Abstract
This study aimed to analyze the ecological, socio-economic and policy implications of land-use diversity in a traditional village landscape (900–1,000 m amsl.) in the Garhwal region of Indian Himalaya. The village landscape was differentiated into three major land-use types viz., forests, settled agriculture and shifting agriculture. Settled agriculture was further differentiated into four agroecosystem types viz., homegarden system (HGS), rainfed agroforestry system (RAS), rainfed crop system (RCS) and irrigated crop system (ICS), and shifting agriculture system (SAS) was differentiated into different stages of a 4-year long cropping phase and a 7-year long fallow phase, and forests into Community Forests (CF) and Reserve Forests (RF). HGS is the most productive agroecosystem, with soil organic carbon and nutrient concentrations significantly higher than all other forest/agricultural land-uses. Farmers capitalize upon crop diversity to cope with the risks and uncertainties of a monsoon climate and spatial variability in ecological factors influencing productivity. The SAS, a land-use adopted as a means of acquiring inheritable rights over larger land holdings provided in the policies during the 1890s, is less efficient in terms of land productivity than the traditional RAS and HGS but is maintained for its high labour productivity coupled with availability of high-quality fuelwood from fallow vegetation. Dominance of fodder trees in the RAS seems to derive from policies causing shortage of fodder available from forests. Cultural norms have favoured equity by allowing hiring of labour only from within the village community and income from non-timber forest products only to the weaker section of the society. Conversion of rainfed to irrigated cropping, a change facilitated by the government, improves agricultural productivity but also increases pressure on forests due to higher rates of farmyard manure input to the irrigated crops. Existing forest management systems are not effective in maintenance of a large basal area in forests together with high levels of species richness, soil fertility and resistance to invasive alien species Lantana camara. Farmers have to spend huge amount of labour and time in producing manure, managing livestock and other subsidiary farm activities. Interlinkages among agriculture, forests and rural economy suggest a need of replacing the present policies of treating agricultural development, forest conservation and economic development as independent sectors by an integrated sustainable development policy. The policy should promote technological and institutional innovations enabling parallel improvements in agricultural productivity and functions of forest ecosystems.
Similar content being viewed by others
Explore related subjects
Discover the latest articles, news and stories from top researchers in related subjects.References
Abdoulaye T, Lowenberg-DeBoer J (2000) Intensification of Sahelian farming systems: evidence from Niger. Agric Sys 64:67–81
Allen SE (1974) Chemical analysis of ecological materials. Blackwell Scientific Publications, Oxford
Andriesse JP, Schelhaas RM (1987) A monitoring study of nutrient cycles in soils used for shifting cultivation under various climatic conditions in tropical Asia. III. The effects of land clearing through burning on fertility level. Agric Ecosyst Environ 19:311–332
Ashish M (1993) Decentralized management of natural resource in the U.P. Hills. Econ Polit Weekly XXVII:1793–1796
Baijukya FP, de Ridder N, Masuki KF, Giller KE (2005) Dynamics of banana-based farming systems in Bukoba district, Tanzania: changes in land-use, cropping and cattle keeping. Agric Ecosyst Environ 106:395–406
