Factors Affecting Small-Scale Farmers’ Land Allocation and Tree Density Decisions in an <Emphasis Type="Italic">Acacia decurrens</Emphasis>-Based <Emphasis Type="Italic">taungya</Emphasis> System in Fagita Lekoma District,North-Western Ethiopia     

Zerihun Nigussie  Atsushi Tsunekawa  Nigussie Haregeweyn  Enyew Adgo  Makoto Nohmi  Mitsuru Tsubo  Dagnachew Aklog  Derege Tsegaye Meshesha  Steffen Abele 《Small-Scale Forestry》2017,16(2):219-233

The development of woodlots as an additional source of livelihood and as a land management option for small-scale farmers is a challenging issue in the cereal-based subsistence farming systems of north-western Ethiopia. There is a need to understand why and which factors determine the decisions of small-scale farmers to grow short-rotation woodlots on their land. Data used in this study were collected from a survey of 200 randomly selected households in the region. A Tobit regression model was used to determine predictor variables for farmers’ decisions to allocate land to planting Acacia decurrens (J.C. Wendl.) Willd. and at what density trees are planted on the respective plots. The most important motivations for planting A. decurrens were income, soil fertility management, and soil and water conservation. Having a male head of household, long distance to markets and plots being on marginal land, among other factors, increased the allocation of land to A. decurrens woodlots. Having a male head of household, access to credit and plots being on marginal land, among other factors, increased tree planting density. Age had a negative effect on both allocation of land to woodlots and tree density, whereas farm size had an inverted U-shaped relationship with both decisions. These results suggest that wider expansion of A. decurrens-based plantation systems could be achieved through improving extension, credit access and road infrastructure to connect small-scale farmers to markets and finance.  相似文献   

Reservoir sedimentation and its mitigating strategies: a case study of Angereb reservoir (NW Ethiopia)     

Nigussie Haregeweyn  Bekure Melesse  Atsushi Tsunekawa  Mitsuru Tsubo  Derege Meshesha  Bedru Babulo Balana 《Journal of Soils and Sediments》2012,12(2):291-305

Purpose  

The Angereb dam in northwestern Ethiopia was commissioned in 1997 to serve as a domestic water supply for 25 years. However, its sustainability is being threatened by rapid sedimentation. The overall objective of this study was to understand reservoir sedimentation in this tropical highland watershed and to propose its mitigating strategies that would contribute to the improved planning and management of reservoirs in similar regions.  相似文献   

Mitigating the anti-nutritional effect of polyphenols on in vitro digestibility and fermentation characteristics of browse species in north western Ethiopia     

Mekuriaw  Shigdaf  Tsunekawa  Atsushi  Ichinohe  Toshiyoshi  Tegegne  Firew  Haregeweyn  Nigussie  Nobuyuki  Kobayashi  Tassew  Asaminew  Mekuriaw  Yeshambel  Walie  Misganaw  Tsubo  Mitsuru  Okuro  Toshiya 《Tropical animal health and production》2020,52(3):1287-1298

Tropical Animal Health and Production - Browse species are important sources of forage for livestock in Ethiopia, especially during the dry season, when the quality and quantity of green herbage is...  相似文献   

Continuing land degradation: Cause–effect in Ethiopia's Central Rift Valley     

D. T. Meshesha  A. Tsunekawa  M. Tsubo 《Land Degradation \u0026amp; Development》2012,23(2):130-143

The Central Rift Valley (CRV) is one of the most environmentally vulnerable areas of Ethiopia. Most of the lowland in the CRV is arid or semiarid, and droughts occur frequently. We studied the dynamics of land use and cover and land degradation by analyzing Landsat data from 1973, 1985, and 2006 using Geographic Information Systems and remote sensing techniques. The analysis revealed that in the last 30 years, water bodies, forest, and woodland decreased by 15·3, 66·3, and 69·2 per cent, respectively; intensive cultivation, mixed cultivation/woodland, and degraded land increased by 34·5, 79·7, and 200·7 per cent. The major causes of land use and cover change (LUCC) and land degradation in the area were population and livestock growth in regions of limited resources, unsustainable farming techniques, the Ethiopian land tenure system and poverty. Lake level and area decline, and accelerated land degradation are the major environmental impacts of LUCC observed in the CRV. The environmental and socio‐economic consequences of LUCC and land degradation are far‐reaching. As a result of the expansion of land degradation over time, agricultural productivity has decreased and worsened food insecurity (shortages) and poverty in the Ethiopian CRV. In addition, if current trends in LUCC continue, Lake Abiyata will dry up by 2021. A detailed study of the degradation amount in relation to soil erosion, sediment yield to the lakes and catchment characteristics should be made using adaptable models; so as to guide the implementation of comprehensive and sustainable land use management by giving more attention to erosion prone areas. Copyright © 2010 John Wiley & Sons, Ltd.  相似文献   

