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BY-NC-ND 3.0 license Open Access Published by De Gruyter Open Access December 17, 2015

Socio-ecological Vulnerability of Smallholders due to Climate Change in Mountains: Agroforestry as an Adaptation Measure

  • Rajiv Pandey , Dhanraj Meena , Roberta Aretano , Sachidananda Satpathy , Teodoro Semeraro , Ajay Kumar Gupta , Sushma Rawat and Giovanni Zurlini

Abstract

The present study aims to assess the socioecological vulnerability of smallholders through an index of Tehri Garhwal Himalaya. The index provides a realistic approach to recognize the contributions of social and ecological factors for household welfare vulnerability to climate change. The approach puts forward various indices for each component of vulnerability to climate change - exposure, sensitivity, and adaptive capacity including two more indices: one for overall impact under the exposure of climate change and another for overall vulnerability. The five indices were proposed to assess the vulnerability status of with and without agroforestry practicing households in Himalayan region. These indices are based on 35 indicators (8 for exposure; 12 for sensitivity, 15 for adaptive capacity), selected through inductive approaches. A questionnaire for households was designed for the above aim and was administered to 121 heads of households through face-toface interviews with 77 households practicing agroforestry and 44 without agroforestry. The questionnaire dealt the general household information, and indicators of the vulnerability including the issues related to agroforestry. The results highlight slightly higher adaptive capacity of agroforestry practicing households due to specific contribution of agroforestry. The low contribution of agroforestry among smallholders was due to small land holding. The study also results that remoteness, specific issues of smallholders’ such as poverty, education and employment are responsible for the present condition. In particular this study clearly shows that poverty is the key driver for vulnerability. All of these issues can be addressed if future programs and policies, include and implement regulations to remedy attributive factors. This paper may be applicable to other mountainous regions providing insights for effective adaptation strategies to climate change.

References

[1] IPCC., Summary for policymakers. In: Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part A: Global and Sectoral Aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, Ed.: Field C.B., Barros V.R., Dokken D.J., Mach K.J., Mastrandrea M.D., Bilir T.E., et al., 2014, Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 1-32.Search in Google Scholar

[2] Nelson G.C., Rosegrant M.W., Koo J., Robertson R., Sulser T., Zhu T., et al., Climate change: impact on agriculture and costs of adaptation, 2009, IFPRI, Washington.Search in Google Scholar

[3] Thompson J., Millstone E., Scoones I., Ely A., Marshall F., Agri-food system dynamics: pathways to sustainability in an era of uncertainty, 2007, Working Paper 4, STEPS Centre, Brighton.Search in Google Scholar

[4] Lissner T.K., Reusser D.E., Lakes T., Kropp J.P., A systematic approach to assess human wellbeing demonstrated for impacts of climate change, 2014, Change and Adaptation in Socio- Ecological Systems, Vol 1, 98-110.10.2478/cass-2014-0010Search in Google Scholar

[5] Morton J., The impact of climate change on smallholder and subsistence agriculture, 2007, Proceedings of the National Academy of Sciences of the United States of America, 104(50): 19680.10.1073/pnas.0701855104Search in Google Scholar PubMed PubMed Central

[6] Gadgil S., Kumar K.R., The Asian monsoon, Agriculture and economic. In: Wang, B. (ed), The Asian Monsoon, 2006, Springer, Paris, 651-83.10.1007/3-540-37722-0_18Search in Google Scholar

[7] Jayaraman T., Murari K., Climate Change and Agriculture: Current and Future Trends, and Implications for India, 2014, Review of Agrarian Studies, 4(1), (http://www.ras.org.in/climate_change_and_agriculture_83).Search in Google Scholar

[8] Salvatore Y., Gunnar K., Ringler C., Estimating the impact of climate change on agriculture in low income countries: Household level evidence from the Nile basin Ethiopia, 2011, J Environ Res Econ, 28:32-43.Search in Google Scholar

[9] Korner C., Mountain biodiversity, its causes and function, 2004, Ambio Supplement, 13:11-17.10.1007/0044-7447-33.sp13.11Search in Google Scholar

