Enset is an important root crop widely used as a staple food for millions of people in Ethiopia. Despite to enset is dominantly produced in southern and south western parts of the county, diverse diseases and insect pests are challenging its growth and productivity at these production areas. Hence, this review was aimed to discuss the integrated pest management (IPM) system that used to control the major enset pests (disease and inset) in different production areas of Ethiopia. Enset is a root crop that is highly susceptible to different kinds of diseases and insect pest problems. Enset Bacterial wilt (EBW) is a major devastating disease causing important economic losses and can lead up to killing the whole plant parts that are commonly observed around enset growing areas of the country. Enset root mealybug is also a major insect found on the upper half of the corm and root parts of enset which can retard the plant growth and causes to dry the outer parts of the leaf that might finally leading to the plant death. However, most of enset growers are practicing different controlling mechanisms against these major enset diseases and insect pests around the production areas. Due to the chemical controlling method needs the cost of purchase and usage on root mealybug has usually not effective, the producers are widely uses an IPM systems incorporating with their indigenous knowledges to prevent the major disease and insect introduction to the enset field and to control an already infected plant. Hence, the enset producers mainly uses the IPM components like the host plant resistance, the cultural controlling system, the biological controlling system, and the chemical controlling system as the last option to manage their enset farms in Ethiopia. These IPM components are not only an optional pest controlling methods but necessitate its practice against the major pest problems due to environmentally friend, cost-effective, and alternative options to various behaviors of pests. However, breeding for pest-resistant enset genotype and adoption of successful IPM controlling mechanisms to all enset growing areas need further work to alleviate the encountered challenges on the enset production areas in Ethiopia.
| Published in | American Journal of Entomology (Volume 6, Issue 2) |
| DOI | 10.11648/j.aje.20220602.11 |
| Page(s) | 14-21 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2022. Published by Science Publishing Group |
Bacterial Wilt Disease, Biological Control Method, Chemical Control Method, Cultural Control Methods, Enset Root Mealy Bug, Pest Infestation
| [1] | Taye, B., F. Asrat & B. Regassa. 1967. The Cultivation of The Genus Enset in Ethiopia. Soil and Crop Science Soci¬ety of Florida. 27: 133-141. |
| [2] | Zippel K. and Kefale A., 1995. A field guide to enset landraces of North Omo, Ethiopia. FRP Technical Pamphlet No. 9, iv+208 pp., FARM Africa, Addis Ababa. |
| [3] | Brandt, S. A., 1997. The 'Tree against hunger' Enset-Based Agricultural Systems in Ethiopia. In: American Association for the advancement of science. 7 (1): 21-22. |
| [4] | Tsegaye A. and Struik P. C. 2001. Enset (Ensete ventricosum (Welw.) Cheesman) Kocho Yield Under Different Crop Establishment Methods as Compared to Yields of Other Carbohydrate-Rich Food Crops. Netherlands Journal of Agricultural Science. 49: 81–94. |
| [5] | Mohammed B., Gabel M., and Karlsson L. M., 2013. Nutritive Values of Drought-Tolerant Food and Fodder Crop Enset. African Journal of Agricultural Research. 8: 2326–2333. |
| [6] | Elias E., Morse S., and Belshaw D. G. R. 1998. Nitrogen and Phosphorus Balance of Kindo Koisha Farms in Southern Ethiopia. Agriculture, Ecosystems and Environment. 71: 93–113. |
| [7] | Tesfaye B. 2008. The Enset (Ensete ventricosum) Gardens of Sidama: Composition, Structure, and Dynamics of a Traditional Poly-Variety System. Genetic Resources and Crop Evolution. 55: 1347–1358. |
