Productivity and economic feasibility of cultivated forage and food crops in the central highlands of Ethiopia

The study was conducted to evaluate the yield performance of improved forage and food crops and to estimate the profitability of fodder and food crops in Holetta and Ejere areas, central highlands of Ethiopia during 2019 and 2020 cropping seasons. The experiment was laid out in randomized complete block design with three replications and evaluated two annual forage crops, two perennial forage crops, and two cereal food crops. Data on herbage dry matter (DM) yield was collected for forage crops while straw and grain yields were measured for food crops. Partial budget analysis was made to evaluate the economic feasibility of forage and food crops production. The result revealed that the herbage DM yield varied (P<0.05) at each location during each production year and combined over years and between the two locations. The straw and grain yields of food crops also varied (P<0.05) between the two production years and locations. The nutritive values of herbage and straw yields of forage and food crops differed (P<0.05) for all measured parameters. The crude protein and in-vitro dry matter digestibility of perennial forage crops were relatively higher than annual forage crops and straw of food crops. The partial budget analysis result indicated that the gross revenue (GR) and net return (NR) obtained from food crops were the highest followed by annual forage crops while the least was recorded from perennial forage crops during the first year of production. However, perennial forage crops produced the higher GR and NR than food crops and annual forage crops in the second year of production. In the second year of production, among the forage crops, Desho grass generated 308, 293, 287, and 232% while Rhodes grass generated 99, 92, 90, and 62% more NR than wheat, sole oat, barley, and oat/vetch mixtures, respectively. The benefit-cost ratio (BCR) of perennial forage crops was the lowest (3.0 for Desho and 1.6 for Rhodes) in the first year of production but the ratio was the highest (17.2 for Desho and 8.6 for Rhodes) in the second year of production. This confirms the better economic feasibility of perennial forage crops as they can be maintained using minimal management cost once they have been established

Improving adoption of technologies and interventions for increasing supply of quality feed in low- and middle-income countries

The global increase in the demand for and production of animal-source foods (four-to five-fold increase between 1960 and 2015), which has been mostly concentrated in low- and middle-income countries (LMIC), provides smallholder livestock producers with an opportunity for improving their livelihoods and food and nutrition security. However, across livestock production systems in many LMIC, limited supplies and high cost of good quality feed severely constrains exploitation of this opportunity. In many of such countries, feeds and feeding-related issues are often ranked as the primary constraint to livestock production and increased consumption of animal-source foods. Here we review the complex biophysical, socio-economic and technological challenges related to improving quality feed supply and the reasons for generally low adoption of apparently proven feed enhancement technologies. We describe also successful interventions and conclude by recommending strategies for improving quality feed supply in LMIC that account for and overcome the prevailing challenges

Replacing commercial concentrate by Ficus thonningii improved productivity of goats in Ethiopia

Ficus thonningii (FT) is an important multipurpose fodder tree providing economic and ecological benefits across arid and semi-arid areas in Africa. Despite its availability in many Sub-Saharan African countries, there is lack of information on its effect on animal productivity. Twenty-four male weaned highland goats of age 7 ± 1.5 months were randomly assigned to four dietary treatments in a completely randomized block design. All animals were fed wheat straw, water, and salt licks ad libitum. The control group (T1) was fed concentrate mixture at 2 % of their body weight, while in T2, T3, and T4, 25, 50, and 75 % of the weight of concentrate (DM basis), respectively, was replaced by sun dried FT leaf meal. FT leaf meal had acceptable levels crude protein (CP), neutral detergent fiber (NDF), and tannins and has resulted in increased body weight in all treatments. Goats fed T3 diet showed significantly higher (P < 0.05) values in terms of feed intake, body weight gain, some carcass attributes, and local meat quality indicators than the rest of the treatments. An increase in proportion of FT leaf meal beyond 50 %, however, resulted in decreased body weight gain, and other carcass parameters, despite increased feed intake. Therefore, F. thonningii can be used to replace commercial concentrate mixture up to 50 % to improve feed intake and productivity of Ethiopian highland goats

Research NoteEstimation of browse biomass of Ficus thonningii, an indigenous multipurpose fodder tree in northern Ethiopia

