Assessment Of Major Honey Bee Flora Resources On Selected Districts Of Sidama And Gedeo Zones Of South Nations Nationalities And Peoples Regional State, Ethiopia
A field experiment was conducted to study the effects of plant spacing and phosphorus rates on yield related traits and yield of faba bean (Viacia faba L.) at Farmers Training Center, Duna District during 2015 summer cropping season. Three intra-rows spacing (5, 10 and 15 cm), three inter-rows spacing (30, 40 and 50 cm) and three phosphorus rates (0, 46 and 92 kg/ha) were tested. The experiment was laid out as a randomized complete block design (RCBD) and was replicated three times. Improved faba bean variety (Degaga) was ued as test crop. Phenological growth parameters yield and yield related data were collected and their ANOVA was analyzed using GenSta 5th edition and while treatment means were significantly different, they were separated using Least Significant Difference (LSD) at 5% probability level. There was highly significant (P<0.01) effect of the highest rate of phosphorus (92 kg P2O5 ha-1) on days to flowering, days to maturity, leaf area index, effective nodules per plant, plant height , primary tillers plant-1, seeds pod-1, hundred seed weight, grain yield, above ground dry biomass and harvest index. Significantly lowest days to flowering (54.3 days) after emergence and highest plant height (105.63 cm), leaf area (1073 cm2), seeds pod-1(3.57), grain yield (2633 kg ha-1), dry biomass (8108kg ha-1) and harvest index (32.47) were obtained from the highest rate of P (92 kg P2O5 ha-1). For all inter-rows spacing, the leaf area, number of primary tillers, pods plant-1, seeds pod-1 and hundred seed weight were increased as intra-row spacing increase and the highest leaf area (1084 cm2), primary tillers (2.99) and hundred seed weight (54.59 g) were obtained from the widest (50 cm) inter-row spacing, while the highest effective nodules (59.56) and leaf area index (3.51) were resulted from the narrowest (30 cm) inter-row spacing. On the other hand, the interaction effects of inter and intra-row spacing significantly influenced, number of pods plant-1, number of seeds pod-1, above ground dry biomass, grain yield and harvest index. The 30 cm inter-row by 15 cm intra-row spacing gave the highest grain yield (2495 kg ha-1), harvest index (35.79%) and pods plant-1(19.68) whereas the highest dry biomass (8738 kg ha-1) was obtained from 30 cm x 5 cm spacing combination. Thus, it can be concluded that application of 92 kg P2O5 ha-1 rate of phosphorus at 30 x 15 cm spacing combination proved to be superior with respect to grain yield in the study area. However, further study at least for one more cropping season under different soils is required to reach at conclusive recommendation.
Importance, biology, epidemiology, and management of Xanthomonas campestris p...Melkamu Fufa
Enset [Ensete ventricosum (Welw.) Cheesman] is an economically, nutritionally, and industrially important
root crop in Ethiopia. However, many biotic and abiotic factors are negatively affecting and reducing the
production and productivity of the crop in Ethiopia and elsewhere. Of the various bacterial plant diseases
limiting enset productivity, bacterial wilt caused by Xanthomonas campestris pv. musacearum is one of
the major cosmopolitan and destructive pathogens in all enset-growing areas. This piece of work was
undertaken to: 1) review the economic importance and ecological requirements of enset and the extent of
total yield loss due to Xcm; 2) review the biology and ecological requirements of the pathogen leading to
epidemics; and 3) compile the management options for sustainable enset production and productivity.
This review highlights various studies on the importance of the disease and the efforts employed so far in
the management of this highly destructive disease to enset production. To achieve these objectives, data
and information were gleaned from different sources of journals, theses, books, proceedings and
symposium papers, relevant compendia, internet resources and personal communications. From the
review insight, it is confirmed that there is no single best enset wilt management option available that
farmers rely on and there is a lack of resistant varieties. Cultural and sanitary measures are the only
methods most frequently used across the enset-growing areas and are found to be fruitful in community
mobilization to create awareness among the farming community. In the future, awareness creation and
regular field monitoring are vital, while the development of resistant or tolerant varieties is mandatory.
Evaluating the Response Of Maize (Zea Mays L.), Varieties To Plant Population...paperpublications3
Abstract: A field experiment was conducted during 2011 small rainy season (Belg) at Elefeta Farmer Training Center (FTC), in west Badewacho Woreda, Hadiya Zone, with the objectives to determine the optimum proportion of maize-haricot bean intercropping for maximum productivity and economic benefit; evaluate the performance of different maize varieties intercropped with haricot bean; identify the optimum haricot bean population density of intercropped with different maize varieties; and Estimate economic benefits of maize haricot bean intercropping. Three varieties of maize (PHB3253 Jabi, PHB30G19 Shone and Local) were planted intercropped with four haricot bean population densities (D1 = 62,500; D2 = 125,000; D3 = 187500; D4 = 250,000) arranged in Randomized Complete Block Design (RCBD) with three replications. In this study, sole cropped maize’s varieties gave significantly (P<0.05)><0.05)> with 100 % haricot bean population density is recommended for intercropping for their better compatibility and economic benefit with haricot bean as compared to other varieties and population densities in the study area.
Evaluating the Response Of Maize (Zea Mays L.), Varieties To Plant Population...paperpublications3
Abstract: A field experiment was conducted during 2011 small rainy season (Belg) at Elefeta Farmer Training Center (FTC), in west Badewacho Woreda, Hadiya Zone, with the objectives to determine the optimum proportion of maize-haricot bean intercropping for maximum productivity and economic benefit; evaluate the performance of different maize varieties intercropped with haricot bean; identify the optimum haricot bean population density of intercropped with different maize varieties; and Estimate economic benefits of maize haricot bean intercropping. Three varieties of maize (PHB3253 Jabi, PHB30G19 Shone and Local) were planted intercropped with four haricot bean population densities (D1 = 62,500; D2 = 125,000; D3 = 187500; D4 = 250,000) arranged in Randomized Complete Block Design (RCBD) with three replications. In this study, sole cropped maize’s varieties gave significantly (P<0.05)><0.05)> with 100 % haricot bean population density is recommended for intercropping for their better compatibility and economic benefit with haricot bean as compared to other varieties and population densities in the study area.
Diversity of honey plants in the Sudanian zone: Case of the Ferme des Trois L...Open Access Research Paper
Honey plants are plants that produce a good amount of nectar and pollen that can be collected by bees to make honey. In the north of Côte d’Ivoire, beekeeping is an income-generating activity subject to climatic hazards. It is therefore necessary to study honey plants in the north of Côte d’Ivoire, which is an area of high honey production. The present study was carried out in the Ferme des Trois Lacs in the Department of Dabakala. The farm is one of the largest beekeeping farms in the North and the largest in the region. The study contributes to the knowledge of the honey plants of the Côte d’Ivoire and makes it possible to popularize beekeeping in the region. A total of 72 species of honey plants have been identified. They are divided into 66 genera and 29 botanical families. The richest family in species is the Fabaceae. These are more than half (55.5%) of the transition zone plants. The microphanerophyts are the most represented with 40.27%. The flora is dominated by shrubs at 33.72%. These plants mostly flower during the rainy seasons. Most are visited by bees for nectar. And finally, these plants are mostly spontaneous.
A field experiment was conducted to study the effects of plant spacing and phosphorus rates on yield related traits and yield of faba bean (Viacia faba L.) at Farmers Training Center, Duna District during 2015 summer cropping season. Three intra-rows spacing (5, 10 and 15 cm), three inter-rows spacing (30, 40 and 50 cm) and three phosphorus rates (0, 46 and 92 kg/ha) were tested. The experiment was laid out as a randomized complete block design (RCBD) and was replicated three times. Improved faba bean variety (Degaga) was ued as test crop. Phenological growth parameters yield and yield related data were collected and their ANOVA was analyzed using GenSta 5th edition and while treatment means were significantly different, they were separated using Least Significant Difference (LSD) at 5% probability level. There was highly significant (P<0.01) effect of the highest rate of phosphorus (92 kg P2O5 ha-1) on days to flowering, days to maturity, leaf area index, effective nodules per plant, plant height , primary tillers plant-1, seeds pod-1, hundred seed weight, grain yield, above ground dry biomass and harvest index. Significantly lowest days to flowering (54.3 days) after emergence and highest plant height (105.63 cm), leaf area (1073 cm2), seeds pod-1(3.57), grain yield (2633 kg ha-1), dry biomass (8108kg ha-1) and harvest index (32.47) were obtained from the highest rate of P (92 kg P2O5 ha-1). For all inter-rows spacing, the leaf area, number of primary tillers, pods plant-1, seeds pod-1 and hundred seed weight were increased as intra-row spacing increase and the highest leaf area (1084 cm2), primary tillers (2.99) and hundred seed weight (54.59 g) were obtained from the widest (50 cm) inter-row spacing, while the highest effective nodules (59.56) and leaf area index (3.51) were resulted from the narrowest (30 cm) inter-row spacing. On the other hand, the interaction effects of inter and intra-row spacing significantly influenced, number of pods plant-1, number of seeds pod-1, above ground dry biomass, grain yield and harvest index. The 30 cm inter-row by 15 cm intra-row spacing gave the highest grain yield (2495 kg ha-1), harvest index (35.79%) and pods plant-1(19.68) whereas the highest dry biomass (8738 kg ha-1) was obtained from 30 cm x 5 cm spacing combination. Thus, it can be concluded that application of 92 kg P2O5 ha-1 rate of phosphorus at 30 x 15 cm spacing combination proved to be superior with respect to grain yield in the study area. However, further study at least for one more cropping season under different soils is required to reach at conclusive recommendation.