Bardsley D (2003) Risk allevation via in situ agrobiodiversity conservation: drawing from experience in Switzerland, Turkey and Nepal. Agric Ecosyst Environ 99:149–157
Bhatnagar PR, Srivastava RC, Bhatnagar VK (1996) Management of runoff in small tanks for transplanted rice production in the mid-hills of northwest Himalaya. Agric Water Manage 30:107–118
Bohle H, Adhikari J (1998) Rural livelihoods at risk. How Nepalese farmers cope with food insecurity. Mountain Res Dev 18:321–332
Briggs L, Twomlow SJ (2002) Organic material flows within a smallholder highland farming system of South West Uganda. Agric Ecosyst Environ 89:191–212
Cairns M, Garrity DP (1999) Improving shifting cultivation in Southeast Asia by building on indigenous fallow management strategies. Agroforest Syst 47:37–48
Carter SE, Murwira HK (1995) Spatial variability in soil fertility management and crop response in Mutoko communal area, Zimbabwe. Ambio 24:77–84
Chandrasekhar K, Rao KS, Maikhuri RK, Saxena KG (2007) Ecological implications of traditional livestock husbandry and associated land-use practices: A case study from the trans-Himalaya, India. J Arid Environ 69:299–314
Clermont-Dauphin C, Cabidoch YM, Meynard JM (2005) Diagnosis on the sustainability of an upland cropping system of southern Haiti. Agric Ecosyst Environ 105:221–234
de Rouw A (1995) The fallow period as a weed-break in shifting cultivation. Agric Ecosyst Environ 54:31–43
Desbiez A, Matthews R, Tripathi B, Ellis-Jones J (2004) Perceptions and assessment of soil fertility by farmers in the mid-hills of Nepal. Agric Ecosyst Environ 103:191–206
Duggin JA, Gentle CB (1998) Experimental evidence of the importance of disturbance intensity for invasion of Lantana camara L. in dry rain forest-open forest ecotones in north-eastern NSW, Australia. For Ecol Manage 109:279–292
Elias E, Morse S, Belshaw DGR (1998) Nitrogen and phosphorus balances of Kindo Koisha farms in southern Ethiopia. Agric Ecosyst Environ 71:93–113
Ghersa CM, Ferraro DO, Omacini M, Martinez-Ghersa MA, Perelman S, Satorre EH, Soriano A (2002) Farm and landscape level variables as indicators of sustainable land-use in the Argentine Inland-Pampa. Agric Ecosyst Environ 93:279–293
Gilmour DA, Nurse MC (1991) Farmer initiatives in increasing tree cover in central Nepal. Mountain Res Dev 11:329–337
Hrabovzsky J, Miyan K (1987) Population growth and land use in Himalaya. Mountain Res Dev 7:264–270
Hurni H (1999) Sustainable management of natural resources in African and Asian mountains. Ambio 28:382–389
Iiyama N, Kamada M, Nakagoshi N (2005) Ecological and social evaluation of landscape in a rural area with terraced paddies in southwestern Japan. Land Urban Plan 70:301–313
Ives JD, Messerli B (1989) The Himalayan dilemma: reconciling development and conservation. Routledge, London
Jodha NS (2000) Globalisation and fragile mountain environments: Policy challenges and choices. Mountain Res Dev 20:296–299
Juo ASR, Manu A (1996) Chemical dynamics in slash and burn agriculture. Agric Ecosyst Environ 58:49–60
Kessler JJ (1994) Usefulness of human carrying capacity concept in assessing ecological sustainability of land-use in semiarid regions. Agric Ecosyst Environ 48:273–284
Maikhuri RK, Rao KS, Saxena KG (1996) Traditional crop diversity for sustainable development of Central Himalayan agroecosystems. Int J Sust Dev World Ecol 3:8–31
Maikhuri RK, Semwal RL, Rao KS, Saxena KG (1997) Rehabilitation of degraded community lands for sustainable development in Himalaya: a case study in Garhwal Himalaya, India. Int J Sust Dev World Ecol 4:192–203
