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Soil property changes in contour hedgerow systems on sloping land in the Philippines
Authors:S. Samsuzzaman  D. P. Garrity  R. U. Quintana
Affiliation:(1) On-Farm Research Division, Bangladesh Agricultural Research Institute, RARS, Ishurdi, 6620 Pabna, Bangladesh;(2) South-East Asian Regional Research Programme, ICRAF, Jalan Cifor, PO Box 161, Bogor, 16001, Indonesia;(3) Department of Agronomy, UPLB, Laguna, 4031, Philippines;(4) Rangpur Dinajpur Rural Service, Dhap, Rangpur, Bangladesh
Abstract:The impact of contour hedgerow systems on soil sustainability under acidic conditions has been widely criticized. A study was undertaken to determine the effects of management and hedgerow species on soil properties. Cassia spectabilis (a non-N-fixing tree legume), Gliricidia sepium (an N-fixing tree legume), Pennisetum purpureum (a forage grass), and Stylosanthes guyanensis (a forage legume) contour barriers were compared with an open field (non-hedgerow treatment) over 1 cowpea and 2 rice seasons. Three types of management viz.: prunings applied + N0P0K0, prunings applied + N50P20K20 and prunings removed + N50P20K20 were used as subplot treatments. The soils were strongly acidic (pH 4.5) and classified as clay Orthoxic Palehumult. Cassia performed better than the other species in terms of pruning biomass, N and P contributions over a period of 20 months. There was a combined positive effect of pruning biomass and fertilizers on rice and cowpea yields in Pennisetum and Gliricidia systems, while a tendency towards a positive effect of pruning biomass on rice was found in the Cassia system. The pruning biomass and/or fertilizer application did not significantly influence the top soil organic C, N and available P in the hedgerow systems. Soil bulk density was significantly reduced by the application of Cassia prunings after 12 months. Organic C, N and P dynamics indicated that in situ pruning biomass was not sufficient to maintain their level in the soil. But the cassia systems with prunings applied + N50P20K20 experienced the lowest degradation in soil organic C (2.1 t ha−1) followed by the Gliricidia systems (4.1 t ha−1). The overall results imply that the application of pruning and inorganic fertilizer is imperative to conserve soil resources, and non- N-fixing tree species can exert a significant advantage in biomass and thereby in soil N-recycling under acidic soil. This revised version was published online in June 2006 with corrections to the Cover Date.
Keywords:acid soil  alley cropping  hedge-crop competition  nutrient dynamics  soil fertility  sustainability
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