| [8] | Riyaz, S. M. and Kathiravan, K., 2019. Integrated Pest Management Approaches. Geminiviruses, Pp. 219-235. Doi.org/10.1007/978-3-030-18248-9_12. |
| [9] | Desalegn R, Addis S., 2015. Enset (Ensete ventricosum [Welw]) Bacterial Wilt Survey in Borena Mid-Altitude. International Inv. Journal of Agricultural Soil Science. 3 (2): 9-12. |
| [10] | Zipper K. 2005. Diversity Over Time and Space in Enset Landraces (Ensete ventricosum) in Ethiopia. In: Huber, B. A., Sinclair, B. J. and Lampe, K.-H. (eds.). African Biodiversity Molecules, Organisms, Ecosystems. Pp: 423–438. Springer Science, New York. |
| [11] | Blomme, G., Ploetz, R., Jones, D., De Langhe, E., Price, N., Gold, C., Geering, A., Viljoen, A., Karamura, D., Pillay, M. and Tinzaara, W., 2013. A Historical Overview of The Appearance and Spread of Musa Pests and Pathogens on the African Continent: Highlighting the Importance of Clean Musa Planting Materials and Quarantine Measures. Annals of Applied Biology. 162 (1): 4-26. |
| [12] | Yirgou, D. and Bradbury, J. F. 1974. A Note Wilt of Banana Caused by the Enset Wilt Organism Xanthomonas musacearum. East African Agricultural and Forestry Journal. 40: 111-114. |
| [13] | Addis, T., 2005. Biology of Enset Root Mealybug (Cataenococcus ensete) Williams and Matileferrero (Homoptera: Pseudococcidae) and Its Geographical Distribution in Southern Ethiopia (Doctoral Dissertation, MSc. Thesis, Haramaya University, Haramaya, Ethiopia. Pp: 81). |
| [14] | Wolde, M., Ayalew, A. and Chala, A., 2016. Assessment Of Bacterial Wilt (Xanthomonas campestris Pv. Musacearum) of Enset in Southern Ethiopia. African Journal of Agricultural Research, 11 (19): 1724-1733. |
| [15] | Lemawork, S., Azerefegne, F., Alemu, T., Addis, T., and Blomme, G., 2011. Evaluation Of Entomopathogenic Fungi Against Cataenococcus ensete [Williams and Matile-Ferrero, (Homoptera: Pseudococcidae)] on Enset. Crop Protection. 30 (4): 401-404. |
| [16] | Abate, T., 1988. Insect And Mite Pests of Horticultural and Miscellaneous Plants in Ethiopia. |
| [17] | Addis, T., Azerefegne, F., and Blomme, G., 2008. Density and Distribution on Enset Root Mealybugs on Enset. African Crop Science Journal. 16 (1). |
| [18] | Addis, T., Azerefegne, F., Alemu, T., Lemawork, S., Tadesse, E., Gemu, M., and Blomme, G., 2010. Biology, Geographical Distribution, Prevention, and Control of the Enset Root mealybug, Cataenococcus ensete (Homoptera: Pseudococcidae) in Ethiopia. Special Issue: Bananas, Plantains, And Ensete II.). A tree for Science and Biotechnology. 4 (1): 39-46. |
| [19] | Kefelegn, H., Tilahun, B., and Girma, F., 2014. Indigenous Management of Enset Root Mealybug (Cataenococcus ensete) Williams and Matile-Ferrero (Homoptera: Pseudococcidae) in Gedeo Zone, Ethiopia. International Journal of Life Sciences. 3 (4): 131-136. |
| [20] | Dent, D., 2000. Insect Pest Management. Cabi. |
| [21] | Fikre H. & Gizachew W. 2007. Evaluation of Enset Clone Media Against Enset Bacterial Wilt. African Crop Science Conference Proceedings. 8: 887-890. |
| [22] | Handoro F., and Said A., 2016. Enset Clones’ Responses to Bacterial Wilt Disease (Xanthomonas campestris pv. Musacearum). IJAPSA. 2 (9): 45-53. |
| [23] | Hunduma T., Kassahun S., Endale H., and Mengistu O. 2015. Evaluation of Enset Clones Resistance Against Enset Bacterial Wilt Disease (Xanthomonas campestris pv. musacearum). |
| [24] | Jenkins E. and Hines R., 2007. Horticulture Pest Management. A Guide for Commercial Applicators Category 2b. |
| [25] | Mulualem, T., and Walle, T., 2014. Farmer’s Indigenous Knowledge and Assessment of Enset (Ensete ventricosum [Welw.] Cheesman) Cultivars for Major Insect Pests in Ojojia Water Shade Kembata-Tembaro Zone, South Ethiopia. Sky Journal of Agriculture Research. 3 (6): 112-119. |
