Farmers’ Preference and Knowledge on Indigenous Multipurpose Browse Species Towards Their Feed Value in North Western Ethiopia

Ayenew, Almaz; Tolera, Adugna; Nurfeta, Ajebu; Assefa, Getnet

doi:10.56369/tsaes.3124

Cited by 12 publications

(21 citation statements)

References 6 publications

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“…The study indicated that farmers used multiple criteria such as feed value, multifunctionality, growth rate, biomass yield, and compatibility to evaluate the ILFTS which marked the farmers' preference measures for the ILFTS as multifaceted (Table 2). In agreement with the current study, various studies in Ethiopia have unveiled the multiple criteria employed by farmers to evaluate fodder trees (Ayenew et al, 2021;Mekoya et al, 2008); however, some emphasized certain criteria. For instance, availability and feed value were the major criteria to evaluate fodder trees in northwestern Ethiopia (Ayenew et al, 2021) and southern Ethiopia (Mitiku, 2018) due to critical feed shortages during the dry season.…”

Section: Farmers' Preference Of Ilftssupporting

confidence: 88%

“…In addition to flourishing with deep roots system capable of absorbing water far from the surface, they produce considerable biomass of leaves, twigs, fruits, and pods which can bridge the feed supply gap commonly observed during dry periods (Abraham et al, 2022;Lelamo, 2021). Fodder trees and shrubs have high nutrient content and digestibility, though this varies by species and season (Ayenew et al, 2021;Yayneshet et al, 2009). In particular, the crude protein (CP) content of fodder trees is above the minimum requirement for normal microbial function of the rumen, so it is usually recommended to supplement poor-quality fiber-based diets (Andualem et al, 2021;Brown et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Nutritional Quality of Indigenous Legume Browse in the Southern Ethiopia: Farmers’ Preference and Correlation of Local Valuation of Feed Value with Scientific Indicators

Abraham¹,

Kechero²,

Andualem³

2023

Preprint

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The research was carried out in southern Ethiopia to determine farmers' preferences for indigenous legume fodder trees and shrubs (ILFTS), as well as the relationship between local feed valuation and scientific parameters. A focus group discussion (FGD) was conducted with ten farmers in each agro-ecological zone to determine the benchmarks for the preference ratings. The respondent farmers used the preference score sheet to rate all the ILFTS on an individual basis. Twenty farmers with extensive experience in ILFTS took part in the preference score ranking of each plant species in each agroecological zone. Dry matter (DM), organic matter (OM), Ash, crude protein (CP), neutral detergent fiber (NDF), acid detergent fiber (ADF), acid detergent lignin (ADL), and metabolizable energy (ME) content of samples were determined. The standard two-stage in-vitro approach was used to measure the in vitro dry matter digestibility (IVDMD) of samples. ANOVA was used to analyze the variation among the species in agroecosystems. Farmers evaluated the ILFTS using a variety of parameters, according to the study (feed value, growth rate, biomass output, compatibility, and multifunctionality). The farmers ILFTS preference score with the evaluation criteria differed considerably (P<0.05) in agro-ecological zones. The nutritive value of ILFTS was in acceptable range for feeding ruminants though exhibited a wide variation among the species in agroecological zones. The CP content was above the minimum requirement (8%) to support the normal function of rumen microorganisms. Moreover, CP exhibited positive significant correlation with IVDMD, IVOMD and DOMD unlike the CT and ADL which exhibited negative significant correlation. Thus, ADL and CT were identified as feed fractions that inhibit IVDMD by either by depressing the activity of rumen microorganisms or restricting enzyme access to cell wall components. Conversely, the DM, OM, CP, IVDMD, IVOMD, DOMD and ME were shown a positive significant correlation with farmers feed value preference score, unlike the ADL and CT which exhibited a negative significant correlation. In conclusion, Farmers' indigenous knowledge of feed value is therefore relevant to some extent for judging the nutritive value of the ILFTS and could complement the scientific indicators.

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Section: Farmers' Preference Of Ilftssupporting

confidence: 88%

Section: Introductionmentioning

confidence: 99%

Nutritional Quality of Indigenous Legume Browse in the Southern Ethiopia: Farmers’ Preference and Correlation of Local Valuation of Feed Value with Scientific Indicators

Abraham¹,

Kechero²,

Andualem³

2023

Preprint

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“…For instance, Kodzo et al. (2018) reported 34 multipurpose fodder trees and shrubs in four land uses, which is higher than the current study, though (Ayenew et al., 2021) 16 in two niches, and (Chepape et al., 2011; Marius et al., 2017) 17 species, which is lower. The variation in the number of fodder trees and shrubs in different studies might be associated with the scope of the research, the type of land use, area of land coverage, and agroecological zone of the study.…”

Section: Discussioncontrasting

confidence: 60%

“…Several authors described the multipurpose of legume fodder trees for their services and products such as biological nitrogen fixation, diversification of livestock's diets, shades, carbon sequestration, bee forage, timber, charcoal, firewood, biodiversity conservation, TA B L E 5 Species richness and the diversity of ILFTS in land uses with agroecological zones (N = 60) Franzel et al, 2014;Lelamo, 2021;Meaza & Demssie, 2015). Some of the ILFTS identified in the study resemble those characterised by some authors in Ethiopia (Abera & Yasin, 2018;Derero & Kitaw, 2018;Lelamo, 2021;Shenkute et al, 2012;Sisay et al, 2017;Weldemariam & Gebremichael, 2015) and other east Africa countries (Mtengeti & Mhelela, 2006;Rubanza et al, 2007) probably due to the and shrubs in four land uses, which is higher than the current study, though (Ayenew et al, 2021) 16 in two niches, and (Chepape et al, 2011;Marius et al, 2017) 17 species, which is lower. The variation in the number of fodder trees and shrubs in different studies might be associated with the scope of the research, the type of land use, area of land coverage, and agroecological zone of the study.…”