[10] Viviroli D.,Weingartner R., Hydrological significance of mountains: from regional to global scale, 2004, Hydrological Earth Systems Science, 8(6):1016-1029.10.5194/hess-8-1017-2004Search in Google Scholar

[11] Vitousek P. M., Mooney H. A., Lubchenco J., Melillo J. M., Human domination of Earth’s ecosystems,1997, Science, 277:494-499.10.1126/science.277.5325.494Search in Google Scholar

[12] Cassidy L., Barnes G. D., Understanding household connectivity and resilience in marginal rural communities through social network analysis in the village of Habu, Botswana, 2002, Ecology and Society, 17(4), 11. http://dx.doi.org/10.5751/ES-04963-170411.10.5751/ES-04963-170411Search in Google Scholar

[13] Lin B.B., Agroforestry management as an adaptive strategy against potential microclimate extremes in coffee agriculture, 2007, Agric. For. Met, 144: 85-94.10.1016/j.agrformet.2006.12.009Search in Google Scholar

[14] Lin B., Resilience in Agriculture through Crop Diversification: Adaptive Management for Environmental Change, 2011. Bioscience, 61:183-193.10.1525/bio.2011.61.3.4Search in Google Scholar

[15] Challinor A., Wheeler T., Garforth C., Craufurd P., Kassam A., Assessing the vulnerability of food crop systems in Africa to climate change, 2007, Climate Change, 83(3), 381-99.10.1007/s10584-007-9249-0Search in Google Scholar

[16] Lin B., Perfecto I., Vandermeer J., Synergies between Agricultural Intensification and Climate Change Could Create Surprising Vulnerabilities for Crops, 2008, Bioscience, 58: 847-854.10.1641/B580911Search in Google Scholar

[17] Verchot L.V., Van Noordwijk M., Kandji S., Tomich T., Ong C., Albrecht A., et al., Climate change: linking adaptation and mitigation through agroforestry, 2007, J Mitig Adapt Strat Glob Change, 12:901-918.10.1007/s11027-007-9105-6Search in Google Scholar

[18] World Bank., World development report: Agriculture and development, 2008, World Bank, Washington.Search in Google Scholar

[19] Neufeldt H., Dawson I.K., Luedeling E., Ajayi O.C., Beedy T., Gebrekirstos A., et al., Climate change vulnerability of agroforestry, 2012, ICRAF Working Paper No 143, World Agroforestry Center, Nairobi.10.5716/WP12013.PDFSearch in Google Scholar

[20] Neupane R.P., Thapa G.B., Impact of Agroforestry Intervention on Soil Fertility and Farm Income under the Subsistence Farming System of the Middle hills, Nepal, 2001, Agriculture, Ecosystems and Environment, 84: 157-167.10.1016/S0167-8809(00)00203-6Search in Google Scholar

[21] Mithoefer D., Waibel H., Income and labour productivity of collection and use of indigenous fruit tree products in Zimbabwe, 2003, Agroforestry Systems, 59: 295-305.10.1023/B:AGFO.0000005230.09714.b4Search in Google Scholar

[22] Garrity D., Okono A., Grayson M., Parrott S., World agroforestry into the future, 2006, World Agroforestry Centre, Nairobi.Search in Google Scholar

[23] Scherr S.J., Franzel S., Introduction. In Franzel S., Scherr S.J., (Eds.) Trees on the Farm: Assessing the Adoption Potential of Agroforestry Practices in Africa, 2002, CABI Publishing, New York.10.1079/9780851995618.0000Search in Google Scholar

[24] World Bank., Agriculture investments sourcebook: Module 5 - Agroforestry systems, 2005, World Bank, Washington.Search in Google Scholar

[25] Dupraz C., Burgess P.J., Gavaland A., Graves A.R., Herzog F., Incoll L.D., et al., SAFE (Silvoarable Agroforestry for Europe) Synthesis report, 2005, SAFE project (August 2001-January 2005), http://www.ensam.inra.fr/safe/english/results/finalreport/SAFEpercent20Fourthpercent20Yearpercent20Annualpercent20Reportpercent20Volumepercent201.pdf, Accessed 23 July 2014.Search in Google Scholar

