Tree planting on degraded lands play a key role in forest rehabilitation processes through afforestation and/or reforestation. Moisture harvesting structures (MHSs) has significant impact on seedling survivals at degraded lands. The objectives of this study were to investigate the impact of water harvesting techniques on seedling survival and growth performance of trees. Field experiments were conducted for two rainy seasons in southern Tigray, Atsela watershed. The experimental design followed was the split plot design. The MHSs as main plot used were eye-brow basins (EBs), micro trench (MTs), improved pit (IPs) and as control normal pit (NPs). The tree species grown as subplots were Eucalyptus camaldulensis, Grevillea robusta, Olea europaea and Cupressus lusitanica. The four tree species were planted by using seedlings. The tree survival rate, height, crown width (CW) and root collar diameter (RCD) of the four tree species were measured every six months after transplanting. The result shows that MHSs were significant in tree seedling height, CW and RCD but not in tree survival rate. Tree seedling height and CW grown in EBs were significantly higher than those grown in MTs, IPs and NP (P≤0.05). RCD of tree seedling was higher when grown in EBs than NP (control) (P≤0.05). The interaction of tree species seedlings and MHSs shows that those seedlings grown on MHSs were significantly thicker, taller and more survived than those grown on the NPs (control) (P≤0.05). So based on the experiments, it is concluded that MHSs particularly the eyebrow basin was considered as the most appropriate planting pit. Therefore, further demonstration of eyebrow basin tree planting should be carried out.
In the varying climate and weather environments and fast-growing population, the production of feed that could meet the demand of this ever-growing population will be challenging with limited land, soil, and water resources. In many developing countries, terraces have been constructed in sloppy, hilly and valley areas to rectify their shortage of cultivated land and severe water erosion problems to meet livelihood demands. In the southern zone of Tigray region, various labor-intensive bench terraces (BTs) have been constructed and are on the way of construction. Despite its coverage and labor intensiveness, these terraces are facing problems such as malfunctioning and collapse of structures leading to unsustainability, unproductiveness and additional labor and material costs. Thus, this study was designed to identify the basis of the above-mentioned problems and to put real solutions for the problems. A multi-disciplinary evaluation of BTs from natural resources and socioeconomic researchers was conducted to identify observational gaps in the stability and sustainability of the terraces and to put ways forward. Technical assessment and measurement of BTs were conducted onsite to evaluate and compare the specification with the recommended specification. Inappropriate site selection, water scarcity, free-grazing and neglected maintenance, poor buffer zone, and stone placement were directly or indirectly major reasons for the failure of bench terrace (BT) structures. Most of the BTs were not supported with biological soil and water conservation materials. Site selection and technical standards of BTs should be done based on recommended specifications with continuous follow-up.
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