Importance, biology, epidemiology, and management of Xanthomonas campestris p...Melkamu Fufa
Enset [Ensete ventricosum (Welw.) Cheesman] is an economically, nutritionally, and industrially important
root crop in Ethiopia. However, many biotic and abiotic factors are negatively affecting and reducing the
production and productivity of the crop in Ethiopia and elsewhere. Of the various bacterial plant diseases
limiting enset productivity, bacterial wilt caused by Xanthomonas campestris pv. musacearum is one of
the major cosmopolitan and destructive pathogens in all enset-growing areas. This piece of work was
undertaken to: 1) review the economic importance and ecological requirements of enset and the extent of
total yield loss due to Xcm; 2) review the biology and ecological requirements of the pathogen leading to
epidemics; and 3) compile the management options for sustainable enset production and productivity.
This review highlights various studies on the importance of the disease and the efforts employed so far in
the management of this highly destructive disease to enset production. To achieve these objectives, data
and information were gleaned from different sources of journals, theses, books, proceedings and
symposium papers, relevant compendia, internet resources and personal communications. From the
review insight, it is confirmed that there is no single best enset wilt management option available that
farmers rely on and there is a lack of resistant varieties. Cultural and sanitary measures are the only
methods most frequently used across the enset-growing areas and are found to be fruitful in community
mobilization to create awareness among the farming community. In the future, awareness creation and
regular field monitoring are vital, while the development of resistant or tolerant varieties is mandatory.
Evaluating the Response Of Maize (Zea Mays L.), Varieties To Plant Population...paperpublications3
Abstract: A field experiment was conducted during 2011 small rainy season (Belg) at Elefeta Farmer Training Center (FTC), in west Badewacho Woreda, Hadiya Zone, with the objectives to determine the optimum proportion of maize-haricot bean intercropping for maximum productivity and economic benefit; evaluate the performance of different maize varieties intercropped with haricot bean; identify the optimum haricot bean population density of intercropped with different maize varieties; and Estimate economic benefits of maize haricot bean intercropping. Three varieties of maize (PHB3253 Jabi, PHB30G19 Shone and Local) were planted intercropped with four haricot bean population densities (D1 = 62,500; D2 = 125,000; D3 = 187500; D4 = 250,000) arranged in Randomized Complete Block Design (RCBD) with three replications. In this study, sole cropped maize’s varieties gave significantly (P<0.05)><0.05)> with 100 % haricot bean population density is recommended for intercropping for their better compatibility and economic benefit with haricot bean as compared to other varieties and population densities in the study area.
Evaluating the Response Of Maize (Zea Mays L.), Varieties To Plant Population...paperpublications3
Abstract: A field experiment was conducted during 2011 small rainy season (Belg) at Elefeta Farmer Training Center (FTC), in west Badewacho Woreda, Hadiya Zone, with the objectives to determine the optimum proportion of maize-haricot bean intercropping for maximum productivity and economic benefit; evaluate the performance of different maize varieties intercropped with haricot bean; identify the optimum haricot bean population density of intercropped with different maize varieties; and Estimate economic benefits of maize haricot bean intercropping. Three varieties of maize (PHB3253 Jabi, PHB30G19 Shone and Local) were planted intercropped with four haricot bean population densities (D1 = 62,500; D2 = 125,000; D3 = 187500; D4 = 250,000) arranged in Randomized Complete Block Design (RCBD) with three replications. In this study, sole cropped maize’s varieties gave significantly (P<0.05)><0.05)> with 100 % haricot bean population density is recommended for intercropping for their better compatibility and economic benefit with haricot bean as compared to other varieties and population densities in the study area.
Diversity of honey plants in the Sudanian zone: Case of the Ferme des Trois L...Open Access Research Paper
Honey plants are plants that produce a good amount of nectar and pollen that can be collected by bees to make honey. In the north of Côte d’Ivoire, beekeeping is an income-generating activity subject to climatic hazards. It is therefore necessary to study honey plants in the north of Côte d’Ivoire, which is an area of high honey production. The present study was carried out in the Ferme des Trois Lacs in the Department of Dabakala. The farm is one of the largest beekeeping farms in the North and the largest in the region. The study contributes to the knowledge of the honey plants of the Côte d’Ivoire and makes it possible to popularize beekeeping in the region. A total of 72 species of honey plants have been identified. They are divided into 66 genera and 29 botanical families. The richest family in species is the Fabaceae. These are more than half (55.5%) of the transition zone plants. The microphanerophyts are the most represented with 40.27%. The flora is dominated by shrubs at 33.72%. These plants mostly flower during the rainy seasons. Most are visited by bees for nectar. And finally, these plants are mostly spontaneous.
Effects of nitrogen fertilizer rates on yield and yield components of sesame ...Premier Publishers
The productivity of sesame crop is low due to poor agronomic practice and inappropriate use of fertilizers in Gode district. Therefore, a field experiment was conducted under irrigation in the demonstration farm of Gode Polytechnic College, in 2014. The objective was to observe the effect of five N rates (0, 23, 46, 69 and 92kg ha-1) and three sesame varieties (Adi, Barsan and Mehado-80) on yield and yield components of sesame (Sesamumindicum L.). The experiment was designed according to randomized complete blocks in factorial arrangement with three replications. Results of the analysis revealed that the interaction effects of N rates and sesame varieties were highly significant (P<0.01) in relation to number of capsules per plant-1, thousand seed weight, aerial dry biomass weight, seed yield and harvest index. Barsan variety at 46 kg N ha-1 had significantly higher number of capsules plant-1 (46.07) and seed yield (2.08 t ha-1) and harvest index (0.24) than other interactions. Similar trend was observed in 1000 seed weight also except there was no significant difference with Mehado-80 variety at 69 kg N ha-1. Mehado-80 variety at 92 kg N ha-1 had highest aerial dry biomass yield which was statistically at par with Adi at 92 kg N ha-1 and Barsan from 46 to 92 kg N ha-1.Thus, according to the results of partial budget analysis, application of 46kg N ha-1 in Barsan variety was the best interaction than others in relation to yield and yield components of sesame under Gode conditions.
Intercropping of Maize(Zea mays L.) with Spear mint(Mentha spicata L.) as Sup...paperpublications3
Abstract: Field experiment was conducted in 2011 up to 2013 cropping season to investigate maize based farming system by inclusion of spearmint. The experiment was laid out in randomized complete block design with four replications.The result showed that sole planting of spearmint gave significantly higher essential oil yield, leaf fresh weight, above ground biomass than planting as intercropped with maize. However, intercropping didn’t show significant variation on plant height, shelling percentage and grain yield of the main crop. Land equivalent ratio (LER) indicated yield advantages for all intercrop combinations, especially at 42cm inter row spacing of spearmint intercropped with maize followed by 36cm inter row spacing of spearmint intercropped with maize. Similarly, Maize intercrop with spearmint at 42cm inter row spacing of spearmint gave higher monetary advantage index (41747) followed by 36cm inter row spacing of spearmint intercropped with maize (37496) than planted at sole. This indicate that intercropping maize at 42cm inter row spacing of spearmint followed by 36cm inter row spacing of spearmint is biologically efficient, economically feasible and more profitable than planting alone.
Keywords: Intercropping, Land Equivalent Ratio, Mentha spicata, Monetary Advantage, Supplementary, Zea mays
Genetic and Morphological Diversity Analysis of Ethiopian Mustard (Brasica ca...Premier Publishers
Growing of Ethiopian mustard, as an oilseed and leaf vegetable require genetic improvement which relies on its genetic diversity. The experiment was executed to analyse genetic and morphological diversity of Ethiopian mustard land races at Holetta agricultural research center. Forty-nine genotypes collected from different agro ecologies were analyzed using morphological traits in order to assess the genetic and morphological diversity that exists in these materials. The experiment was carried out in a simple lattice design. The analysis of variance showed that there were significant differences among genotypes for all traits compared except seed yield per plant, fresh leaf biomass per plant topped at 40, 50 and 60 days of growth and number of intact leaves at flowering. The significant difference indicates the existence of genetic variability among the accessions that is important for selection and breeding. For yield component traits, high genotypic and phenotypic coefficient of variations was observed in seed yield per plot and oil yield. This shows that selection of these traits based on phenotype, may be useful for yield improvement. The highest heritability in broad sense was recorded for thousand seed weight(68.80%), followed by days to flowering (65.91%), stand percent (63.14%), linolenic acid (62.58%), days to maturity(60.43%), plant height (59.63%), palmitic (58.19%), linoleic (57.46%),leaf area (52..09%), oil content (50.33%), leaf width (48.29%),leaf length(46.28%), oil yield(44.84%), fresh leaf biomass at 50 days of topping(43.40%), seed yield per plot(42.99%), number of leaves at vegetative state(40.48%), seed yield of 50 days growth stage topped plants(38.85%) and primary branches (34.20%). This suggests that large proportion of the total variance was due to high genotypic variance. Hence, a good progress can be made if some of these traits are considered as selection criteria for the improvement of yield, yield component and vegetative traits. The present study revealed the presence of considerable variability among genotypes for all traits compared except seed yield per plant, fresh leaf biomass per plant topped at 40,50 and 60 days of growth and number of intact leaves at flowering. These conditions indicate that there is good opportunity to improve these characters using the tested genotypes.
