Honeybee is a beneficial insect for human beings. However, their valuable products and colonies became decline from time to time. For instance, in the USA alone it declined from 60% to 26% from 1947 to 2008. However, the demand increased since it is important for a wide variety of uses. This review paper is, therefore, aimed to explore the major constraints of honeybee productions that were sourced from both abiotic and biotic factors and their management. Most of the constraints were extreme temperatures, relative humidity, drought, deforestation, poor apicultural practices, unsafe pesticide utilization, and pests. The constraints managed by different methods. For instance, foulbrood disease managed by destructing the infected comb, avoiding spore contaminations, drying the combs, ventilating, sanitation, and feed honeybees with sugar-syrup. The Varroa destructor is also managed by removing the infested combs, splitting colony, ventilating, and applying organic acids (e.g., lactic, oxalic, and formic like Mite-Away Quick Strips ®), ethereal oils, synthetic pyrethroids, fluvalinate, flumethrin, and predatory mites. The tetracycline antibiotics, chemotherapeutics, and sodium sulfathiazole used for antagonizing the honeybee pathogens while feeding the antibiotic fumagillin with 25 mg/1Litre sugar-syrup manages nosema. Chalkbrood managed by improving the ABOUT THE AUTHORS
In the coming decades, ensuring food security is one of the greatest challenges in Ethiopia. Most Ethiopians practice mixed agricultural activity which represents about 33.88% of the country`s GDP. Therefore, this paper is devoted to reviewing the existing agricultural challenges and future prospects in the country. Majorly, it focused on the shortage of farmland, climate change, fragmentation and degradation of farmland, unevenly distributed constructions and urbanizations, pests, lack of integration among stakeholders, political instabilities, and its prospects. Despite the numerous challenges, Ethiopia has marvelous opportunities like the commercialization of fruit, vegetable, and ornamental plant productions. The country has also ample opportunity in the areas of animal production that ranks first in Africa in the number of livestock heads. The country has a huge labor force and water resources. It is proximity to Middle East markets is valuable to transport fresh products within a short period of time to the needed destination. However, Ethiopia's current fruit, vegetable, and animal production for export are very limited because of fragmented cultivation and lack of quality. The country has also a great variety of climate and soil types that enables it to grow a diversity of horticultural crops. Therefore, emphasizing agriculture in Ethiopia requires the political as well as the economic commitment of all parties concerned.
Sweet potato is the seventh-ranked food crop produced after wheat, rice, maize, potato, barley, and cassava in the world. It is the most important root tuber crop in temperate, subtropical, and tropical areas of the world. It is grown for food, income-generating, and jobs for farmers and retailers. The important nutritional substances of sweet potatoes are ß-carotene and anthocyanins. However, the production and its valuable products are limited due to root-knot nematode parasitism. One of the most important destructive species of root-knot nematode to this crop is Meloidogyne incognita. The most destructive stage to sweet potato is at its second juvenile stage (J2). At this stage, it invades the roots and tubers of sweet potato highly in warm sandy soil conditions. It is an obligate plant-parasitic nematode. M. incognita caused significant yield loss to sweet potato in terms of quality, quantity, disturbing the process of photosynthesis and nutrient uptake through the formation of galling, establishing of its feeding sites, or induced galls that contain giant-feeding cells, and cracking of tubers and roots directly. It also reduces the market values of the infected tuber of sweet potato by downgrading the production values. The problem of quality and quantity losses to sweet potato by this pest is one of the major problems nowadays. It caused this problem alone or interaction with other plant-parasitic pathogens or through synergistic of fungi, bacteria, viruses, and others. Therefore, this review paper is focused on the sweet potato M. incognita biology, taxonomy, geographical distribution, and management measures.
Soybean is a leguminous crop that originated from Southeast Asia, and it was domesticated in the northeastern parts of China. Recently, it has been highly produced in the United States of America, Brazil, and Argentina for cooking oil, protein, fiber and for the manufacturing of plastics, lubricants, candles, varnishes, soaps, and biodiesel. Nevertheless, in warm, moist, sandy soil conditions, its production is highly challenged by soybean cyst nematodes (Heterodera glycines). It caused more than 30% of soybean yield loss either alone or associated with other soybean pests under suitable environmental conditions. The second-stage juvenile (J2) of this pest inserted its stylet and penetrated into the cells to get its nourishment, shelter, and reproduction site on the soybean roots. Economically, the damage it caused was highly important because it had a wide host range and lacked adequate management methods. Hence, the reason behind the writing of this chapter is to explore the different published scientific papers related to soybean cyst nematode’s economic importance, distribution, symptoms, biology, life cycle, interaction with other pathogens, different management approaches, and its prospects. This chapter shall also embrace the advanced biotechnological innovations that help in achieving effective soybean cyst nematode management that will mitigate its infections in soybean production and will also serve as an asset for the researchers. This review chapter, in addition, plays a vital role in exploring necessary information concerning soybean cyst nematode management.
Potato is an important tuberous vegetable crop in Ethiopia. However, its production is constrained by arthropod pests, nutrient depletion of soil and diseases. Among arthropod pests, two-spotted spider mite (TSSM, Tetranychus urticae) is one of the major arthropod pests affecting potato production and contributing to low yield in eastern Hararghe, Ethiopia. To tackle this problem, the survey was undertaken to assess the distribution, farmers' management practices and their perception of TSSM on the irrigated potato. The data were collected from ninety-six potato producers during the dry season in Haramaya, Kombolcha, Kersa, and Metta districts of Eastern Hararghe Zone by interviewing, observing and recording from October to March in 2018/2019. The meteorological data were obtained from the National meteorological agency, Jijiga station. The number of TSSM/potato plants, prevalence, incidence and severity levels of potato were analyzed using three-stage nested design. Farmers' perceptions and practices were analyzed by using descriptive statistics, while the relationship of weather factors and altitude with the status of TSSM was analyzed using SPSS software program version 16.0 and determination of Pearson correlation was done using SPSS statistical software. This assessment confirmed that TSSM was found in all the districts with variation in number per potato leaves, incidence and severity levels. The highest incidence (37.88%), severity (3), number of TSSM/potato (39) per plant was scored from the Haramaya district and the lowest was recorded from Kombolcha district. Based on the observation and response of the respondents, the TSSM was mostly prevailed in autumn (44.79%) but was the lowest in spring seasons (6.25%). It severely affected potato production at flowering stages (44.2%). But the lowest damage was at the seedling stage (7.4%). The number, prevalence, incidence and severity of TSSM was the highest in Haramaya and the lowest in Kombolcha districts. Data on farmer's perception also showed that 60% of them recognized TSSM on potato plants. The linear correlation coefficient indicated that the incidence (r=-0.546, Y=-0.548X+38.7), number of TSSM/potato plant (r=-0.847, Y=-0.06.232X+38.24) and severity level (r=-0.431, Y=-0.0221X+2.805) was decreased as rainfall intensity increased. The studies suggested that the provision of a resistant variety of potato, chemical pesticides, water supply will help the farmers to increase the production and productivity of potato by decreasing the yield losses due to TSSM. Further research on the seasonal abundance, effect of microclimate, natural enemies and management practices on the population dynamics of TSSM in the major potato growing areas of the eastern part of Ethiopia was suggested from the study.
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