Maikhuri RK, Nautiyal S, Rao KS, Chandrasekhar K, Gavali R, Saxena KG (2000) Analysis and resolution of protected area-people conflicts in Nanda Devi Biosphere Reserve. Environ Conserv 27:43–53
Midmore DJ, Jansen HGP, Dumsday RG (1996) Soil erosion and environmental impact of vegetable production in Cameron Highlands, Malaysia. Agric Ecosyst Environ 60:29–46
Mitchell R (1979) The analysis of Indian agro-ecosystems, Inter print, New Delhi, India
Montagnini F, Sancho F (1994) Net nitrogen mineralization in soils under six indigenous tree species, an abandoned pasture and a secondary forest in the Atlantic lowlands of Costa Rica. Plant Soil 162:117–124
Murage EW, Karanja NK, Smithson PC, Woomer PL (2000) Diagnostic indicators of soil quality in productive and non-productive smallholders’ fields of Kenya’s Highlands. Agric Ecosyst Environ 79:1–8
Narain P, Singh RK, Sindhwal NS, Joshie P (1997) Agroforestry for soil and water conservation in the western Himalayan valley region of India. 1. Runoff, soil and nutrient losses. Agroforest Syst 39:175–189
Nautiyal S, Maikhuri RK, Semwal RL, Rao KS, Saxena KG (1998) Agroforestry systems in the rural landscape—a case study in Garhwal Himalaya, India. Agroforest Syst 41:151–165
Negi AK, Bhatt BP, Todaria NP, Saklani A (1997) The effect of colonialism on forests and the local people in the Garhwal Himalaya, India. Mountain Res Dev 17:159–168
Neher D (1992) Ecological sustainability in agricultural systems: Definitions and measurements. J Sustain Agric 2:51–61
Pilbeam CJ, Tripathi BP, Sherchan DP, Gregory PJ, Gaunt J (2000) Nitrogen balances for households in the mid-hills of Nepal. Agric Ecosyst Environ 79:61–72
Plieninger T, Wilbrand C (2001) Land-use, biodiversity conservation, and rural development in the dehesas of Cuatro Lugares, Spain. Agroforest Syst 51:23–34
Poudel DD, Midmore DJ, West LT (2000) Farmer participatory research to minimize soil erosion on steepland vegetable systems in the Philippines. Agric Ecosyst Environ 79:113–127
Ramakrishnan PS (1992) Shifting agriculture and sustainable development—an inter-disciplinary approach from north-eastern Himalayas. UNESCO and Parthenon Publishing Group, UK
Rao KS, Saxena KG (1994) Sustainable development and rehabilitation of degraded village lands in Himalaya. Bishen Singh Mahendra Pal Singh, Dehradun, India
Rao KS, Saxena KG (1996) Minor forest products’ management—problems and prospects in remote high altitude villages of Central Himalaya. Int J Sust Dev World Ecol 3:60–70
Rao KS, Semwal RL, Maikhuri RK, Nautiyal S, Sen KK, Singh K, Chandrasekhar K, Saxena KG (2003) Indigenous ecological knowledge, biodiversity and sustainable development in the central Himalayas. Trop Ecol 44:93–111
Rao KS, Maikhuri RK, Sen KK, Semwal RL, Singh K, Das AK, Saxena KG (2005a) Soil fertility management in settled farming systems of Himalaya. In: Ramakrishnan PS, Saxena KG, Swift MJ, Rao KS, Maikhuri RK (eds) Soil biodiversity, ecological processes and landscape management. Oxford & IBH, New Delhi, pp 243–276
Rao KS, Nautiyal S, Maikhuri RK, Saxena KG (2005b) Resource flows of villages with contrasting lifestyles in Nanda Devi Biosphere Reserve, Central Himalaya, India. J Mountain Sci 2:271–293
Rawat AS (1994) Deforestation and forest policy in the lesser-Himalayan Kumaun: impacts on peasant women and tribal populations. Mountain Res Dev 15:311–322
Rawat JS, Rawat MS (1994) Accelerated erosion and denudation in the Nana Kosi watershed, Central Himalaya, India. Part I. Sediment load. Mountain Res Dev 14:25–38
Salcedo IH, Tiessen H, Sampaio EVSB (1997) Nutrient availability in soil samples from shifting cultivation sites in the semi-arid Caatinga of NE Brazil. Agric Ecosyst Environ 65:177–186