Profitability Analysis and Adoption of Improved Box Hive Technology by Small ...AI Publications
Beekeeping is common and one of the agricultural activities used as good source of off-farm income to farmers in Ethiopia in generally, and particularly in the study area. The objectives of the study are to identify determinant of adoption of improved box hive technology and profitability of smallholder farmers in study area. Multi-stage sampling was employed to identify sample respondents. The sample respondents were stratified into adopters and non-adopters of improved box hive. Out of 148 total sample respondents 30 adopters and 118 non-adopters were identified. The data were collected using structured interview schedule, key informant discussion and observation. Partial budgeting technique and econometric models were employed. Partial budgeting result reveals that the beekeepers get financial benefits by adopting improved box hive. The first hurdle result of adoption decision indicated that beekeeping experience, distance to woreda town, frequency of extension contact, sex, age, education status, access to input were significant factors. Further, the second hurdle result of intensity of adoption revealed that frequency of extension contact, livestock holding, age, sex, access to input, family size and labor force were found to be significant factors. Thus, the woreda office of agriculture and rural developments, NGO’s and concerned stockholders should give due attention to these significant variables in the study area to boost improved box hive adoption and its intensity use thereby increase profitability of small holder beekeepers.
Pollinator Management for Organic Seed Producers
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Growth and Yield Response of Bread Wheat Variety Grown Under Varying Seed Rat...Premier Publishers
Wheat is among the most important staple crop globally. However, constrained by appropriate agronomic practices. Therefore, the information on the interaction effect of seed rate and weeding period is useful to identify the effective time of weeding for high yield of wheat. Thus, the present study conducted at Amuru district of Horro Guduru Zone, Ethiopia in 2019 cropping season with the aim of identifying optimum seed rate and appropriate time of weeding to improve production and productivity of bread in the area. The experiment was laid down in randomized complete block (RCB) design with three replications. The treatment was arranged in factorial combinations of four weeding intervals (farmer practice, weeding at two weeks after emergence, three weeks after emergence and four weeks after emergence) and three levels of seed rate (125 kg, 150 kg and 175 kg-1).The result showed that days to 50% heading, days to maturity and effective tillers per plant were highly significantly (p<0.01) affected by the interaction effect of weeding time and seed rate. Moreover, interaction effect of weeding time and seed rate was significantly (p<0.01) affected the weed above ground dry biomass. Guizotia scabra (22.47%) with population density (370), Phalaris paradoxa (22.10%) with population (364), Plantago lanceolata (18.58%) with population density (306), and Bidens piloso L. (8.74%) were the dominant weed species competing with wheat in the study area. Minimum relative weed density (26.6%) weed dry biomass (1.7gm) and maximum weed control efficiency (98.08%) was recorded at weeding four weeks after emergence and 175kgha-1seed rate. Thus, the finding suggest grain yield was increased (52.3%) when weeding four weeks after emergence over farmers practice and 13.75% at 175kg seed rate.
Effect of Topping Levels and Days to Topping of Vernonia (Vernonia galamensis...Premier Publishers
Vernonia is commonly known as ironweed has got attention in the Ethiopian agricultural research system for its important uses as a biofuel crop. However, little information is available on the agronomic and growth habits of the plant for wider production purposes. Hence, an experiment was conducted to determine the optimum topping days and topping levels above the ground for the variability of seed maturity and seed yield. Two topping days (60 and 80 Days After Sowing [DAS]) and five topping levels above the ground (10 cm, 20 cm, 30 cm, 40 cm, and 50 cm) with non-topped treatment considered as a check were factorially arranged using randomized completed block design with three replications. Data on the growth, yield components, yield, and quality-related traits were collected for both factors. Hence, removing the apical dominance of vernonia resulted in uniform and 16 earlier days to seed maturity than the apical shoot intact plant. The interaction effects of both the topping days and topping levels were also influenced differently by the topping of vernonia. Hence, topping the apical shoot of vernonia on 80 DAS at 50 cm above the ground topping level resulted in 12.82% more seed yields and 16.36% more oil yields per hectare. However, further studies across locations, seasons, and with full irrigation systems are important to assess the yield and quality of topping vernonia fully.
Productivity of okra (Abelmoschus esculentus L. Moench) as Influence by NPK F...AI Publications
The aim of this research work was to evaluate the effect of different levels of NPK fertilizer (0, 40, 80 kg ha-1) and poultry manure (0, 4, 8 tons’ ha-1) on the productivity of okra plant. The experiment was laid out in a Randomized Complete Block Design (RCBD) and replicated three times. From the result of the experiment, it was shown that there was significant difference in days to 50% flowering by application 0-ton ha-1 of both NPK and poultry manure. The application of poultry manure and NPK 15:15:15 showed significant difference among the treatments to fruit length, fruit diameter, fruit yield in kgha-1 and weight of fruit in kgha-1 at various weeks of data collection. The increase in the level of poultry manure and NPK 15:15:15 fertilizer showed the significant effects on fruit length, fruit diameter, fruit yield ha-1, and weight of fruit in kgha-1. Some of the parameters were statistically at far by varied level of factors and time. Okra variety Clemson spineless significantly gave taller plants, longer fruits and fewer days to 50 % flowering. Both poultry manure and NPK fertilizer were found to be sufficient to increase the yield of okra plant.
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Effect of Seed Storage Period in Ambient Condition on Seed Quality of Common ...Premier Publishers
Common bean is used as one of the cheapest source of protein apart from being the major source of cash income in Ethiopia. Its reasonable protein content (22%) made it the poor man's meat securing more than 16.7 million rural people against hidden hunger. Despite the common bean significance contribution to Ethiopian people food and nutrition security and income generation, its production and productivity is low. Among many factors that contribute to the low yield of common bean, low access of seeds of improved varieties and the use of seeds stored for a longer period of time. The length of seeds stored under ambient conditions is a critical aspect of seed quality management. The longer seeds stored under ambient conditions, are the risks of losing the stored beans to storage pests and other seed quality deterioration factors. Therefore, generating information from research is required on effect of seeds stored under ambient conditions on different varieties of common bean. The analysis of variance showed that storage period and variety had significant influence on all seed quality parameters considered except no significant effect on number of hard seeds. No significant differences among varieties were observed on abnormal seedlings, number of hard, fresh ingeminated and dead seeds. However, storage period and variety interacted to influence significantly thousand seed weight, seedling shoot length, nd vigor index I and seedling fresh weight. Due to seeds stored for a long period of time in ambient conditions would make the seed deteriorate and loss its quality during storage. This indicates that, seed deterioration is the result of changes within the seed that decrease the ability to survive.
Intercropping of Haricot Bean (Phaseolus vulgaris L.) with stevia (Stevia reb...paperpublications3
Abstract: Field experiment was conducted in the consecutive two cropping seasons (2011-2012 and 2012-2013) to investigate Haricot Bean based farming system by inclusion of Stevia. The experiment was laid out in randomized complete block design with five replications. The results showed that the yields of haricot bean were not significantly decreased with the increase of stevia population. Sole planting of stevia was superior to other intercropped treatments and produced 20035.3 kgha-1, 41859 kgha-1 and 30947 kgha-1 above ground biomass yield (total of three harvesting cycle), 12439.47 kgha-1, 26296.2kgha-1 and 19367.8 kgha-1 leaf fresh weight (total of the three harvesting cycle) and 3450.71kgha-1, 7570.3kgha-1 and 5510.5kgha-1 leaf dry weight (total of the three harvesting cycle) in the consecutive two cropping season and the pooled mean respectively. The LER and MAI indicating the practice of intercropping of haricot bean with stevia was more advantageous than the conventional monoculture crop. Even if significant yield difference was not observed for haricot bean among the treatment, haricot bean intercrop with 80% stevia mix proportion with LER of 1.43 and MAI of 88278 followed by 60% stevia mix proportion with LER of 1.34 and MAI of 62027 proved to be best than planted at sole indicating the practice of haricot bean–stevia intercropping was more advantageous and profitable than the conventional monoculture crop.
Keywords: Haricot Bean, Intercropping, Land Equivalent Ratio, Monetary Advantage, Stevia rebaudiana, Supplementary.