| [26] | Kasa, D., Getaneh, W., and Tesfahun, F., 2013. Evaluation of Different Botanical Plant Extracts and Other Material Against Enset Bacterial Wilt Disease in Oromia Regional State, Ethiopia. 11th African Crop Science Proceedings. Sowing Innovations for Sustainable Food and Nutrition Security in Africa. Entebbe, Uganda, 14-17 October 2013. Pp: 389-393. |
| [27] | Azerefegne, F., Addis, T., Alemu, T., Lemawork, S., Tadesse, E., Gemu, M., and Blomme, G., 2009. An IPM Guide for Enset Root Mealybug (Cataenococcus ensete) in Enset Production. Biodiversity International, Uganda, and France offices. |
| [28] | Addis T, Azerefegne F, Blomme G, and K Kanaujia. 2008a. Biology of the Enset Root Mealybug, Cataenococcus ensete, and its Geographical Distribution in Southern Ethiopia. Journal of Applied Biosciences. 8 (1): 251–260. |
| [29] | Blumberg, D., and Van Driesche, R. G., 2001. Encapsulation Rates of Three Encrypted Parasitoids by Three Mealybug Species (Homoptera: Pseudococcidae) Found Commonly as Pests in Commercial Greenhouses. Biological Control. 22 (2): 191-199. |
| [30] | Tadesse, E., Azerefegne, F., Alemu, T., Addis, T., and Blomme, G., 2010. Studies on the Efficacy of Some Selected Botanicals Against Ensete Root Mealybug (Cataenococcus ensete) Williams and Matile-Ferrero (Homoptera: Pseudococcidae) (Special Issue: Bananas, Plantains and Ensete II.). Tree and Forestry Science and Biotechnology. 4 (2): 91-94. |
APA Style
Habtamu Gudisa Megersa, Dadi Tolessa Lemma. (2022). Integrated Major Pest Management Systems of Enset (Ensete ventricosum (Welw.) Cheesman) in Ethiopia. American Journal of Entomology, 6(2), 14-21. https://doi.org/10.11648/j.aje.20220602.11
ACS Style
Habtamu Gudisa Megersa; Dadi Tolessa Lemma. Integrated Major Pest Management Systems of Enset (Ensete ventricosum (Welw.) Cheesman) in Ethiopia. Am. J. Entomol. 2022, 6(2), 14-21. doi: 10.11648/j.aje.20220602.11
AMA Style
Habtamu Gudisa Megersa, Dadi Tolessa Lemma. Integrated Major Pest Management Systems of Enset (Ensete ventricosum (Welw.) Cheesman) in Ethiopia. Am J Entomol. 2022;6(2):14-21. doi: 10.11648/j.aje.20220602.11
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.aje.20220602.11,
author = {Habtamu Gudisa Megersa and Dadi Tolessa Lemma},
title = {Integrated Major Pest Management Systems of Enset (Ensete ventricosum (Welw.) Cheesman) in Ethiopia},
journal = {American Journal of Entomology},
volume = {6},
number = {2},
pages = {14-21},
doi = {10.11648/j.aje.20220602.11},
url = {https://doi.org/10.11648/j.aje.20220602.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.aje.20220602.11},
abstract = {Enset is an important root crop widely used as a staple food for millions of people in Ethiopia. Despite to enset is dominantly produced in southern and south western parts of the county, diverse diseases and insect pests are challenging its growth and productivity at these production areas. Hence, this review was aimed to discuss the integrated pest management (IPM) system that used to control the major enset pests (disease and inset) in different production areas of Ethiopia. Enset is a root crop that is highly susceptible to different kinds of diseases and insect pest problems. Enset Bacterial wilt (EBW) is a major devastating disease causing important economic losses and can lead up to killing the whole plant parts that are commonly observed around enset growing areas of the country. Enset root mealybug is also a major insect found on the upper half of the corm and root parts of enset which can retard the plant growth and causes to dry the outer parts of the leaf that might finally leading to the plant death. However, most of enset growers are practicing different controlling mechanisms against these major enset diseases and insect pests around the production