Section: Discussionsupporting

confidence: 53%

Indigenous legume fodder trees and shrubs with emphasis on land use and agroecological zones: Identification, diversity, and distribution in semi‐humid condition of southern Ethiopia

mihiretu

Kechero

Andualem

et al. 2022

Veterinary Medicine & Sci

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Background Fodder trees and shrubs are among the strategic feed resources that complement the dry season feed supply in the tropics. They are an integral element of the farming system incorporated into different land uses and deliver multiple functions, even though their diversity relies on various anthropogenic, physiographic, and agroecological factors. Objective The study aimed to identify indigenous legume fodder trees and shrubs (ILFTS) and estimate their diversity in terms of land use and agroecological zones in southern Ethiopia's Gamo landscape. Method Respondent households were selected using a stratified multistage sampling procedure. Information about the ILFTS was gathered through key informant interviews conducted in each agro‐ecological zone. A total of 273 households from three agro‐ecological zones were selected and interviewed using a semi‐structured questionnaire to assess ILFTS. The information acquired by the questionnaire survey was complemented with a focus group discussion held with 10 respondents in each agro‐ecological zone. Herbarium samples were collected for each of the species for identification and confirmation of the botanical names. Sixty randomly selected sampling plots of each with a dimension of 20 m × 20 m were created, and inventories of ILFTS species were performed and recorded on species inventory sheets. The Shannon–Wiener diversity index (H) was used to determine the species diversity. Result The study identified 21 ILFTS that have been an integral constituent of the land uses recognised for their multiple functions in all agroecological zones. The mean species richness and diversity indices of the ILFTS differed significantly with land use and agroecological zones, where the lowland area closure exhibited the highest, and the highland homesteads and highland grazing land revealed the least. Conclusion Farmers’ indigenous knowledge and previous experience determined the species richness and diversity of ILFTS in farmlands and homesteads; however, the level of exploitation or protection was the reason for variation in area closure and grazing lands.

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“…Recently, studies have been conducted to explore novel fodder trees and shrubs that have the potential forage resource for ruminants (Abraham et al, 2022;Ayenew et al, 2021;Shenkute et al, 2012). Yet, a wide variety of plant secondary metabolites found in fodder trees and shrubs challenges their nutritional contribution due to the manifestation of the adverse effects on animals when taken above a certain level (Naumann et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

In-vitro gas production kinetics and methane emission potential of selected indigenous legume fodder tree and shrubs in the semi-humid condition of the southern Ethiopia

mihiretu

Kechero

Andualem

2022

Preprint

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The aim of the study was to determine the in-vitro gas production characteristics and methane emission potential of the indigenous legume fodder tree and shrub (ILFTS). The most common 11 ILFTS species were selected and the leaves, fruit and pod samples were collected, oven dried and ground for experimental analysis. The potential leaf biomass yield was estimated by measuring the stem diameter. The contents of dry matter (DM), organic matter (OM), ether extract (EE), crude protein (CP), acid detergent lignin (ADL), Ash, total phenolic (TP) and condensed tannin (CT) were analyzed. The Gross energy (GE), digestible crude protein (DCP), digestible energy (DE), total digestible nutrient (TDN), digestible carbohydrate (DCHO), digestible crude fat (DCF) and metabolizable energy (ME) were estimated. In-vitro gas production technique was used to determine the gas production characteristics and methane emission potential of the ILFTS. Metabolizable energy (ME, MJ /Kg DM), organic matter digestibility (OMD) and short-chain fatty acids (SCFA, µmol) were calculated using the values of proximate analysis and gas volume. The study indicated a wide variation in the nutritional value parameters among the ILFTS species. The potential leaf biomass yield, nutritive quality, gas volume, gas production characteristics and methane emission potential, OMD, ME, and SCFA revealed significant variation with species and agroecological zones. Moreover, GE, TDN, DE, TP and CT showed negative correlation with the gas volume unlike methane which showed positive correlation. In general, the gas volume, gas production characteristics and methane emission of the ILFTS species depends on their chemical and cell wall composition. Thus among the ILFTS species examined Acacia hocki leaf and Acacia tortilis pod in the lowland excelled in their nutritional quality for feeding ruminants however the midland species had comparable qualities.

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Farmers’ Preference and Knowledge on Indigenous Multipurpose Browse Species Towards Their Feed Value in North Western Ethiopia

Cited by 12 publications

References 6 publications

Nutritional Quality of Indigenous Legume Browse in the Southern Ethiopia: Farmers’ Preference and Correlation of Local Valuation of Feed Value with Scientific Indicators

Nutritional Quality of Indigenous Legume Browse in the Southern Ethiopia: Farmers’ Preference and Correlation of Local Valuation of Feed Value with Scientific Indicators

Indigenous legume fodder trees and shrubs with emphasis on land use and agroecological zones: Identification, diversity, and distribution in semi‐humid condition of southern Ethiopia

In-vitro gas production kinetics and methane emission potential of selected indigenous legume fodder tree and shrubs in the semi-humid condition of the southern Ethiopia

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