Genetic Variability, Heritability And Genetic Advance For Vegetable Yield And...Premier Publishers
The present study was carried out to estimate the genetic variability for vegetable yield and yield-related traits among Ethiopian kale accessions. The experiment was carried out using 7x7 simple lattice design at Debre zeit Agricultural Research Center during 2017 main cropping season. The analysis of variance revealed highly significant differences (p<0.01) among accessions for all traits except days to second leaf picking. High genotypic coefficient of variation and phenotypic coefficient of variation were estimated for the number of leaves per plant, fresh leaf weight, dry leaf matter content, fresh biomass and leaf yield. High broad sense heritability coupled with high Genetic advance as the percent of mean were obtained for the number of leaves per plant, fresh leaf weight, dry leaf matter content, leaf width, leaf petiole length, leaf petiole thickness, fresh biomass and leaf yield. It can be concluded that variation generated for these traits is mainly due to genetic and moderate role of environmental factors and these were the most important for selection criteria in developing high yielding Ethiopian kale accession. In general, the present study revealed the presence of variability among accession for most studied traits.
Intercropping of Haricot Bean (Phaseolus vulgaris L.) with stevia (Stevia reb...paperpublications3
Abstract: Field experiment was conducted in the consecutive two cropping seasons (2011-2012 and 2012-2013) to investigate Haricot Bean based farming system by inclusion of Stevia. The experiment was laid out in randomized complete block design with five replications. The results showed that the yields of haricot bean were not significantly decreased with the increase of stevia population. Sole planting of stevia was superior to other intercropped treatments and produced 20035.3 kgha-1, 41859 kgha-1 and 30947 kgha-1 above ground biomass yield (total of three harvesting cycle), 12439.47 kgha-1, 26296.2kgha-1 and 19367.8 kgha-1 leaf fresh weight (total of the three harvesting cycle) and 3450.71kgha-1, 7570.3kgha-1 and 5510.5kgha-1 leaf dry weight (total of the three harvesting cycle) in the consecutive two cropping season and the pooled mean respectively. The LER and MAI indicating the practice of intercropping of haricot bean with stevia was more advantageous than the conventional monoculture crop. Even if significant yield difference was not observed for haricot bean among the treatment, haricot bean intercrop with 80% stevia mix proportion with LER of 1.43 and MAI of 88278 followed by 60% stevia mix proportion with LER of 1.34 and MAI of 62027 proved to be best than planted at sole indicating the practice of haricot bean–stevia intercropping was more advantageous and profitable than the conventional monoculture crop.
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Intercropping of Maize(Zea mays L.) with Spear mint(Mentha spicata L.) as Sup...paperpublications3
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Keywords: Intercropping, Land Equivalent Ratio, Mentha spicata, Monetary Advantage, Supplementary, Zea mays
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Effect of Seed Storage Period in Ambient Condition on Seed Quality of Common ...Premier Publishers
Common bean is used as one of the cheapest source of protein apart from being the major source of cash income in Ethiopia. Its reasonable protein content (22%) made it the poor man's meat securing more than 16.7 million rural people against hidden hunger. Despite the common bean significance contribution to Ethiopian people food and nutrition security and income generation, its production and productivity is low. Among many factors that contribute to the low yield of common bean, low access of seeds of improved varieties and the use of seeds stored for a longer period of time. The length of seeds stored under ambient conditions is a critical aspect of seed quality management. The longer seeds stored under ambient conditions, are the risks of losing the stored beans to storage pests and other seed quality deterioration factors. Therefore, generating information from research is required on effect of seeds stored under ambient conditions on different varieties of common bean. The analysis of variance showed that storage period and variety had significant influence on all seed quality parameters considered except no significant effect on number of hard seeds. No significant differences among varieties were observed on abnormal seedlings, number of hard, fresh ingeminated and dead seeds. However, storage period and variety interacted to influence significantly thousand seed weight, seedling shoot length, nd vigor index I and seedling fresh weight. Due to seeds stored for a long period of time in ambient conditions would make the seed deteriorate and loss its quality during storage. This indicates that, seed deterioration is the result of changes within the seed that decrease the ability to survive.
Intercropping of Haricot Bean (Phaseolus vulgaris L.) with stevia (Stevia reb...paperpublications3
Abstract: Field experiment was conducted in the consecutive two cropping seasons (2011-2012 and 2012-2013) to investigate Haricot Bean based farming system by inclusion of Stevia. The experiment was laid out in randomized complete block design with five replications. The results showed that the yields of haricot bean were not significantly decreased with the increase of stevia population. Sole planting of stevia was superior to other intercropped treatments and produced 20035.3 kgha-1, 41859 kgha-1 and 30947 kgha-1 above ground biomass yield (total of three harvesting cycle), 12439.47 kgha-1, 26296.2kgha-1 and 19367.8 kgha-1 leaf fresh weight (total of the three harvesting cycle) and 3450.71kgha-1, 7570.3kgha-1 and 5510.5kgha-1 leaf dry weight (total of the three harvesting cycle) in the consecutive two cropping season and the pooled mean respectively. The LER and MAI indicating the practice of intercropping of haricot bean with stevia was more advantageous than the conventional monoculture crop. Even if significant yield difference was not observed for haricot bean among the treatment, haricot bean intercrop with 80% stevia mix proportion with LER of 1.43 and MAI of 88278 followed by 60% stevia mix proportion with LER of 1.34 and MAI of 62027 proved to be best than planted at sole indicating the practice of haricot bean–stevia intercropping was more advantageous and profitable than the conventional monoculture crop.
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Genetic Variability, Heritability And Genetic Advance For Vegetable Yield And...Premier Publishers
The present study was carried out to estimate the genetic variability for vegetable yield and yield-related traits among Ethiopian kale accessions. The experiment was carried out using 7x7 simple lattice design at Debre zeit Agricultural Research Center during 2017 main cropping season. The analysis of variance revealed highly significant differences (p<0.01) among accessions for all traits except days to second leaf picking. High genotypic coefficient of variation and phenotypic coefficient of variation were estimated for the number of leaves per plant, fresh leaf weight, dry leaf matter content, fresh biomass and leaf yield. High broad sense heritability coupled with high Genetic advance as the percent of mean were obtained for the number of leaves per plant, fresh leaf weight, dry leaf matter content, leaf width, leaf petiole length, leaf petiole thickness, fresh biomass and leaf yield. It can be concluded that variation generated for these traits is mainly due to genetic and moderate role of environmental factors and these were the most important for selection criteria in developing high yielding Ethiopian kale accession. In general, the present study revealed the presence of variability among accession for most studied traits.
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Assessment Of Major Honey Bee Flora Resources On Selected Districts Of Sidama And Gedeo Zones Of South Nations Nationalities And Peoples Regional State, Ethiopia
2. 369. Teklu
INTRODUCTION
Ethiopia is endowed with various climatic
conditions, topography and a wide range of
altitude favouring the presence of different
natural vegetations that include forests, bushes,
herbs, weeds and undergrowth. The flowering
plants known in Ethiopia are between 6 and 7
thousand species (Edwards, 1976). The
presence of this natural vegetation made the
country the best home for honeybees. The
forests and woodlands contain diverse species
that provide surplus nectar and pollen to
foraging bees (Ayalew, 1990). Beekeeping has
been and still is widely spread, economically
important and integral part of the life of the
farming communities of Ethiopia (Verma, 1990,
Fichtl and Admasu, 1994). There are an
estimated 10 million bee colonies out of which
farmers keep about seven million in traditional
and modern hives, that the remaining exists in
forests and cervices (EMA, 1981) and this
represents the highest bee density in Africa.
Production of honey and other products
depend on availability of floral resources (bee
forage) and is a very important field for most
beekeepers in the world (Rucker et al., 2002).
Most of the methods for obtaining information
about plants utilized in an area are based on
direct field observations of foraging honeybees
on flowers. The analysis of bee plants, pollen
loads and melissopalynological analysis of
honey sample (Hepburn and Radloff, 1995) can
give a true picture of the honeybee flora of the
area (Admasu et al., 2006).
As honey bee doesn’t visit all plants for
nectar and or pollen ,identification of plants
which supply these resources, plant
communities and the phonological relationship
between honey bee plants and honey bees are
paramount important for practical beekeeping
and in assessing the potential of an area bee
keeping. However, such knowledge in Ethiopia
in Particularily in Africa in general is at infant
stage (Nature and phenolgy of honey bee plants
in centeral highlands of Ethiopia, Holleta Bee
Research Center, p.o.box 34,Amsalu Bezabi)
The bees of world importance in beekeeping
and the basis of the world’s beekeeping industry
are races and strains of the honeybee Apis
mellifera. Honeybee colony normally has one
queen, thousands of workers and hundreds of
drones (Seely, 1985, Winston, 1987).
Honeybees are dependent on flowering plants
because plants provide bees with food in the
form of nectar and pollen. Nectar and pollen are
primary reward to insect pollinators in general,
and to honeybees in particular. As honeybees
require large quantities of nectar and pollen at
particular time, they utilize particular species of
plants for a limited period of time. During the
flowering period, there is a considerable
Movement by honeybees between plants of the
same species. This in turn favors the successful
cross-pollination of plants (Percival, 1965,
Faegeri, 1979). Not all plant species are
however equally good for beekeeping. Some
supply both nectar and pollen abundantly when
in the bloom and others still provides nectar or
pollens for their brood rearing (Free, 1970).
Ideally, a good beekeeping area is the one in
which nectar and pollen plants grow abundantly
and with a relatively long blooming season.
