Effect of Eucalyptus globulus Plantations on Soil Physicochemical Properties in the Upper Blue Nile, Ethiopia

Yimam, Abdurohman; Mekuriaw, Asnake; Assefa, Dessie; Bewket, Woldeamlak

doi:10.1155/2024/8811109

Applied and Environmental Soil Science

2024

DOI: 10.1155/2024/8811109

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Effect of Eucalyptus globulus Plantations on Soil Physicochemical Properties in the Upper Blue Nile, Ethiopia

Abdurohman Yimam,

Asnake Mekuriaw,

Dessie Assefa

et al.

Abstract: In recent years, there has been a substantial conversion of croplands and grasslands to short rotation Eucalyptus globulus plantations in the northern highlands of Ethiopia. This has raised concerns among researchers, policymakers, and environmentalists regarding potential adverse effects on soil fertility. To address these concerns, a study was conducted to evaluate the impact of Eucalyptus globulus plantations on selected soil physicochemical properties in the region. The study involved four land-use types, … Show more

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Cited by 3 publications

References 81 publications

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Comparative analysis of income level in matched small farms with and without eucalyptus plantations in Senan, Ethiopia

Belay,

Mulugeta,

Makonnen

et al. 2024

Trees, Forests and People

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Comparative analysis of income level in matched small farms with and without eucalyptus plantations in Senan, Ethiopia

Belay,

Mulugeta,

Makonnen

et al. 2024

Trees, Forests and People

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Improving soil chemical properties and tef (Eragrostis tef) productivity with Acacia decurrens‐based fallow in northwestern Ethiopia

Tadele,

Adgo,

Meshesha

2024

Soil Use and Management

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Following land degradation and the associated reduction in crop production, smallholder farmers in the highlands of northwestern Ethiopia have recently practiced Acacia decurrens‐based fallow system. Despite the rapid expansion of this new cropping system, its effect on soil properties and crop productivity has never been exhaustively studied. We assessed the effects of A. decurrens‐based fallow system on soil properties and tef (Eragrostis tef) productivity under the existing production environment on farmers' fields using: (i) tef cultivation under the fallow system in two rotations which represent 5 and 10 years of continuous fallow period (fallowed lands); (ii) conventional tef cultivation system (ST system); (iii) tef cultivation on fallowed lands in the first rotation for two consecutive years; (iv) ST system adjoining a 4‐year‐old acacia woodlot; and (v) interview with local farmers. The results showed that fallowed lands in the first and second rotations improved soil properties and tef productivity with greater effects in the second rotation. Compared to the ST system, fallowed lands in both rotations significantly increased soil pH, soil organic carbon (SOC), available P, total N and cation exchange capacity (CEC), but decreased exchangeable Al3+. Tef aboveground biomass and grain yields were increased by 74% and 93% in the first rotation and 103% and 167% in the second rotation over the ST system, respectively. Similarly, height was increased by 9% in the first rotation and 17% in the second rotation. Fallowed lands sustained positive effects on soil fertility and tef productivity over two successive production years highlighting that the fallow system can benefit farmers through the cultivation of two annual crops in 2 years. Significant tef yield reductions occurred over the first 10 m distance from the acacia woodlot. Soil moisture, pH, SOC, available P, total N and CEC were higher at croplands close to the acacia woodlot. According to the farmers, the fallow system can improve tef productivity and reduce the need for inorganic fertilizer by 50%. Overall, the results demonstrated that fallowing with A. decurrens can reduce soil acidity and restore nutrients for sustainable crop production; and the shading effect could be the limiting factor for tef production on croplands adjacent to the acacia woodlots.

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Impacts of Land Use Types and Soil Depth on Soil Fertility Status in Dende Kebele, West Gojjam Zone, Ethiopia

Bayle

2024

International Journal of Forestry Research

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Land use change and soil depth lead to subsequent changes in soil physicochemical properties in the northern highlands of Ethiopia. These changes in soil properties indicate a shift in soil fertility levels. The purpose of this study was to examine the impacts of different land use types and soil depths on soil fertility status in Dende Kebele, West Gojjam Zone, Ethiopia. The study utilized a randomized complete block design (RCBD) experimental design, with various land use categories serving as treatments. The study area was purposefully divided into three land use types (Eucalyptus plantation, grazing, and cropped land) and two soil layers (0–20 and 20–40 cm) with three replications. A total of 18 composite soil samples were collected for laboratory analysis. The interaction between land use types and soil depth had a significant impact (p < 0.001) on particle size distribution, field capacity (FC), permanent wilting point (PWP), pH, organic carbon (OC), and exchangeable (K+ and Na+) and available micronutrients. The soil texture within the study area was classified as clay. The soil had low to medium bulk density (BD), very high total porosity (TP) and medium available water holding capacity (AWHC). The pH ranged from strongly to moderately acidic with low to medium levels of OC and TN. Available phosphorus (AP) was extremely low, while exchangeable Mg+2 and Ca+2 were high, and Na+ was low to medium. Levels of Fe, Mn, and Zn were high, while Cu levels were low to medium. Overall, the findings suggest that soil fertility was higher in Eucalyptus plantation soils compared to cropped land, highlighting the importance of soil fertility management for sustainable agriculture in the area.

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Effect of Eucalyptus globulus Plantations on Soil Physicochemical Properties in the Upper Blue Nile, Ethiopia

Cited by 3 publications

References 81 publications

Comparative analysis of income level in matched small farms with and without eucalyptus plantations in Senan, Ethiopia

Comparative analysis of income level in matched small farms with and without eucalyptus plantations in Senan, Ethiopia

Improving soil chemical properties and tef (Eragrostis tef) productivity with Acacia decurrens‐based fallow in northwestern Ethiopia

Impacts of Land Use Types and Soil Depth on Soil Fertility Status in Dende Kebele, West Gojjam Zone, Ethiopia

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