Aboveground biomass response to increasing nitrogen deposition on grassland on the northern Loess Plateau of China     

Xiangwei Han  Atsushi Tsunekawa  Mitsuru Tsubo  Shiqing Li 《Acta Agriculturae Scandinavica, Section B - Plant Soil Science》2013,63(2):112-121

Abstract

The fragile ecosystem of China's Loess Plateau is being exposed to increasing atmospheric nitrogen deposition but little information about the response of the region's natural vegetation is currently available. We studied the responses of aboveground biomass (AGB) to simulated nitrogen deposition in a field experiment conducted on natural grassland on sunny and shady slopes. Three levels of simulated nitrogen deposition were applied, and two treatments with phosphorus were included to test for secondary phosphorus limitation. For the same level of nitrogen deposition, grass generally grew better on the shady slope than on the sunny slope. Compared to a control treatment with no additional nitrogen, we found: (1) the 2.5 g N m^?2 yr^?1 treatment significantly increased biomass only on the sunny slope; (2) the total AGB increased significantly in the 5 g N m^?2 yr^?1 treatment on both the shady slope (by 31%) and the sunny slope (by 25%); and (3) for 10 g N m^?2 yr^?1, AGB was also significantly increased, however, phosphorus limitation became more apparent, and soil nitrate N levels increased significantly, suggesting nitrogen saturation and the potential for nitrate pollution. The AGB of Stipa bungeana (the dominant grass) was significantly increased by nitrogen, but not by phosphorus. The biomass of the second dominant species Lespedeza davurica Schindl., was not affected by increased nitrogen but addition of phosphorus had some positive impact. Therefore, nitrogen deposition was proven to have effects on plant growth in our study area on the Loess Plateau of China, but high level of nitrogen deposition would result in P limitation. Furthermore, increasing nitrogen deposition is likely to induce diversity change.  相似文献   

Frequency of occurrence of various drought types and its impact on performance of photoperiod-sensitive and insensitive rice genotypes in rainfed lowland conditions in Cambodia     

M. Tsubo  S. Fukai  J. Basnayake  M. Ouk 《Field Crops Research》2009,113(3):287-296

Lowland rice production in the Mekong region is generally low because crops are cultivated under rainfed conditions and often exposed to drought. To examine how field water availability affects productivity of different genotypes in rainfed lowland rice, the field experiments were carried out for six years at eight locations in Cambodia. We classified 34 genotypes used in the experiments into photoperiod-insensitive [short (IS) and medium (IM) maturity] and sensitive [medium (SM) and long-duration (SL) maturity] genotype groups. Mean days-to-flower from sowing was 87 in IS, 112 in IM, 112 in SM and 132 in SL and mean grain yield was 2.0, 2.8, 2.5 and 2.4 t ha⁻¹, respectively. Drought environment was quantified for each experiment by determining whether free water level was observed to be less than the soil surface during three growth stages: GS1 (maximum tillering), GS2 (panicle development) and GS3 (grain filling). The drought frequency estimated from 44 field experiments was 18% in all IM, SM and SL at GS1, 23%, 25% and 32% in IM, SM and SL, respectively at GS2, and 43%, 45% and 57% at GS3. Thus, the drought occurred more frequently after flowering, particularly in the SL group. Based on the results, the IM genotypes may be grown to escape from drought during the GS2 and GS3 periods by sowing early (June) in the drought environment. When sown late (August), the SM genotypes are exposed to less drought risk because they flower earlier than the IM genotypes. Compared with the SM genotypes, the SL genotypes are highly exposed to water stress during the GS3 period, resulting in yield reduction. SM and IM had similar occurrence of drought environment, but yield reduction due to drought was less in SM than in IM. Thus, photoperiod-sensitive cultivars with medium maturity are preferred in drought-prone lowland fields, particularly when sowing is delayed. In the favourable water environment, the SM genotypes can be better than the IM genotypes when sown early in the season, while the IM genotypes performs better than the SM genotypes with late sowing. This suggests that for lowland fields without drought photoperiod-insensitive cultivars are recommended and photoperiod-sensitive cultivars can be preferred if sown early.  相似文献   