Such areas are however not always available or
easy to find. Beekeepers must know the time
and duration of the blooming season of every
major honey plant including the environmental
factors affecting them and carrying capacity of
the area, which includes the number of colonies
that can be put for maximum production (Rajan,
1980). Apiculture is one of the options that help
to promote forest conservation and improve
crop yield because of cross-pollination services
rendered by honeybees (Adjare, 1990, Fichtl
and Admasu, 1994). The income supplement at
local level from apiculture is also very significant
(Ayalew, 1990). In rural areas, any source of
food or income that does not need land is
potentially important. Apiculture is such an
undertaking because beehives occupy minimal
space and they can be placed on wastelands.
So in relation to agriculture small holders or
even landless peasants can do beekeeping.
Besides these, beekeeping does not compete
with other branches of agriculture for resources
because bees collect pollen and nectar from
wild and cultivated plants to make honey and
such resources would be important if honey bee
hive colonies are established to forage on them
(Drescher and Crane, 1982).
Since the practice of modern beekeeping is
relatively new in Ethiopia, the compilation of
economic bee forages and the identification of
areas suitable for beekeeping are still far from
complete (Hussien, 2000). Since bees need
food all year round, it is clear that they will
produce more honey and consume less if they
can find natural food most of the time (FAO,
1986). Calendar of flowering plants that have
good nectar and pollen sources is a first step
towards increasing honey yields. The flowering
sequence of honey plants can be anticipated
and so hives can be moved to exploit nectar
flow. Those plants, which yield nectar or pollen
throughout the year, can be identified and more
of them can be grown to overcome dearth
3. 370. J. Agric. Econs, Extens and Rural
Develop
periods shown in the calendar (Marden and
Kiew, 1984).
The flowering plants known in Ethiopia are
composed of between six to seven thousand
species spread across diverse agro-ecological
zones. This makes the country highly suitable
for bee and beekeeping. Apiculture is the
keeping and management of honey bees for
various products: honey, bees wax, royal jelly,
propels, bee pollen, and brood, as well as for
pollinating flowering agronomic or tree crops
(Debbissa Lemessa, 2007)
In this case, the identification of the important
honey bee plants in the development of bee
keeping has positive impact. This in turn
requires the proper identification of honey bee
plants and establishment of floral calendar. This
study is thus expected to contribute towards the
development of beekeeping, there by
contributing to the overall improvement in food
security. The intention of this survey was to
assess major honey plants in the selected
districts and to have the baseline information on
the seasonal honey harvests based on the data
on flowering season of areal potential
resources.
Objectives of the study
Main Objectives
To identify major plants (shrubs, herbs, weeds
and trees) foraged by honeybees and set the
baseline information
Specific Objectives
To document their sequence of flowering.
To identify the main flowering and dry
seasons and plants utilized by bees during the
respective seasons
LITERATURE REVIEW
Beekeeping and Potential Availability of Bee
Forage in Ethiopia
Beekeeping is one of the most important
farming activities in Ethiopia (Workneh, 2008).
According the previous studies of Ayalew (2001)
and Gezahegn (2007) and Fitchl and Admasu
(1994) Ethiopia has longer tradition on
beekeeping than any country in the world.
“Since the 4th century during the time of king
Ezana, Christianity with strong emphasis on
nomadic culture had a greater contribution for
intensive growth of apiculture; because of the
need for wax and honey needed for religious
ceremonies and for making traditional
beverages” (Fitchl and Admasu, 1994). Hence,
bee keeping practice has been estimated that
started five thousand years ago in the northern
regions.
The favourable and diversified agro climatic
conditions of Ethiopia, has endowed with above
7000 plant species estimated, which support
foraging bees and many other insects (Admasu,
1996, Gezhagen, 2007, Gidey and Mekonen,
2010). Therefore due to this potential availability
of diversified bee flora and other environmental
factors, Ethiopia has the highest bee density
and is the largest honey producer in Africa and
10th in the world
(Fitchl, and Admasu, 1994). Hence, in
Ethiopia beekeeping is one of the oldest
agricultural practice having passing from
generation to generation without modification up
to present time. It is only about 3 decades since
improved beekeeping has been started in
Ethiopia by introducing movable frame hives
(Ayalew, 2004); this improvement makes
beekeeping one of the good and best
agricultural businesses and one of the income
streams for rural peoples.
According to MoARD, (2003) the most
important honey and bee wax producing regions
in Ethiopia are Oromia, South Nations
Nationalities and People regional state
(SNNPR), Amhara and Tigray.
The diversified flowering plants in Ethiopia
and their blooming season greatly vary from
place to place; this enables the country to
sustain a large number of honeybee colonies
(Admasu, 1996). About 500 honeybee flora
species identified by the previous study of Fitchl
and Admasu (1994) with their importance for
honeybees (as source of pollen and/or nectar).
As Fichtl and Admasu, (1994) honeybee plants
can be categorized as major and minor source
of bee forage; for instance:
Major bee plants: are those plants, which are
visited by honey bees throughout their flowering
season. E.g. Triffolium species. (Clover),
Eucalyptus species, Acacia species, and
Vernonia species.
Minor bee plants: are those plants that are
visited less often by bees or only when flowers
of major bee plants are not in flower. E.g. clover,
Birbira, Acacia species, pisum sativum and
grass species
4. Bee Forage and Honey Production in SNNPR
Beekeeping practice is as old as farming and it
has been traditionally practiced for a long period
of time (Meaza, 2010). Although the stage of
progress in changing the traditional practice is
slow and the entire numbers of honeybee
colonies are managing in the region is still
traditional way (Fichtl and Admassu, 1994). As a
result combination of traditional bee culture by
farmers and available plant species favoring
foraging bees still made the region the home of
Though, beekeeping practice in recent years is
improving, but the contribution of honey
production of the region to national honey
production is still small due to higher
degradation of natural resource and/or
degradation of honeybee flora that affect the
diversity of honeybee plants.
Hence identifying the existing honeybee
plants resources may help to assess the
productivity, adaptability, and swarming,
absconding and other basic behavior of the
regional bee resource (Gebre, 2009). Natural
vegetation in general forest plants in particular
that covers the lands in study areas have been
cut down leaving no remnants that helps to
reinstate. The loss of these natural plants
species, has undoubtedly affected the life
pattern, products productivity of honeybees of
the region (Ayalew, 2005). Yet, despite such big
challenges, there are a wide variety of plants
which are used as honeybee flora (Gidey and
Mekonen, 2010).
Bee Forage and its Role for Honeybees
According to Gezhagn (2007) plants are the
food source of honeybees. However, not all
plants are important for honeybee, and those
plants that supply both nectar and pollen
abundantly when in bloom and these are often
called honeybee plants (Akratanakul, 1990);
honey bee plants are best suited for honey
production as well as colony maintenance, in
that bees obtain protein from pollen source
plants and carbohydrate from nectar source
plants (Bista and shivakoti, 2001).
Honeybees with their activity of extending
their proboscis into the flowers are considered
as nectar source and bees carrying pollen on
their hind legs were determined as pollen
source (Mbah and Amao, 2004). Based on
studies conducted by Hill and Webster (1995)
honeybees often forage on leguminous species,
371. Teklu
whether tree species or ground covers such as
clovers (Trifolium spp). Honeybees also collect
large quantities of pollen from zea mays, (Mbah
and Amao, 2004). Pollen plants are important in
beekeeping, especially at the time of colony
build-up (Akratanakul, 1990).
Generally, assessing the potential bee flora
and their importance as a major or minor for
honeybee plant is very important in bee forage
management (Mbah and Amao, 2004).
According to the study conducted in Zaria
northern Nigeria, About 57.1% of the bee visited
plants are perennials while 42.9 % are annuals.
Sanford (2003), noted that many plants produce
pollen for the bees, it is usually nectar producing
species that are the most interesting for
beekeepers except few plants; and the most
reliable nectar producers are:
Floral calendar of honeybee plants
Floral calendar for beekeeping is a time-table
that indicates to the beekeeper; the approximate
date and duration of the blossoming periods of
the important honey and pollen plants Diver
(2002). When we see the flowering time of
single species, it begins from the full opening of
the first few buds till the start of fruit formation
end of flowering (Liseki and Boniphace, 2008).
The distribution and type of honeybee plants
as well as their flowering duration vary from one
place to another place due to variation in
topography, climate, and farming practices.
Hence, every region has its own honey flow
and floral dearth periods of short or long
duration and this knowledge on bee flora helps
in the effective management of bee colony
during such period (Bista and Shivakoti, 2001).
From the analysis of the flowering periods of
the bee plants and field interviews, it was
possible to identify honey flow seasons,
accordingly the honey flow season in sidama
zone was found to be occurring from September
to October as well as from May to June, and in
Gedeo zone it is from January to February and
June to August.
Generally, flowering calendars can make
easier to plan various beekeeping management
operations such as the sitting of hives near to
particular crops and deciding the best time for
honey harvest and/ or colony swarming. Hence
adequate knowledge about bee flora including
floral calendar is the prerequisite to initiate bee
keeping (Bista and Shivakoti, 2001).
Previous study in Ibadan (south west of
5. 372. J. Agric. Econs, Extens and Rural
Develop
Nigeria) by Mbah and Amao (2004), found out
that; the main nectar flow is from July to
February, with a peak in January when the
largest forest trees are in flower, as a result, at
this time there is enough nectar flow and the
colony is strong with surplus honey to harvest.