Ficus thonningii is a multipurpose browse tree in northern Ethiopia. Despite its importance, techniques for quantifying its browsable biomass have not been developed. To develop best-estimation equations, the dendrometric parameters total height (H), crown height (CH), crown diameter (CD), diameter at stump height (DSH), diameter at breast height (DBH), crown depth (CDp), crown area (CA) and crown volume (CV) were measured from 12 sampled trees comprising three age ranges. Leaves and edible twigs of the sampled trees were clipped, oven dried, weighed and recorded as dry weight (DW). Regression analysis and a multicollinearity test were employed to remove non-significant predictors of DW. Results showed that only CV, CA, CD, CDp and DSH showed a strong correlation with DW. There was high collinearity between CD and CA, CD and CV, and CA and CV. However, CV and DSH had a higher correlation with DW than their counterparts, which suggested their use in the model. Therefore, the best allometric equation was: DW = 0.8470*CV &#8722; 0.2202*DSH &#8722; 1.5315 (R2 = 0.99). This equation estimated that F. thonningii produces a very high amount of browsable biomass at all ages compared to common fodder species. The model can be used to plan the browsing rate and understand the ecological role of the species.Keywords: allometry, indigenous fodder trees, TigrayAfrican Journal of Range &amp; Forage Science 2012, 29(1): 25&#8211;3

Silvopastoral system based on Ficus thonningii: an adaptation to climate change in northern Ethiopia

This study in northern Ethiopia investigated local people’s perception of climate change and the role of indigenous silvopastoralism in adaptation to that change. Two hundred and forty respondents participated in a questionnaire survey and group discussions. Local communities perceive climate change in terms of biophysical and socioeconomic indicators. In selecting, evaluating and comparing fodder trees for a climate-resilient silvopastoral system, local farmers used 20 criteria of varying importance and belonging to three categories: animal-based, plant-based and multipurpose. In terms of suitability for climate-resilient silvopastoral system, Ficus thonningii was ranked first among the top 10 species of trees with a composite score of 8.7 out of 10, followed by Cordia africana, Eucalyptus cameldulensis and Rhus natalensis. Locally developed protocols for propagation and use of F. thonningii have enabled establishment of a climate-resilient, sustainable silvopastoral system. As this practice combines climate change mitigation and adaptation, silvopastoral practices using locally adaptable species are recommended.Keywords: agroforestry, arid, browse, cattle, climate chang

Silvopastoral system based on Ficus thonningii: An adaptation to climate change in northern Ethiopia

This study in northern Ethiopia investigated local people's perception of climate change and the role of indigenous silvopastoralism in adaptation to that change. Two hundred and forty respondents participated in a questionnaire survey and group discussions. Local communities perceive climate change in terms of biophysical and socio-economic indicators. In selecting, evaluating and comparing fodder trees for a climate-resilient silvopastoral system, local farmers used 20 criteria of varying importance and belonging to three categories: animal-based, plant-based and multipurpose. In terms of suitability for climate-resilient silvopastoral system, Ficus thonningii was ranked first among the top 10 species of trees with a composite score of 8.7 out of 10, followed by Cordia africana, Eucalyptus cameldulensis and Rhus natalensis. Locally developed protocols for propagation and use of F. thonningii have enabled establishment of a climate-resilient, sustainable silvopastoral system. As this practice combines climate change mitigation and adaptation, silvopastoral practices using locally adaptable species are recommended

Traditional gender inequalities limit pastoral women’s opportunities for adaptation to climate change: Evidence from the Afar pastoralists of Ethiopia

Abstract Climate change affects different demographic groups differently. Pastoral women, being among the poorest of the poor, are expected to be highly vulnerable to climate change. However, empirical evidence on gender-differentiated vulnerability and adaptive capacity is limited. A triangulation of different techniques including focused group discussions, individual interviews, case studies and structured observations was used to see if there is a difference in factors that determine the level of vulnerability and adaptive capacity between Afar men and women. Gender inequality inherent in the Afar customary tradition (Adda) acts as a risk multiplying factor, resulting in women being more vulnerable than men to climate change-induced food insecurity and related risks. Moreover, men have better scores in different variables determining vulnerability and adaptive capacity, including wealth ownership, wealth inheritance, household-level decision power, opportunities for community-level participation, household burdens and health or body mass index (BMI). Despite their limited scores in many of these factors, Afar pastoral women make higher contributions to household-level adaptation to recurrent drought and weather variability. A gendered approach that recognizes the difference in potentials, limitations and vulnerabilities of pastoral women and men is required for successful implementation of adaptation measures