Agroforestry systems and soil surface management of a tropical alfisol: I: Soil moisture and crop yields

Lal, Rattan

doi:10.1007/bf00159066

Cited by 68 publications

(25 citation statements)

References 16 publications

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“…Alley cropping, an agroforestry system comprising rows of nitrogen-®xing trees or bushes separated by rows of cereals, has long been the focus of research (Kang, et al, 1984;Attah-Krah and Francis, 1987;Lal, 1989). Many productive and sustainable systems, needing few or no external inputs, have been developed.…”

Section: Fundamental Contradictions Of Recent Soil and Water Conservamentioning

confidence: 99%

Making Soil and Water Conservation Sustainable: From Coercion and Control to Partnerships and Participation

Pretty

Shah

1997

Land Degrad. Dev.

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Section: Fundamental Contradictions Of Recent Soil and Water Conservamentioning

confidence: 99%

Making Soil and Water Conservation Sustainable: From Coercion and Control to Partnerships and Participation

Pretty

Shah

1997

Land Degrad. Dev.

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“…One of the sites with yield increases was a highland area in Rwanda with bimodal rainfall, where typical crop yields were very low (Balasubramanian and Sekayange, 1991); at the other site, soil and hedgerow management were very good (Bunderson, 1992). In subhumid environments (rainfall between 1000 Akyeampong and Hitimana, 1996;Balasubramanian and Sekayange, 1991;Bundersen, 1992;Chiyenda and Materechera, 1989;Duguma et al, 1994;Evensen et al, 1995;Fernandes et al, 1993;Hauser and Kang, 1993;ICRAF, 1995;Kang, 1993;Kang et al, unpublished;Kass et al, 1995;Lal, 1989a;Matthews et al, 1992a, b;Mathuva et al, 1997;Mittal and Singh, 1989;Mugendi et al, 1997;Mureithi et al,1994;Rao et al, 1991a;Rosecrance et al, 1992;Schroth et al, 1995b;…”

Section: Effect On Crop Yieldsmentioning

confidence: 99%

“…Boundary plantings of eucalyptus have been widely reported to affect adjacent crops due to allelopathy (Willis, 1991). Lal (1989a) reported poor germination and seedling establishment of cowpea in leucaena and gliricidia hedgerow systems in Ibadan, Nigeria, which often resulted in lower yields of cowpea under HI than in sole crop control. Interestingly, maize germination was not affected by the hedgerows.…”

Section: Allelopathymentioning

confidence: 99%

Biophysical interactions in tropical agroforestry systems

Rao¹,

Nair²,

Ong³

1998

Forestry Sciences

111

124

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Abstract. The rate and extent to which biophysical resources are captured and utilized by the components of an agroforestry system are determined by the nature and intensity of interactions between the components. The net effect of these interactions is often determined by the influence of the tree component on the other component(s) and/or on the overall system, and is expressed in terms of such quantifiable responses as soil fertility changes, microclimate modification, resource (water, nutrients, and light) availability and utilization, pest and disease incidence, and allelopathy. The paper reviews such manifestations of biophysical interactions in major simultaneous (e.g., hedgerow intercropping and trees on croplands) and sequential (e.g., planted tree fallows) agroforestry systems.In hedgerow intercropping (HI), the hedge/crop interactions are dominated by soil fertility improvement and competition for growth resources. Higher crop yields in HI than in sole cropping are noted mostly in inherently fertile soils in humid and subhumid tropics, and are caused by large fertility improvement relative to the effects of competition. But, yield increases are rare in semiarid tropics and infertile acid soils because fertility improvement does not offset the large competitive effect of hedgerows with crops for water and/or nutrients. Whereas improved soil fertility and microclimate positively influence crop yields underneath the canopies of scattered trees in semiarid climates, intense shading caused by large, evergreen trees negatively affects the yields. Trees in boundary plantings compete with crops for above-and belowground resources, with belowground competition of trees often extending beyond their crown areas. The major biophysical interactions in improved planted fallows are improvement of soil nitrogen status and reduction of weeds in the fallow phase, and increased crop yields in the subsequent cropping phase. In such systems, the negative effects of competition and microclimate modification are avoided in the absence of direct tree-crop interactions.Future research on biophysical interactions should concentrate on (1) exploiting the diversity that exists within and between species of trees, (2) determining interactions between systems at different spatial (farm and landscape) and temporal scales, (3) improving understanding of belowground interactions, (4) assessing the environmental implications of agroforestry, particularly in the humid tropics, and (5) devising management schedules for agroforestry components in order to maximize benefits.

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“…Reasons for non-adoption and adaptation of SC technologies * Farmers feel that they are unlikely to reap expected benefits because of a lack of secure access to land (Bunch, 1982: 45;Sanders, 1988;Comia et al, 1994;Wachter, 1994). * Labour costs involved in establishment and maintenance of technologies are too high, especially if farmers periodically work off-farm (De Janvry et al, 1989;Douglas, 1993;Zimmerer, 1993;Critchley et al, 1994;Stocking, 1995;Garrity et al, 1997;Lal, 1989). * Technologies do not reliably reduce soil loss and, even if they do, the reduction does not, immediately, raise yields (Pretty, 1995: 51).…”

Section: Honduras: Epitomizing the Challenge Faced By Farmersmentioning

confidence: 97%

Better land husbandry in Honduras: towards the new paradigm in conserving soil, water and productivity

Hellin

Haigh

2002

Land Degrad Dev

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Land shortages are forcing more smallholder farmers to cultivate tropical steeplands. Resulting accelerated soil erosion is being countered by the promotion of soil conservation (SC) technologies, such as cross-slope barriers, which aim to reduce soil loss and preserve land productivity. However, farmer adoption rates tend to be low. This is often attributed to the farmers' conservatism or lack of education. Research in Honduras's steeplands demonstrates that farmers value SC, provided that it promotes agricultural production. Field research from 1995-98, involving farmed test plots on slopes greater than 35 per cent (19 degrees), demonstrates that at least one typical SC technology-live barriers of Vetiveria zizanioides (vetiver grass)-has little or no impact on maize yield. This means that farmers see little benefit from their investment in the SC method. They find that erratic rainfall, pests and diseases and a lack of economic resources are far greater threats to their livelihoods than soil erosion. Consequently, SC has a low priority. Keeping soil in place avoids major off-farm disbenefits. However, the SC technique tested here made no discernible difference to slope foot sediment yields during the life of this study. In sum, a new approach is needed. Promoting 'Better Land Husbandry' strategies, which seek to combine farmers' concerns about productivity with conservationists' concerns about reducing soil erosion-often via cover-management-seem to be the best way forward.

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Agroforestry systems and soil surface management of a tropical alfisol: I: Soil moisture and crop yields

Cited by 68 publications

References 16 publications

Making Soil and Water Conservation Sustainable: From Coercion and Control to Partnerships and Participation

Making Soil and Water Conservation Sustainable: From Coercion and Control to Partnerships and Participation

Biophysical interactions in tropical agroforestry systems

Better land husbandry in Honduras: towards the new paradigm in conserving soil, water and productivity

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