Therefore honeybees can live only if they
have forgeable plants (Ayalew, 2006). Liseki
and Boniphace (2008) also explained that the
best harvesting period should be before the start
of the dearth period when few plants are
flowering. This is the time when feeding of bees
is advised to prevent absconding, and to ensure
the colony remains strong enough for the
forthcoming season.
Watershed Rehabilitation and Bee Forage
Improvement
Watershed rehabilitation is recovering and or
restoration of the watershed to the previous
natural condition; and aims to increase the
productivity of agricultural and other natural
resources through a combination of re-
vegetation and soil and water conservation
(Turton, 2000). Watersheds, especially in the
developing world, are increasingly being
managed for poverty alleviation as well as
environmental conservation objectives (FAO,
2006). Bedru et al.,(2006), revealed that a large
amount of natural resources in Ethiopia are
degraded and or deteriorating due to over
utilization and inefficient use of natural
resources, specially the forest resource. This
deforestation as well as reduction in vegetation
cover has negatively affecting the biodiversity of
honeybees and/or bee flora plants.
According to the study conducted in Burie
District of Amhara Region by Tessega (2009),
bee keepers try to overcome the problem of
reduction of honey bee plants; hence
beekeepers grow different local bee forage
plants near by the apiary site. Despite these
local efforts, the national beekeeping resource
base is deteriorating at a faster rate warranting
sustainable intervention progress (Melaku,
2008). Hence, to address environmental
problems as well as to improve household food
security, a number of interventions have been
made in Ethiopia; exclosures and other
reclamation activities also implementing in a
watershed approach to overcome the
socioeconomic and environmental problems in
sustainable way (Bedru, 2006).
Therefore most of the bee forages species
are multipurpose for the people as well as for
the environment, some of the multipurpose trees
that are recommended for planting in
reclamation of the area, moreover beekeeping
should be incorporate into overall land
management strategies and farming systems,
so as to ensure abundant nectar and pollen for
a good and successful apiculture development.
DATA COLLECTION METHODS
Social Survey Data Collection
The study was conducted in Sidama zone from
shebedino and dale districts and from Gedeo
zone in wonago and Kochere districts based on
their potentiality for bee forage as well as its
transport accessibility. To collect the required
social data for the study individual interview, key
informant interview and focus group discussion
were conducted.
Household interview: to select the sample
households for the study first discussion were
made with woreda experts and cooperative
members and model beekeepers. Accordingly
20 beekeepers households per woreda were
used for the structured questioner interview.
Therefore a stratified random sampling method
was used to select the respondent households
for the study. Accordingly 20 beekeeper
respondents per study woreda have been
randomly selected for the interview. Hence to
collect information regarding bee forage plants
and related parameter (like identification of
common bee flora with their flowering time,
importance, seasonal forage availability in
relation to colony strength and honey production
etc.) for the study, the sampled beekeepers
were individually interviewed with structured
questionnaire Pre-test and recognizance survey
were also conducted to see effectiveness of the
questionnaire for the study; and then the
sampled respondents were interviewed with the
help of trained enumerators and house to house
interview and visual observation of the
interviewed bee flora by the researcher.
Key informant interview: Key informant
interview have been made with all study district
beekeeping expert, development agents (DAs)
of the study area, some individual beekeeper
farmers. The qualitative information collected in
6. interview is used to supplement and crosscheck
the data obtained through the household survey.
Hence purposive sampling method was used for
selecting members for the key informant
interview.
Focus Group Discussions: Focus group
discussions were conducted in the study area
with purposively selected PA leaders, Das and
bee technician, and some individuals, who are
believed to be knowledgeable about bee flora
plants in the area, were part of the discussion.
Hence, purposive sampling method was used
for selecting focus group discussion members.
Honey sample data: to strengthen the
house3holds survey data on the assessment of
type of honey plants, 10 honey samples per
selected study woreda were botanically
analyzed and the result described with major
and minor observed pollen types in the
laboratory.
Statistical Analysis
The data collected during the social survey were
summarized using descriptive statistical
methods (such as frequencies, percentage and
graphs) and the data collected from honey
samples botanical analysis were summarized
and presented in the form of tables. Descriptive
statistical procedures in SPSS version 20 and
excel (word 2007) were used to summarized the
data.
MATERIALS AND METHODS
Description of the Study Area
Sidama zone
The study was carried out in Sidama zone of
Southern Nations, Nationalities and Peoples’
Region (SNNPR) located in central part of the
region. Astronomically it is situated between the
coordinates of 5
0
45' and 6
0
45' N latitude and
38
0
39' and 38
0
29' E latitude with altitude ranging
from 1100 to 3500 meters above sea level
(masl) (BoFED, 2010). Rainfall pattern of the
zone is bimodal type with small rainfall during
the months of February to April followed by the
main rainy season from July to September.
Sidama zone consists of 19 districts with total
area coverage of 10,000 km
2
(SDC, 2000).It has
a diverse agro ecology classified as high lands
373. Teklu
(dega), midlands (woinadega) and semi-dry
lowlands (kolla) covering 30%, 60% and 10%
respectively (SDC, 2000). The farming system
of the zone is characterized as mixed crop and
livestock farming system. The zone is endowed
with different livestock resources viz. Cattle,
small ruminants, equines, poultry and honey
bee.
Gedeo zone
Gedeo is a Zone in the South Nation Nationality
and People Regional State (SNNPR) of
Ethiopia. This Zone is named after the Gedeo
people, whose homelands lie in this zone.
The zone is well known by producing high
quality coffee (Yirgacheffe-Coffee) to
international market. Gedeo is bordered on the
east, south and west by the Oromia region, and
on the north by Sidama. Dilla is the
administrative center; other towns include
Yirgacheffe (which is provider of internationally
high quality of organic coffee), Wonago,
Fisahagenet Chelelekitu Gedeb and Bulle.
Physical features Location
Gedeo Zone is located in 369 km from Addis
Ababa to southeon Addis Ababa-Moyale
international road and 90 km from Hawassa
(capital city of the region) in South Nation
Nationality and People Regional State
(SNNPRS). On the basis of the current border
delineation, the land area of the region is
estimated at 1347.04 square
kilometers. Geographically, the Zone is located
North of Equator from 50 53’N to 60 27’N
Latitude and from 380 8’ to 380 30’ East,
Longitude. The altitude ranges from 1500 to
3000m.
Climate The zone has sub-humid tropical
climate receives mean annual rainfall 1500 with
range of 1200 and 1800 mm. The rainfall pattern
is bimodal, with short rain season between
March and May accounting for 30% of total
rain fall and long rain season between July and
October accounting for more than 60 % of total
rainfall. The mean monthly temperature is 21.5
oC with mean monthly maximum and minimum
temperature of 25 oC and 18 oC, respectively.
The Zone experiences three distinct agro
ecologic Zone Namely ‘Dega’ (30%),‘Woyina
Dega’ (67%) and ‘Kefil-Kola’ (3%).
Demography Based on figures from the CSA,
in 2005 this zone has an estimated total
7. 374. J. Agric. Econs, Extens and Rural Develop
Table 1: presents the demographic characteristics of sample respondents in study woredas.
Woredas
Variables shebedino dale wonago Kochere Total X
2
sex male 15 19 17 18 69 4.6299
*
female 5 1 3 2 11 -
age mean 29.1263 1.98 32.5918 3.26 - 1.3696
Education
level
illiterate 2 4 6 10 22 12.000
1-6 10 8 8 3 29 -
7-12 8 8 6 7 29 -
Family size mean 6.2745 2.134 5.2200 11.223 - 5.717
*
Marital
status
single 5 5 2 3 15 1.9783
married 13 14 17 17 61 -
divorced 2 1 1 - 4 -
Source: Survey data.
*P<0.05, across column
Table 2: Land ownership of the respondents
Woreda Total
land
/ha
% of
respond
ents
annual
crops
land/ ha
%
resp
onde
nt
perenn
ial
crops
land
% of
resp
onde
nt
Grazing
Land in
ha
% of
respo
ndent
self-
develo
ped
forest
% of
respon
dent
Shebedino 1.15 10.5 1.11 58 .37 24.9 0.07 42.3 1.2 21.8
Dale 1.13 40% 1.5 24.1 .55 30.4 0.19 40 0.18 34.9
Wonago 2.25 12.5 1.80 10 .70 18 .25 15.0 .25 51.0
Kochere 3.5 20 2 3.1 1 9.6 0.47 18.1 0.52 40.4
population of 820,944; of which 411,163 were
males and 409,781 were females with annual
growth rate of 2.9%. 118,440 or 14.4% of its
population are urban dwellers. Gedeo zone is
one of the most densely populated regions in
the country with an estimated population density
of 617.53 people per square kilometer.
Survey data Analysis Results
Socio-demographic characteristic of farmers
The result of this finding (table 1)shown that 11
and 69 percent of the sample respondents were
female and male headed households
respectively. Sex of the household head in the
all woredas has significant difference at 0.05
percent significance level.
Family size also showed variation at 0.01
percent significance level due to the same
reason (5.22 in shebedino and 6.27 in wonago).
