Projected benefit-cost analysis of agri-silvicultural system: vegetable crops intercropping with Salix alba (Willow)

Aijaz Hussain Mir; M. A. Khan

doi:10.1007/s11676-008-0061-0

Journal of Forestry Research ›› 2008, Vol. 19 ›› Issue (4) : 335 DOI: 10.1007/s11676-008-0061-0

Research Paper

Projected benefit-cost analysis of agri-silvicultural system: vegetable crops intercropping with Salix alba (Willow)

Aijaz Hussain Mir ¹^,^a
, M. A. Khan ¹

Author information +

History +

PDF

Abstract

An experiment upon an agri-silvicultural system involving Willow (Salix alba) tree, Kale (Brassica oleracea var. acephala) and Knol khol (Brassica oleracea var. caularapa) was laid in randomized block designed at farmers’ willow field at Shalimar near Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir, Srinagar India during 2005 and 2006. The main plot was divided into sub-spots with 8 m × 2 m in size each in which four two-year-old willow (Salix alba) trees were at a spacing of 2 m × 2 m in a sub-spot. The intercrops were maintained at recommended spacing and supplied with recommended doses of fertilizers. The benefit-cost ratio in willow plantation intercropped with vegetable crops of Kale and Knol Khol was analyzed and compared with the benefit-cost ratio of sole willow tree forestry. The results showed that every rupee invested in plantation of agri-silvicultural system generates benefit-cost ratio of 2.78 and 2.79 in case of Willow intercropping with Kale and Willow with Knol khol, respectively, while as for sole crop of willows benefit-cost ratio was calculated to be 2.66. These results provided circumstantial evidence in favour of adopting agroforestry involving willow instead of Sole tree forestry.

Keywords

benefit-cost ratio / intercrops / Salix alba (Willow) / vegetable crops

Cite this article

Download citation ▾

Aijaz Hussain Mir, M. A. Khan. Projected benefit-cost analysis of agri-silvicultural system: vegetable crops intercropping with Salix alba (Willow). Journal of Forestry Research, 2008, 19(4): 335 DOI:10.1007/s11676-008-0061-0

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Adler A., Dimitriou I., Aronsson P., Verwijst T., Weih M. Wood fuel quality of two Salix viminalis stands fertilised with sludge, ash and sludge-ash mixtures Biomass and Bioenergy, 2008, 32(10): 914-925.

[2]	Ahmad P. Eucalyptus in Agroforestry: its effects on agricultural production and economics Agroforestry Systems, 1989, 8: 31-38.

[3]	Akachuku A.E. Cost-benefit analysis of wood and food components of agri-silviculture in Nigerian forest zone Agroforestry Systems, 1985, 3: 307-316.

[4]	Bridgeman T.G., Jones J.M., Shield I., Williams P.T. Torrefaction of reed canary grass, wheat straw and willow to enhance solid fuel qualities and combustion properties Fuel, 2008, 87(6): 44-856..

[5]	Foereid B., Bro R., Mogensen V.O., Porter J.R. Effects of windbreak strips of willow coppice-modelling and field experiment on barley in Denmark Agriculture, Ecosystems and Environments, 2002, 93(1–2): 25-23.

[6]	Gilmour D.A., Fischer R.J. Villagers, forests and foresters: the philosophy, process and practice of community forestry in Nepal, 1991 Kathmandu (Nepal): Sahayogi Press 45-56.

[7]	Gilmour D.A., Nurse M.C. Farmer initiatives in increasing tree cover in central Nepal Mountain Research and Development, 1991, 11: 329-337.

[8]	Grimble R.J., Aglionby J., Quant J. Tree resources and environmental policy: A stakeholders approach, 1994 Chatham, (UK): Natural Resources Institute 67-90.

[9]	Gruenewald H., Brandt B.K.V., Schneider B.U., Bens O., Kendzia G., Hüttl R.F. Agroforestry systems for the production of woody biomass for energy transformation purposes Ecological Engineering, 2007, 29(4): 319-328.