[26] Neufeldt H., Wilkes A., Zomer R.J., Xu J., Nangole E., Munster C., et al Trees on farms: Tackling the triple challenges of mitigation, adaptation and food security, 2009, World Agroforestry Centre Policy Brief 07, World Agroforestry Centre, Nairobi.Search in Google Scholar

[27] Ma X., Xu J.C., Luo Y., Aggrawal S.P., Li J.T., Response of hydrological processes to land-cover and climate changes in Kejie watershed, south-west China, 2009, Hydrological Processes, 23: 1179-1191.10.1002/hyp.7233Search in Google Scholar

[28] Turner B. L., Kasperson R.E., Matson P.A., McCarthy J.J., Corell R.W., Christensen L., et al., A framework for vulnerability analysis in sustainability science, 2013, PNAS, 100(14): 8074-807910.1073/pnas.1231335100Search in Google Scholar PubMed PubMed Central

[29] Birkmann J., Risk and vulnerability indicators at different scales: Applicability, usefulness and policy implications, 2007, Environmental Hazards, 7, 20-31.10.1016/j.envhaz.2007.04.002Search in Google Scholar

[30] WMD., Uttarakhand state perspective and strategic plan: 2009-2027, 2008, Report, Watershed Management Directorate (WMD), Dehradun. dolr.nic.in/dolr/downloads/spsp/SPSP_ Uttarakhand.pdf. (Assesd on 20th August, 2014).Search in Google Scholar

[31] MSME., Brief Industrial Profile of District: Tehri Garhwal. Micro, Small & Medium Enterprises-Development Institute, 2012, Nainital, Uttrakhand (http://dcmsme.gov.in/dips/DIPSRpercent20-percent20TEHRI.pdf Assesd on 20th August, 2014)Search in Google Scholar

[32] Census of India., 2011, http\www.censusindia.gov.inSearch in Google Scholar

[33] Sharma C.M., Gairola S., Ghildiyal S. K., Suyal, S., Forest Resource Use Patterns in Relation to Socioeconomic Status. Mountain Research and Development, 2009, 29(4):308-319.10.1659/mrd.00018Search in Google Scholar

[34] Patt A.G., Schroter D., de la Vega-Leinert A.C., Klein R.J.T., Vulnerability research and assessment to support adaptation and mitigation: Common themes from the diversity of approaches. In: Patt A.G., Schroter D., de la Vega-Leinert A.C., Klein R.J.T., (Eds.), 2008, Environmental Vulnerability Assessment. Earthscan, London.Search in Google Scholar

[35] Hinkel J., Indicators of vulnerability and adaptive capacity: towards a clarification of the science-policy interface, 2011, Global Environmental Change, 21(1): 198-208.10.1016/j.gloenvcha.2010.08.002Search in Google Scholar

[36] McCarthy J. J., Canziani O. F., Leary N. A., Dokken D. J.,White K. S., Climate Change: Impacts, Adaptation and Vulnerability, 2001, Cambridge University Press, Cambridge.Search in Google Scholar

[37] Fussel H., Klein R.J.T., Climate change vulnerability assessments: An evolution of conceptual thinking, 2006, Climatic Change, 75: 301-329.10.1007/s10584-006-0329-3Search in Google Scholar

[38] Metzger M.J., Leemans R., Schroter D., A multidisciplinary multi-scale framework for assessing vulnerabilities to global change, 2005, International Journal of Applied Earth Observation and Geoinformation, 7: 253-267.10.1016/j.jag.2005.06.011Search in Google Scholar

[39] Glick P., Stein B.A., Edelson N.A. (Ed)., Scanning the Conservation Horizon: A Guide to Climate Change Vulnerability Assessment. National Wildlife Federation, 2011, Washington.Search in Google Scholar