Education level has shown no variations
between the woredas. Only two percent of the
respondents in shebedino woreda are illiterate
whereas it is 10% in Kochere.
The study was encompassed 82% farmers
from selected peasant associations of all study
Woreda were males and the remaining 18%
were female beekeepers (table 2).
As it is illustrated in the table the minimum
land holding by small scale apiculture farming
experienced farmer in both Sidama and Gedeo
zone woredas is 1ha, but maximum land holding
in Gedeo zone Woredas( Wonago and Kochere)
was about 3.5 ha while it is1.15ha for Sidama
Woreda( shebedino and Dale). The minimum
land holding for farmers in the area is 1ha and
maximum land holding is 3ha for apiculture
activity experienced farmers. Majority of the
farmers in the area have about 2h land (43.8%),
37.4% farmers and 22.1% allocate1.3ha and
1.75ha land allocated by interviewed farmers.
AS to allocation of land to annual crop was
concerned 40.5 % farmers allocate 1 ha land for
annual crop,15.6 % of household
allocate.26ha,.71ha and land for perennial crop
8. 375. Teklu
Table 3: List of some bee forages plants and their flowering period in Gedeo zone (Wonago and Kochere) and
Sidama zone (shebedino and Dale) Woreda.
Floweri
ng
season
Tree
species/grass/legum
es
Woreda Flowering
season
Tree species
/grasses/legumes
Woreda
Septem
ber
Avocado
(****)
Gedeo(Wona
go and
Kochere)
Septembe
r
Pea, fababean, potato,
eucalyptus tree,
banana,haricot bean
Sidama(Shebed
ino and Dale
October Bahirzaf, Avokado,
Mango
(****)
Gedeo(Wona
go and
kochere
October Adeyabeba, weeds,
haricotbean,maize,octto
ver,November
Sidama(Shebed
ino and Dale
Novemb
er
Avocado, mango,
bisana, wanza,
(****)
Gedeo(Wona
go and
Kochere
November Adebabeba,weeds,gras
ses,Grawa
Sidama(Shebed
ino and Dale
Decemb
er
Birbira,avocado,mango
,bisana,wanza
Gedeo(Wona
go and
Kochere
December Papaya,banana,Rejicho
(****)
Sidama(Shebed
ino and Dale
January wanza,barzaf,avocado,
birbira,girawa,bisana
Gedeo(wonag
o and
kochere
January Papaya, banana,
mesencho
(****)
Sidama(Shebed
ino and Dale
Februar
y
Avocado,buna,bisana,
mango, ,giraw
Gedeo(Wona
go and
kochere
February Coffee,
,mango,avocado,rejicho
Sidama(Shebed
ino and Dale
March Zeytuna,avocado,Coff
ee,birbira,wanza,mang
o,bazaf,bisana,girawa
Gedeo(wonag
o and
kochere
March Coffee,
,mango,avocado,maize,
harriotbean
,bissana,girawa
Sidama(Shebed
ino and Dale
April Avocado, Coffee
bisana,wanza,girawa,b
arzaf,adey abeba
Gedeo(wonag
o and
kochere
April Coffee,mango,maize,h/
coat bean,avocado,
bissana,girawa,mikicho
Sidama(Shebed
ino and Dale
may Bisana,
Coffee,wadicho,Tado,a
dey
abeba,bahirzaf,mango
Gedeo(wonag
o and
kochere
may Coffee,avocado,mango,
maize,h/bean
bissana,girawa
Sidama(Shebed
ino and Dale
June papaya,wanza,
adeyabeba
bisana,mango,avocad
o,barzaf
Gedeo(wonag
o and
kochere
June Maize,h/bean
(****)
Sidama(Shebed
ino and Dale
July bahrzaf,Avocado,,man
go,bisana,wanza,giraw
a
Gedeo(wonag
o and
kochere
July Maize,h/bean
(****)
Sidama(Shebed
ino and Dale
August birbira,,avocado,mang
o,bisana,wanza
Gedeo(wonag
o and
kochere
August Maize,h/bean Sidama(Shebed
ino and Dale
N.B (****) – The areal dearth period for Bees.
by 9.3% and 75% household farmers
respectively. From total interviewed farmers
almost all farmers (96.6%) possess natural
forest in their vicinity that is so suitable for
apiculture farming in the Woreda.
Major natural forests of Shebedino, wonago,
Kochere and Dale Woreda
Some of Peasant Association in shebedino
Woreda where natural forests exists in abundant
were: Grawa, wanza, coffee, Bisana, Rejicho,
Mesincho, grar, kulkual, bahirzaff Adelbole and
others (table 3).
Availability of natural forest with adequate
apiculture flora in the study areas
About 81.5 % and 94 % of household
interviewed own natural forest nearby to their
dwelling residence from Sidama zones
9. 376. J. Agric. Econs, Extens and Rural Develop
Table 4: Major natural flora tree species.
No. Common name or scientific name of
plants/shrub
Agro ecology where
the plant grow
potentially
Flowering seasons of specified
plant
1 Eucalyptus species Mid altitude April –may
2 Wanza Mid altitude December-January
3 Girawa Mid altitude November –December
4 Bisana Mid altitude February-April
5 Girar Mid altitude March & September
6 coffee Mid altitude October -February
7 Bahirzaff In all agroeology Year round
Table 5: Major cultivated bee forage crops
No. Common name or scientific name
of plants/shrub
Agro ecology where the plant
grow potentially
Flowering seasons of specified plant
1 Bean & pea Mid altitude September-November
2 Sorghum Mid altitude ‘’
3 Maize Low & Mid altitude June-august
4 Telba Low altitude ‘’
5 Haricot bean Mid altitude May-September
6 wheat Mid altitude & high altitude September
7 Yabesha gomen Mid altitude March - April
8 Fosolia Mid altitude September-October
Table 6: Major weedy bee forage crops and their corresponding potentially growing agro ecology
No. Common name or scientific name of
plants/shrub
Agro ecology where the
plant grow potentially
Flowering seasons of
specified plant
1 Mech Mid altitude October- December
2 Adeyabeba Mid altitude September -October
3 Clovers Mid altitude August –September
4 TurumbaAbeba mid altitude Year round
5 Serdo grass Mid altitude September –October
6 cowpea,sesbania Mid altitude November
(shebedino and Dale) and Gedeo zones
(Wonago and Kochere) Woreda peasant
associations respectively. as to existence of
wide variety land size of natural resource of
forest in Woreda, nothing is exploited
concerning to apiculture production.
Diversity and seasonal availability of bee
forages
The major hone flow season in Sidama zone
woredas is from September to November in the
first stage and from April to May in the second
stage, and in Gedeo zone woredas, fist stage,
June to July and second stage, January to
march and it could be varied based on
availability of rainfall and honey bee flora. More
over these, bushes, trees, weeds and shrubs in
the natural forest provide year round flora for
apiary in the study area. The major bee forge
bee plants identified in Sidama and Gedeo
zones study Woredas illustrated in the table
accordingly below. Most of these plants found in
Natural forest of corresponding peasant
association in Woreda and some found in their
surrounding localities that developed artificially.
Major natural and cultivated bee forage
crops (oil crops, pulses and cereals and
their corresponding growing agro ecology)
in study woreda.
In table 4,5,6, the major tree categories in the
natural forest in this area consists of eucalyptus
tree, Bahirzaff, gravilia, coffee,Tid, Grawa,
wanza, and Warka. In addition to these
horticultural fruits and vegetables in the
specified village are Avocado, mango, banana
and papaya.
