Effects of micro-catchment rain water-harvesting on survival and growth of multipurpose trees and Shrubs in Nyando District, Western Kenya

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Effects of micro-catchment rain water-harvesting on survival and growth of multipurpose trees and Shrubs in Nyando District, Western Kenya

Rono Jennifer, Koech Eric, Kireger Eliud, Mburu Francis
Int. J. Agron. Agri. Res.3( 1), 17-25, January 2013.
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Abstract

The productivity potential of dry lands is usually low hence normal crop production is usually next to impossible. This places greater value on the perennial vegetation, especially multipurpose trees and shrubs which too require some form of water management. Sesbania sesban, Gliricidia sepium, Casuarina equisetifolia, Grevillea robusta and Eucalyptus grandis seedlings were planted on micro-basins, semi-circular bunds, V-shaped bunds, sunken pits and a control pit at the beginning of the rainy season in March 2007. The experiment was replicated three times. Survival rate, height and root collar diameter measurements were taken during planting and subsequent data collected after every two months throughout the study period of nine months. Data was analyzed by use of GENSTAT 5.0 and the significant means were separated using LSD at P ≤ 0.05. Use of micro-catchments improved seedling survival by between 32.1% and 85.7% while Individual trees species survival varied from 68.3% to 89.2% with Grevillea robusta being the best performer. The different species depicted significantly (P ˂ 0.05) better growth in height and Root collar Diameter (RCD) at different levels in micro-catchments as compared to the control. Micro-basins posted comparatively higher growth in both height and growth for all the tree species. The use of micro-catchments can improve the survival and growth of adaptable trees in semi-arid environments.

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Boers  ThM,  Ben-Asher  J.  1982.  A  review  of rainwater harvesting. Agricultural Water Management 5, 145-158.

Boland DJ, Brooker MH, Chippendale G M, Hyland N, Johnston RD, Kleinig DA, Turner JD. 1984. Forest trees of Australia. Nelson-CSIRO Melbourne, Australia, 687.

Bunch R. 2000. Keeping it simple: what resource poor farmers will need from agricultural engineers during the next decade. Journal of Agricultural Engineering Research 76, 305-8.

Cheboi J. 1997. Results of an Establishment Experiment 1988-1993. ASAL’s Afforestation Trials in Kitui, Kenya. In Kenya Forestry Research Institute Newsletter No. 26 January, 1997.

Doran JC, Turnbull JW. 1997. Australian Trees and Shrubs: Species for Land Rehabilitation and Farm Planting in the Tropics. ACIAR Monograph No. 24. Australian Centre for International Agricultural Research, Canberra.

Duke JA. 1983. Casuarina equisetifolia JR and G Forst. Center for New Crops and Plant Products, Purdue University.

Elevitch CR, and Francis JK. 2006. Gliricidia sepium (gliricidia), ver. 2.1. In: Elevitch CR. ed. Species Profiles for Pacific Island Agroforestry. Permanent Agriculture Resources (PAR), Hōlualoa, Hawai‘i.

Evans DO, Macklin B. 1990. Perennial Sesbania Production and Use. NFTA (Nitrogen Fixing Tree Association) Hawaii, USA, 41.

FAO. 2005. Properties and Management of Drylands. Food and Agriculture Organization of the United Nation/United Nation Environment Program, Rome.

Fenton R, Roper RE, Watt GR. 1977. Lowland tropical hardwoods. An annotated bibliography of selected species with plantation potential. Ministry of Foreign Affairs, Wellington, New Zealand, unpaged.

Hai MT. 1996. Water Harvesting Experiences for fruit production in ASAL areas of Kenya: A case study of Kaumoni Demonstration, Mwingi District. Paper presented at the First National Agroforestry Conference, 25-29 march 1996, Muguga, Nairobi, Kenya.

Hijmans RJ, Cameron SE, Parra JL, Jones PG, Jarvis A. 2005. Very high resolution interpolated climate surfaces for global land areas. International Journal of Climatology 25, 1965-1978.

Kriek W. 1967. Report on species and provenance trials on montane forest sites in Kigezi District. Uganda Forest Department, Technical Note 140, Kampala, 67.