Shade Effects on Phaseolus vulgaris L. Intercropped with Zea mays L. under Well-Watered Conditions     

M. Tsubo  S. Walker 《Journal of Agronomy and Crop Science》2004,190(3):168-176

Field experiments were carried out under unstressed conditions of soil water during two summer crop growing seasons (1998–99 and 1999–2000 seasons) in a South African semi‐arid region (Bloemfontein, Free State, South Africa). The aim of this study was to investigate shade effects on beans intercropped with maize in terms of plant mass and radiation use. The experimental treatments were two cropping systems (no shading/sole cropping and shading/intercropping) and two row orientations (north–south and east–west). At the top of bean canopies shaded by maize, incident radiation was reduced by up to 90 %. Shading reduced total dry matter of beans by 67 % at the end of the growing season, resulting in yield losses. The dry matter partitioning into leaf and stem (the ratios of leaf and stem to total biomass) was about 50 % higher in intercropping than sole cropping. In contrast, intercropped beans had 40 % lower dry matter partitioning into pod (the ratio of pod to total biomass). Fraction of radiation intercepted by sole‐cropped beans steeply increased until canopy closure (0.9) and then slowly decreased, while fraction of radiation intercepted by intercropped beans remained constant between 0.0 and 0.2 throughout the growing seasons. However, intercropped beans had 77 % higher radiation use efficiency (RUE) than sole‐cropped beans. In contrast, for maize, no effect of intercropping (shading) was found on growth, partitioning, yield, radiation interception or RUE. Consequently, lower bean yield losses can be attained in association with late shading rather than early shading. This can be controlled by growing crops with different temporal and spatial treatments. As regards row treatment, no effect of row direction was found on growth, partitioning, yield, radiation interception or RUE.  相似文献   

Genotype-by-environment interactions for grain yield associated with water availability at flowering in rainfed lowland rice     

M. Ouk  J. Basnayake  M. Tsubo  S. Fukai  K.S. Fischer  S. Kang  S. Men  V. Thun  M. Cooper 《Field Crops Research》2007

While a large genotype-by-environment (G × E) interaction component of variance for grain yield (GY) has been widely reported for rainfed lowland rice, the reasons for such large interactions are not well known. A random reference population of 34 genotypes taken from the Cambodian rice improvement program was used to examine the magnitude and nature of G × E interactions for GY in Cambodia. These genotypes were evaluated in a multi-environment trial (MET) conducted across 3 years (2000–2002) and eight locations in the rainfed lowlands. The G × E interaction was partitioned into components attributed to genotype-by-location (G × L), genotype-by-year (G × Y) and genotype-by-location-by-year (G × L × Y) interactions. The G × L × Y interaction was the largest component of variance for GY. The G × L interaction was also significant and comparable in size to the genotypic component (G). The significant G component was partly explained by a group of four genotypes that were broadly adapted to different environmental conditions represented by three environmental groups. The three environmental groups were identified from a pattern analysis, and the grouping was partly related to the time of sowing, and hence water availability at flowering. A major factor contributing to the large G × L × Y interactions for GY was late maturing genotypes being affected greatly when soil water availability at flowering was reduced greatly, compared to earlier maturing genotype groups. While the differential genotypic responses to the water availability environment explained part of a large G × E interaction for GY, other non-water related environmental conditions also appeared to have contributed to the interaction. Three target environments were identified for focusing efforts of the breeding programs in Cambodia, and four putative genotypes were selected for their high yield and wide adaptation in the rainfed lowlands.  相似文献