10. 377. Teklu
Table 7: Sidama zone honey pollen analysis data result
No Honey
samples
Place of
collection
Major Pollen/flora type Minor type
1 Ss01 shebedino Guizotia, Coffee Arrabica Eucalyptus spp.
2 Ss02 shebedino Eucalyptus globulus Trifollium spp.
3 Ss03 shebedino eucalyptuscamcldulensis Coffee arabica
4 Ss04 shebedino Guizotia Pissam sativum
5 Ss05 shebedino Brassica spp. Guizotia
6 Ss06 shebedino Eucalyptus spp. Vernonia spp.
7 Ss07 shebedino Eucalyptus spp. Guizotia
8 Ss08 shebedino Guizotia, Eucalyptus Vernonia spp.
9 Ss09 shebedino Guizotia, Datura Arborea Eucalyptus,Guizotia
10 Ss10 shebedino Vernonia spp., Eucalyptus Unidentified
11 SD11 Dale Accacia spp., Sorghum bicolor
12 SD12 Dale eucalyptus Coffee Arrabica Accacia,datura arborea
13 SD13 Dale Accacia spp., Coffee Arrabica Guizotia
14 SD14 Dale Brassica spp. Guizotia
15 SD15 Dale Eucalyptus Unidentified
16 SD16 Dale Bidens prestinaria Crassoephalumvitellinum
17 SD17 Dale Eucalyptus, Coffee Arrabica Coriadrum sativum
18 SD18 Dale Cyprus., Coffee Arrabica Hypoestes trifolia
19 SD19 Dale Eucalyptus, Coffee Arrabica Lipidium sativum
20 SD20 Dale Eucalyptus Coffee Arrabica
Table 8: Gedeo zone honey pollen analysis result
No Honey samples Place of
collection
Major flora/pollen plants Minor flora identified
1 Gw1 Wonago Eucalyptus unknown
2 Gw2 Wonago Lipidium,Vernonia Accacia spp.
3 Gw3 Wonago Accacia spp. Grass spp.
4 Gw4 Wonago Eucalyptus unknown
5 Gw5 Wonago Vernonia, Lipidium Trifollium
6 Gw6 Wonago Triffolium, Lipidium Vernonia
7 Gw7 Wonago Lipidium Coffee Arabica
8 Gw8 Wonago Coffee arabica Vernnia spp.
9 Gw9 Wonago coffee arabica Trifolium
10 Gw10 Wonago coffee arabica Triffolium
11 GK11 Kochere Lipidium Romex
12 GK12 Kochere Lipidium Guizotia
13 GK13 Kochere Acacia Vernonia
14 GK14 Kochere Vernonia Eucalyptus
15 GK15 Kochere Coffee Arabica Eucalyptus
16 GK16 Kochere Lipidium unknown
17 GK17 Kochere Vernonia, lipidium Unknown
18 GK18 Kochere Eucalyptus Coffee arabica
19 GK19 Kochere Lipidium Vernonia,acacia,grass
20 GK20 Kochere Pisum sativum, Brassica
Honey sample collection and Laboratory
analysis
Fresh honey samples from different agro-
ecologies at different seasons were collected for
laboratory analysis. A total of 1 kg/farmer honey
samples were collected per sites of the study
area from 10 beekeepers across the actual
surveyed farmers. The pollen analysis was
made following the methods adopted by
Louvuex 1978, for determination of botanical
composition and frequency of pollen grains in
the honey at Holleta Bee research center
Laboratory. During the course of present
investigation 10 honey samples were collected
from 4 study districts between January 2014 to
May 2014.
Sidama zone districts honey samples result
As shown in table 7, the majority of the
shebedino and dale woreda honey samples
were dominated by Vernonia, Eucalyptus, and
Guizotia and Coffee Arabica species.
Gedeo zone districts honey samples result
As shown in the table 8, Majority of the
11. 378. J. Agric. Econs, Extens and Rural
Develop
wonago and Kochere woreda honey samples
were dominated by Lipidium, coffee Arabica,
Eucalyptus and Guizotia species.
Major constrains of Honey bee production
system in the study Districts
a. Limited knowledge of about the potential
of the area
The main problem to beekeeping farming in
Wonago and Kochere Woreda was that the
relevant agricultural offices have limited
knowledge about the natural potential and
constraints of beekeeping sector in the districts.
Although better potential in apiculture,
Shebedino and dale woredas have better
awareness in beekeeping activities than
Kochere and wonago. Most of Woreda experts
did not have clear idea about the existing
system and potential for development of
apiculture in the Woreda. As the result, the
sector was not considered as a priority
marketable commodity in the strategic plan of
the Woreda of agricultural offices. However,
during the assessment study and constraints
and potential identification survey farmers in the
area identified apiculture as one of priority
marketable commodities and income earning
activity for resource poor farmers in the Woreda.
b. Traditional way of harvesting and
postharvest management system
As to on farm interview, the major constraint that
hindered apiculture production and productivity
in the area is apiary mismanagement, lack of
awareness, and traditional way of harvesting
honey bee products. All the farming societies in
specified location perform hunting rather than
following scientifically defined way of harvesting
and collecting honey. In Kochere and wonago
woreda of Gedeo zone, the farmers harvest
honey by climbing to tree through rope and
thoroughgoing the hive to the ground simply.
Before througing the hives to ground, they
prepare the plastic and or leaves with enset so
that the honey will not be poured on the land.
The farmers also prepare another new hives on
strait upward to broken old hive so that the
honey colony will back in to it.
c. Lack of organized marketing system and
information asymmetry
The marketing system of honey bee products in
wonago and Kochere Woreda characterized as
traditional, one sided and full of constraints. The
small scale farmers in the area are only price
taker. It is the buyers that determine the price of
honey. There are no more cooperatives formed
for collecting and marketing honey bee products
at specific area. It is somewhat better in
Shebedino and Dale woredas of Sidama zone.
d. Lack of improved beekeeping, product
processing equipment and better
management option
As to the study, the small scale farmer in the
Keble lacks: improved hives, access to
improved beekeeping system and management
options.
e. Lack of skill and knowledge of bee
keeping
During the survey, it was observed that most of
apiaries were kept in traditional way; all hangs
their hives on big natural forest that was far
away from their residence and difficult to
immediate supervisions and checking ups. At
the time of on farm assessment study it was
understood that the small scale farmers hadn’t
accessed to any form of training and awareness
creating research demonstration on apiculture
farming. limited adoption of modern technology
in Wonago and Kochere than shebedino and
dale woredas.
f. Lack of established market system and
institutional linkage
Traders are price makers and small scale
farmers price takers, no cooperatives organized,
marketing information sources are traders. As
there was limited improved processing
equipment and better understanding on
apiculture, the small scale farmer forced to
Market crude honey had a negative role for
better exploitation and efficient utilization
existing resources in all study woredas.
g. Honey bee enemies and agricultural
chemicals
From the respondent farmers in table 9, almost
all farmers apply chemical for their weeds in
Gedeo and Sidama area and its surrounding in
the time interval starting from 1hr AM until 12PM
local time of afternoon while all the apiary are
12. 379. Teklu
Table 9: major honey bee enemies and control measures in the study area.
Major honey bee
enemies
Major damages caused on bee Rank on
causing
damage
Prevalenc
e seasons
Controlling mechanisms
Adopted
Ant Disturbance,eating brood,honey bee
and honey
First wet
season
Using Olomo plant, firing, daily
follow up and using hot water,
benzene
hamagot Disturbance,breaking hives,and
eating honey and wax and killing
bees
Second All year
round
Fencing with ‘eshoke’,
Small Beetle Honey and larvae eating Third All year
round
Seasonal management and
cleaning
Birds Eating honey bees forth All year Using ‘wonchif’
Spider Killing and Eating honey bees seventh All year Cleaning, daily follow up
Human Disturbance, thiefting of honey bee
colonies
Sixth All year Community participation,
gardening
Wax moth Eating honey bees Fifth Wet
season
Strict closing, daily supervision
Source: Survey data: 2005-2006Ec
active in the field by collecting pollen and
nectars. One of major constraints that hindered
farming activities the apiculture not to exploit
the available were existence of honey bee
enemies such as wax moth, ant, spider, human
and chemical application at the time of optimal
honey bee working hours..
The honey bee management and close up
way was somewhat good in Sidama zone
woredas as compared to other study Woredas
on Gedeo. The very common honey bee
enemies located in the area and constrained
exploitation of apiculture farming comprises of
hamagot,ant, birds, spider, wax moth and
human.
CONCLUSION AND RECOMMENDATIONs
As to the study under taken in the selected
areas, the apiculture farming is untouched, with
lots of potentials, possibilities and resource
endowment that could boost the sector in the
region above all the rest areas in it. Existence of
different sorts of flora across all the year,
suitable agro -ecology for apiaries, availability of
natural forest in almost all the study areas are
some of major potential that encourage every
citizen on the sector in the region. Even if there
are some basic constraints that have to be
taken a due considerations such as lack of
improved honey bee flora and improved
apiculture equipments, prevalence of honey bee
enemies, limitation of introduced technologies to
the sites; the existing potential could make the
study area one of the model apiary site in not
only in the region but also in the country level.
Hence, giving due attention and implementing
scientifically proven practices such as
establishment of small scale farmer apiculture
cooperative, capacity building, pre-scaling up of
improved apiculture farming techniques,
undertaking general assessments potential level
of apiculture in the region and designing
promoting and technology adoption strategies
could help the sector to boost from the existing
potential and could take a lot of small scale
farmers out of poverty by assuring food
security, and increasing income earning from
the sector.
From this study it was ought to receive or
learn that knowledge on flora resources data
and their flowering time schedule is in the first
place possible and which is more appropriate to
local condition for honey bees productivity in
Sidama and Gedeo zone .It is noted that, there
are many bee visited plants in the area since the
area have high forest resources, and Coffee,
Grawa, Guizotia, Eucalyptus, Lipidium and
Vernonia species dominate in all selected
woredas both in social survey and honey
samples botanical analysis data and, it is
necessary to conduct further research on Flora
plants should be identified at National herbarium
level with honey samples pollen analysis and
floral calendar should be prepared in agro-
ecological base to the area and it is possible to
have flora based organic honey from this area to
national and international market with
integration of value chain. Meanwhile, most of
13. 380. J. Agric. Econs, Extens and Rural
Develop
the farmers in study districts raised that the Key
Ababa or Tarfasa in Sidama and balewotet key
Ababa in Gedeo is locally assumed to kill bees
and it is necessary to conduct visual and
laboratorial evaluation research on this plant
either it kills or not.
ACKNOWLEDGMENT
The author acknowledges the South agricultural
research institute (SARI), Hawassa agricultural
research center, for the material, logistics and
financial support and Holleta Bee research
center for cooperation of Laboratory for honey
samples botanical analysis.
gebretsadikteklu@yahoo.com.
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