[40] Aretano R., Teodoro S., Petrosillo I., De Marco A., Pasimeni M. R., Zurlini G., Mapping ecological vulnerability to fire for effective conservation management of natural protected areas, 2015, Ecological Modelling, (295)163-175.10.1016/j.ecolmodel.2014.09.017Search in Google Scholar

[41] Gallopin G.C., Linkages between vulnerability, resilience, and adaptive capacity, 2006, Global Environmental Change 16 (3), 293-303. http://dx.doi.org/10.1016/j.gloenvcha.2006.02.004.10.1016/j.gloenvcha.2006.02.004Search in Google Scholar

[42] Callo-Concha D., Ewert F., Using the Concepts of Resilience, Vulnerability and Adaptability for the Assessment and Analysis of Agricultural Systems, 2014, Change and Adaptation in Socio- Ecological Systems, Vol.1, 1-11.10.2478/cass-2014-0001Search in Google Scholar

[43] Smit B., Pilifosova O., Adaptation to climate change in the context of sustainable development and equity. In: McCarthy J., Canziani O F., Leary N F., Dokken D J., White K S., (Eds) Climate Change Impacts, adaptation and vulnerability. Contribution of Working Group II to the Third Assessment Report of the Intergovernmental Panel on Climate Change, 2001, Cambridge University Press, Cambridge. pp 876-912.Search in Google Scholar

[44] Pandey R., and Jha S.K., Climate vulnerability index - measure of climate change vulnerability to communities: a case of rural Lower Himalaya, India, 2012, Mitigation and Adaptation Strategies for Global Change, 17(6): 487-506.10.1007/s11027-011-9338-2Search in Google Scholar

[46] Hahn M.B., Riederer A.M., Foster S.O., The livelihood vulnerability index: a pragmatic approach to assessing risks from climate variability and change - a case study in Mozambique, 2009, Global Environmental Chang, 19(1):74-88.10.1016/j.gloenvcha.2008.11.002Search in Google Scholar

[45] Pandey R., Kala S., Pandey V. P., Assessing climate change vulnerability of water at household level, 2014, Mitig Adapt Strategy Glob Change; DOI 10.1007/s11027-014-9556-5.10.1007/s11027-014-9556-5Search in Google Scholar

[47] Urothody A. A., Larsen H.O., Measuring climate change vulnerability: a comparison of two indexes, 2010, Banko Jankari, 20(1):9-16.10.3126/banko.v20i1.3503Search in Google Scholar

[48] Tripathi A., Farmers’ Vulnerability to Climate Change in Uttar Pradesh, India: Measurement and Correlates, 2014, IEG, New Delhi.Search in Google Scholar

[49] Li C., Li S., Feldman M.W., Daily G.C., Li J., Does out-migration reshape rural households’ livelihood capitals in the source communities? Recent evidence from western China, 2012, Asian and Pacific Migration Journal, 21(1), 1-30.10.1177/011719681202100101Search in Google Scholar

[50] Davies R.A.G., Midgley S.J.E., Risk and Vulnerability Mapping in Southern Africa: A Hotspots Analysis, 2010, One World Sustainable Investments Ltd., Cape Town.Search in Google Scholar

[51] Duerden F., Translating climate change impact at community level, 2004, Arctic, 57: 2004-212.10.14430/arctic496Search in Google Scholar

[52] Vedwan N., Rhoades R. E., Climate change in western Himalayas of India: a study of local perception and response, 2001, Climate Research, 19:109-117.10.3354/cr019109Search in Google Scholar

[53] Salick J., Ross N., Traditional people and climate change, 2009, Global Environmental Change, 19:137-139.10.1016/j.gloenvcha.2009.01.004Search in Google Scholar

[54] Sharma E., Chettri N., Tse-ring K., Shrestha A.B., Jing F., Mool P., Climate change impact and vulnerability in the eastern Himalayas, 2009, ICIMOD, Kathmandu.10.53055/ICIMOD.497Search in Google Scholar

[55] Reidlinger D., Berkes F.,. Contribution of traditional knowledge to understanding climate change in the Canadian Arctic, 2001, Polar records, 37: 315. (doi :10.1017/ S003224740017058)10.1017/S0032247400017058Search in Google Scholar