[10]	Heaton R.J., Randerson P.F., Slater F.M. The economics of growing short rotation coppice in the uplands of mid-Wales and an economic comparison with sheep production Biomass and Bioenergy, 1999, 17(1): 59-71.

[11]	Jain S.K., Singh P. Performance of intercrops in agroforestry systems. The case study of poplar (Populus deltoides) in Uttar Pradesh (India) Indian Forester, 1999, 12(2): 195-205.

[12]	Kareemulla K., Rai P., Rao G.R., Solanki K.R. Economic analysis of silvopastoral system for degraded landed under rain fed conditions Indian Forester, 2002, 128(12): 1346-1350.

[13]	Lawrence W.R. The valley of Kashmir (1895), 1998 Srinagar (India): Chinar Publishing House 1-465.

[14]	Majumdar HK. 1991. Biomass productivity and nutrient budgeting in different agroforestry systems. Ph.D. Thesis submitted to Dr. Y.S. Parmar University of Horticulture and Forestry: Solan H.P. (India), p. 40–110.

[15]	Mir A.H. Willow (Salix alba L.) in Agroforestry: Its effects on some agricultural crops, 2007 Shalimar Srinagar (India): University of Agricultural Sciences and Technology of Kashmir 1-75.

[16]	MPFS. Master plan for the forestry sector, 1991 Kathmandu (Nepal): Ministry of Forests and Soil Conservation 150-210.

[17]	Pathak P.S. Economic analysis of silvopastoral system, 1991 Bangkok, Thailand (PRC): Faculty of Forestry, Kassetsart University 1-150.

[18]	Ralhan P.K., Negi G.C.S., Singh S.P. Structure and function of the agroforestry system in the Pithoragarh district of Central Himalaya: an ecological viewpoint Agriculture, Ecosystems and Environment, 1991, 35: 283-296.

[19]	Reddy Y.V.R., Korwar G.R. A comparative evaluation in agriculture and silvopastoral systems in drylands Agricultural Situation in India, 1985, 40(8): 705-708.

[20]	Roy M.M. Silvopastoral systems Agroforestry Today, 1999, 11(1–2): 24-26.

[21]	Semwal R.L., Maikhuri R.K. Structure and functioning of traditional hill agroecosystems of Garhwal Himalaya Biological Agriculture and Horticulture, 1996, 13: 267-289.

[22]	Sharma R., Sharma E., Purohit A.N. Dry matter production and nutrient cycling in agroforestry systems of mandarin grown in association with Albizia and mixed tree species Agroforestry Systems, 1995, 29: 165-179.

[23]	Singh G.S., Rao K.S., Saxena K.G. Energy and economic efficiency of the mountain farming system: a case study in the north-western Himalaya Journal of Sustainable Agriculture, 1997, 9: 25-49.

[24]	Sundriyal R.C., Rai S.C., Sharma E., Rai Y.K. Hill agroforestry systems in south Sikkim Agroforestry Systems, 1994, 26: 215-235.

[25]	Thapa B., Sinclair F.L., Walker D.H. Incorporation of indigenous knowledge and perspectives in agroforestry development. Part 2: Case study on the impact of explicit representation of farmers’ knowledge Agroforestry Systems, 1995, 30(1–2): 249-261.

[26]	Toky O.P., Kumar P., Khosla P.K. Structure and function of traditional agroforestry systems in the western Himalaya. I. Biomass and productivity Agroforestry Systems, 1989, 9: 47-70.

[27]	Volk T.A., Abrahamson L.P., Nowak C.A., Smart L.B., Tharakan P.J., White E.H. The development of short-rotation willow in the northeastern United States for bioenergy and bioproducts, agroforestry and phytoremediation Biomass and Bioenergy, 2006, 30(8–9): 715-727.