Saxena KG, Rao KS, Purohit AN (1993) Sustainable forestry—prospects in India. J Sust For 1:69–95
Schmidt MG, Screier H, Shah PB (1993) Factors affecting the nutrient status of forest sites in a mountain watershed in Nepal. J Soil Sci 44:417–425
Schreier H, Shah PB, Lavkulich LM, Brown SP (1994) Maintaining soil fertility under increasing land-use pressure in the middle mountains of Nepal. Soil Use Manage 10:137–142
Semwal RL, Maikhuri RK, Rao KS, Singh K, Saxena KG (2002) Crop productivity under differently lopped canopies of multipurpose trees in Central Himalaya, India. Agroforest Syst 56:57–63
Semwal RL, Nautiyal S, Sen KK, Rana U, Maikhuri RK, Rao KS, Saxena KG (2004) Patterns and ecological implications of agricultural land-use changes: a case study from central Himalaya, India. Agric Ecosyst Environ 102:81–92
Sharma S, Sharma E (1993) Energy budget and efficiency of some cropping systems in Sikkim Himalaya. J Sust Agric 3:85–94
Sherchan DP, Pilbeam CJ, Gregory PJ (1999) Response of wheat-rice and maize/millet systems to fertilizer and manure applications in the mid-hills of Nepal. Exp Agric 35:1–13
Singh A, Reddy VS, Singh JS (1995) Analysis of woody vegetation of Corbett National Park, India. Vegetatio 120:69–79
Singh GS, Rao KS, Saxena KG (1997) Energy and economic efficiency of the mountain farming system: a case study in the north-western Himalaya. J Sust Agric 9:25–49
Singh JS, Singh SP (1992) Forests of Himalaya: structure, functioning and impact of man. Gyanodaya Prakashan, Nainital, India
Singh SP, Mer GS, Ralhan PK (1988) Carbon balance for a central Himalayan crop field soil. Pedobiologia 32:187–191
Sirios ML, Margolis HA, Camire C (1998) Influence of remnant trees on nutrients and fodder biomass in slash and burn agroecosystems in Guinea. Agroforest Syst 40:227–246
Smeding FW, Joenjeb W (1999) Farm-nature plan: landscape ecology based farm planning. Land Urban Plan 46:109–115
Snedecor GW, Cochran WG (1967) Statistical methods. Oxford & IBH Publishing Company, New Delhi, India
Thadani R, Ashton PMS (1995) Regeneration of banj oak (Quercus leucotrichophora A. Camus) in the central Himalaya. For Ecol Manage 78:217–224
Tittonell P, Vanlauwe B, Leffelaar PA, Shepherd KD, Giller KE (2005) Exploring diversity in soil fertility management of smallholder farms in western Kenya. II. Within-farm variability in resource allocation, nutrient flows and soil fertility status. Agric Ecosyst Environ 110:166–184
Uhl C (1987) Factors controlling succession in a slash and burn agriculture. J Ecol 75:377–407
Wiersum KF (2004) Forest gardens as an ‘intermediate’ land-use system in the nature-culture continuum: characteristics and future potential. Agroforest Syst 61:123–134
Zhang Q-J, Fu B-J, Chen L-D, Zhao W-W, Yang Q-K, Liu G-B, Gulinck H (2004) Dynamics and driving factors of agricultural landscape in the semiarid hilly area of the Loess Plateau, China. Agric Ecosyst Environ 103:535–543
Acknowledgements
We are grateful to the Director, G.B. Pant Institute of Himalayan Environment and Development for the facilities, to the CSIR, New Delhi and TSBF-CIAT, Nairobi for partial financial support and to the two anonymous reviewers for their comments/suggestions leading to improvement of the manuscript.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Singh, K., Maikhuri, R.K., Rao, K.S. et al. Characterizing land-use diversity in village landscapes for sustainable mountain development: a case study from Indian Himalaya. Environmentalist 28, 429–445 (2008). https://doi.org/10.1007/s10669-008-9164-6
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10669-008-9164-6