[56] Chaudhary P., Bawa K.S., Local perceptions of climate change validated by scientific evidence in the Himalayas, 2011, Biology Letters, 7:767-770.10.1098/rsbl.2011.0269Search in Google Scholar

[57] Gregory P.J., Ingram J.S.I., Global change and food and forest production: future scientific challenges, 2000, Agric. Ecosyst. Environ, 82: 3-14.10.1016/S0167-8809(00)00212-7Search in Google Scholar

[58] Slingo J.M., Challinor A.J., Hoskins B.J., Wheeler T.R., Introduction: Food crop in a changing climate 2005, Philos. Trans. R. Soc. B, 360: 1983-1989.10.1098/rstb.2005.1755Search in Google Scholar PubMed PubMed Central

[59] Singh S.V., Pandey D.N., Multifunctional Agroforestry Systems in India: Science-Based Policy options. Climate change and CDM Cell Rajasthan State Pollution Controll Board, p.35, 2011.Search in Google Scholar

[60] Charles, R.L., Munishi, P.K.T., Nzunda, E.F., Agroforestry as Adaptation Strategy under Climate Change in Mwanga District, Kilimanjaro, Tanzania, 2013, International Journal of Environmental Protection, 3(11):29-38.Search in Google Scholar

[61] Thorlakson T., Reducing subsistence farmers` vulnerability to climate change: the potential contributions of agroforestry in western Kenya, Occasional Paper Nairobi: World Agroforestry Centre, 16. p. 76, 2011.10.1186/2048-7010-1-15Search in Google Scholar

[62] Ajayi O.G., Akinnifesi F.F., Sileshi G., Chakeredza S., Mn’gomba S., Nyoka I., et al., Local solution to global problems: the potential of Agroforestry for climate change adaptation and mitigation in South Africa. Lilongwe, Malawi, 2008.Search in Google Scholar

[63] Ong C.K., Anyango S., Muthuri C.W., Black, C.R., Water use and water productivity of agroforestry systems in the semi-arid tropics, 2007, Ann. Arid Zone, 46: 255-284.Search in Google Scholar

[64] Smit B., Wandel J., Adaptation, Adaptive capacity and vulnerability, 2006, Global Environmental Change, 16: 282-292.10.1016/j.gloenvcha.2006.03.008Search in Google Scholar

[65] de Souza H.N., de Graaf J., Pulleman M.M., Strategies and economics of farming systems with coffee in the Atlantic Rainforest Biome, 2011, Agroforestry systems., 84 (11): 227-242. 10.1007/s10457-011-9452-xSearch in Google Scholar

[66] Garrity D.P., Agroforestry and the achievement of the Millennium Development Goals, 2004, Agroforestry systems, 61:5-19.10.1007/978-94-017-2424-1_1Search in Google Scholar

[67] Walker B., Holling C.S., Carpenter S.R., Kinzig A.P., Resilience, adaptability and transformability in social - ecological systems, 2004, Ecol. Soc. 9 (2), 5. http://www.ecologyandsociety.org/vol9/iss2/art5/.10.5751/ES-00650-090205Search in Google Scholar

[68] Lott J.E., Ong C.K., Black C.R., Understorey microclimate and crop performance in a Grevillea robusta-based agroforestry system in semi-arid Kenya, 2009, Agricultural and Forest Meteorology, 149: 1140-1151.10.1016/j.agrformet.2009.02.002Search in Google Scholar

[69] National Agroforestry Policy., 2014, http://www.agricoop.nic.inSearch in Google Scholar

[70] Van Noordwijk M., Hoang M.H., Neufeldt H., Oborn I., Yatich T., (Eds.) . How trees and people can co-adapt to climate change: reducing vulnerability through multifunctional agroforestry landscapes. World Agroforestry Centre, 2011, Nairobi.Search in Google Scholar

Received: 2015-3-7
Accepted: 2015-9-23
Published Online: 2015-12-17
Published in Print: 2015-1-1

© 2015

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

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