Kung’u JB, Namirembe S. 2012. The Nyando Atlas: Mapping out the Ecosystem Condition by Agro Ecological Landscape of Nyando River Basin. World Agroforestry Centre, Nairobi, Kenya.

Macviar CN. 1977. Soil Classification. A Binomial System for South Africa. Pretoria: Dept of Agricultural Technical Services

Maundu P, Tengnas B. 2005. Useful Trees and Shrubs for Kenya. Nairobi: World Agroforestry Centre, 484

NAS. 1980. Firewood crops. Shrub and tree species for energy production. National Academy of Sciences, Washington, DC.

Norman H. 1970. Blue-leaved mallee, Eucalyptus polybractea R.T. Bak. syn. E. fruticetorum F. Muell in part (Forest tree series). Dept. of National Development, Forestry and Timber Bureau.

Nzioka SM, Menin L K, Dzowela BH. 1991. The evaluation of Sesbania sesban var nubica and Sesbania goetzei in a semi-arid environment in eastern Kenya. Collaborative Research on Sesbania in East and Southern Africa. Proceedings of an AFRNET Workshop held in Nairobi 9–14 September 1991. African Feed Research Network. Nairobi, Kenya ISBN 92–9053–266–1 Printed at ILCA, Addis Ababa, Ethiopia.

Ochieng EO, Muturi GM, Stewart M. 1989. Tree Establishment and Protection. In A Dryland Forestry Handbook for Kenya. Kenya Forestry Research Institute, Nairobi.

Oweis T, Hachum A, Kijne J. 1999. Water harvesting and supplementary irrigation for improved water use efficiency in dry areas. SWIM Paper 7, International Water Management Institute, Colombo, Sri Lanka, 41

Republic of Kenya. 2007. Food Security District Profile, Nyando District, Nyanza Province.

Rocheleau D, Weber F, Field JA. 1988. Agroforestry in Dryland Africa. World Agroforestry Centre, Nairobi, Kenya.

Sharma KD, Pareek OP, Singh HP. 1986. Microcatchment water harvesting for raising Jujube orchards in an arid climate. Trans. ASAE 29 (1), 112– 118.

Siegert K. 1994. Introduction to water harvesting. Some basic principles for planning, design and monitoring. In: FAO, Water Harvesting For Improved Agricultural Production. Expert Consultation, Cairo, Egypt 21-25 Nov. 1993, p. 9-23, FAO, Rome. 60.

Snyder SA. 1992. Species: Casuarina spp., U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory, Fire Effects Information System.

Verchot L, Boye A, Zomer R. 2008. Baseline Report: Nyando River Basin, Western Kenya Integrated Ecosystem Management Project Findings from the Baseline Surveys, International Centre for Research in Agroforestry, Nairobi, Kenya.

Wagner WL, Herbst DR and Sohmer SH. 1999. Manual of the flowering plants of Hawaii. Revised edition. Bernice P. Bishop Museum special publication. University of Hawai‘i Press/Bishop Museum Press, Honolulu,1919.

Waruru BK, Wanjogu SN, Njoroge CRK, Wagate, PN.2003. Erosion hazard within the river Nyando catchment, Lake Victoria basin, Kenya. Proceedings in Soil Science Society of East Africa (SSSEA), Annual Conference, 21, Nairobi (Kenya), Kenya Agricultural Research Institute,47-56.

Whistler  WA,  Elevitch  CR.  2006.  Casuarina equisetifolia (reach she-oak) and C. cunninghamiana (river she-oak), ver. 2.1. In: Elevitch CR, ed. Species Profiles for Pacific Island Agroforestry. Permanent Agriculture Resources (PAR), Hōlualoa, Hawai‘i.

Wood PJ, Burley J. 1991. A Tree for All Reasons: The Introduction and Evaluation of Multipurpose Trees in Agroforestry. ICRAF, Nairobi-Kenya.

Xiao-Yan L, Lian-You L, Shang-Yu Gao, Pei-Jun S, Xue-Yong Z, Chun-Lai Z. 2005. Microcatchment water harvesting for growing Tamarix ramosissima in the semiarid loess region of China. Forest Ecology and Management 214, 111– 117.