) Evaluation of Tobacco (Nicotiana tabacum L) based cropping system for reclaimed lands of Mahi ravines. Indian J Soil Con 34(2):172–173
Singh AK, Singh S, Rao VVA, Hiwale SS, Joshi HK, Makwana P (2014) Dynamics of vegetative morphomatrix, productivity and economics of NA 7 aonla (Emblica officinalis) in different planting systems under rainfed conditions. Indian J Agric Sci 84(9):1045–1050
Stonehouse DP (1995) Profitability of soil and water conservation in Canada: a review. J Soil Water Conserv 50:215–219
Tiwari DN (1994) Agroforestry for sustainable development. In: Singh P, Pathak PS, Roy MM (eds) Agroforestry Systems for degraded lands. Oxford & IBH publishing Co Pvt Ltd, New Delhi
TOI (Times of India) (2015a) Vadodara drumsticks spice up TN Sambhar. Times of India, April 7, 2015
TOI (Times of India) (2015b) Drumstick idea beats the trend. Times of India, April 7, 2015
Williams-Guille´n K, Perfecto I, Vandermeer J (2008) Bats limit insects in a tropical agroforestry system. Science 320:70
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The financial support and facilities provided by the Director of the institute, ICAR-Indian Institute of Soil & Water Water Conservation, Dehradun, is duly acknowledged. The support provided by the technical staff in carrying out the research experiment and field surveys is also thankfully acknowledged. However, the usual disclaimer applies.
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Pande, V.C., Kurothe, R.S., Kumar, G. et al. Economic assessment of agri-horticulture production systems on reclaimed ravine lands in Western India. Agroforest Syst 92, 195–211 (2018). https://doi.org/10.1007/s10457-016-0025-x
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DOI: https://doi.org/10.1007/s10457-016-0025-x