areas. Due to the chemical controlling method needs the cost of purchase and usage on root mealybug has usually not effective, the producers are widely uses an IPM systems incorporating with their indigenous knowledges to prevent the major disease and insect introduction to the enset field and to control an already infected plant. Hence, the enset producers mainly uses the IPM components like the host plant resistance, the cultural controlling system, the biological controlling system, and the chemical controlling system as the last option to manage their enset farms in Ethiopia. These IPM components are not only an optional pest controlling methods but necessitate its practice against the major pest problems due to environmentally friend, cost-effective, and alternative options to various behaviors of pests. However, breeding for pest-resistant enset genotype and adoption of successful IPM controlling mechanisms to all enset growing areas need further work to alleviate the encountered challenges on the enset production areas in Ethiopia.},
year = {2022}
}
TY - JOUR T1 - Integrated Major Pest Management Systems of Enset (Ensete ventricosum (Welw.) Cheesman) in Ethiopia AU - Habtamu Gudisa Megersa AU - Dadi Tolessa Lemma Y1 - 2022/04/22 PY - 2022 N1 - https://doi.org/10.11648/j.aje.20220602.11 DO - 10.11648/j.aje.20220602.11 T2 - American Journal of Entomology JF - American Journal of Entomology JO - American Journal of Entomology SP - 14 EP - 21 PB - Science Publishing Group SN - 2640-0537 UR - https://doi.org/10.11648/j.aje.20220602.11 AB - Enset is an important root crop widely used as a staple food for millions of people in Ethiopia. Despite to enset is dominantly produced in southern and south western parts of the county, diverse diseases and insect pests are challenging its growth and productivity at these production areas. Hence, this review was aimed to discuss the integrated pest management (IPM) system that used to control the major enset pests (disease and inset) in different production areas of Ethiopia. Enset is a root crop that is highly susceptible to different kinds of diseases and insect pest problems. Enset Bacterial wilt (EBW) is a major devastating disease causing important economic losses and can lead up to killing the whole plant parts that are commonly observed around enset growing areas of the country. Enset root mealybug is also a major insect found on the upper half of the corm and root parts of enset which can retard the plant growth and causes to dry the outer parts of the leaf that might finally leading to the plant death. However, most of enset growers are practicing different controlling mechanisms against these major enset diseases and insect pests around the production areas. Due to the chemical controlling method needs the cost of purchase and usage on root mealybug has usually not effective, the producers are widely uses an IPM systems incorporating with their indigenous knowledges to prevent the major disease and insect introduction to the enset field and to control an already infected plant. Hence, the enset producers mainly uses the IPM components like the host plant resistance, the cultural controlling system, the biological controlling system, and the chemical controlling system as the last option to manage their enset farms in Ethiopia. These IPM components are not only an optional pest controlling methods but necessitate its practice against the major pest problems due to environmentally friend, cost-effective, and alternative options to various behaviors of pests. However, breeding for pest-resistant enset genotype and adoption of successful IPM controlling mechanisms to all enset growing areas need further work to alleviate the encountered challenges on the enset production areas in Ethiopia. VL - 6 IS - 2 ER -
Information
Email: