History, current status and collaborative research projects for Bemisia tabaci
Bemisia tabaci was described over 100 years ago and has since become one of the most important pests worldwide in subtropical and tropical agriculture as well as in greenhouse production systems. It adapts easily to new host plants and geographical regions and has now been reported from all global continents except Antarctica. In the last decade, international transport of plant material and people have contributed to geographical spread. B. tabaci has been recorded from more than 600 plant species and there may be many additional hosts not yet formally documented. Biotypes have been identified in different areas of the world suggesting that B. tabaci may be a species-complex undergoing evolutionary change. These biotypes may exhibit differences in viruses transmitted and transmission efficiency, rates of development, endosymbionts, host utilization, and physiological host damage. Excessive B. tabaci induced losses worldwide occur in field, vegetable and ornamental crop production. Losses occur from plant diseases caused by B. tabaci transmitted viruses, direct feeding damage, plant physiological disorders, and honeydew contamination and associated fungal growth. The number of B. tabaci-transmitted plant viruses has increased, and total yield losses of important food and industrial crops has occurred. Effective control at present is dependent on insecticides. However, this has been achieved with more selective chemistries, use of action thresholds, and resistance management. Host plant resistance and various cultural methods are also components of developing integrated management systems. National and international collaborative projects have made significant progress towards improved characterization of the whitefly problem, increased research, development of management methods, transfer of technology to the agricultural communities, and information exchange. These projects, as well as intensive education, research and extension activities form the basis for biologically and ecologically based approaches to management.
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| Format: | Journal Article biblioteca |
| Language: | English |
| Published: |
2001
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| Subjects: | bemisia tabaci, pests of plants, geminiviruses, integrated control, economics, plagas de plantas, geminivirus, control integrado, economía, |
| Online Access: | https://hdl.handle.net/10568/43533 http://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1357&context=usdaarsfacpub |
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dig-cgspace-10568-435332021-10-08T18:46:58Z History, current status and collaborative research projects for Bemisia tabaci Oliveira, MRV Henneberry, TJ Anderson, Pamela K. bemisia tabaci pests of plants geminiviruses integrated control economics plagas de plantas geminivirus control integrado economía Bemisia tabaci was described over 100 years ago and has since become one of the most important pests worldwide in subtropical and tropical agriculture as well as in greenhouse production systems. It adapts easily to new host plants and geographical regions and has now been reported from all global continents except Antarctica. In the last decade, international transport of plant material and people have contributed to geographical spread. B. tabaci has been recorded from more than 600 plant species and there may be many additional hosts not yet formally documented. Biotypes have been identified in different areas of the world suggesting that B. tabaci may be a species-complex undergoing evolutionary change. These biotypes may exhibit differences in viruses transmitted and transmission efficiency, rates of development, endosymbionts, host utilization, and physiological host damage. Excessive B. tabaci induced losses worldwide occur in field, vegetable and ornamental crop production. Losses occur from plant diseases caused by B. tabaci transmitted viruses, direct feeding damage, plant physiological disorders, and honeydew contamination and associated fungal growth. The number of B. tabaci-transmitted plant viruses has increased, and total yield losses of important food and industrial crops has occurred. Effective control at present is dependent on insecticides. However, this has been achieved with more selective chemistries, use of action thresholds, and resistance management. Host plant resistance and various cultural methods are also components of developing integrated management systems. National and international collaborative projects have made significant progress towards improved characterization of the whitefly problem, increased research, development of management methods, transfer of technology to the agricultural communities, and information exchange. These projects, as well as intensive education, research and extension activities form the basis for biologically and ecologically based approaches to management. 2001 2014-09-24T08:42:17Z 2014-09-24T08:42:17Z Journal Article 0261-2194 https://hdl.handle.net/10568/43533 http://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1357&context=usdaarsfacpub en Open Access Crop Protection |
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bemisia tabaci pests of plants geminiviruses integrated control economics plagas de plantas geminivirus control integrado economía bemisia tabaci pests of plants geminiviruses integrated control economics plagas de plantas geminivirus control integrado economía |
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bemisia tabaci pests of plants geminiviruses integrated control economics plagas de plantas geminivirus control integrado economía bemisia tabaci pests of plants geminiviruses integrated control economics plagas de plantas geminivirus control integrado economía Oliveira, MRV Henneberry, TJ Anderson, Pamela K. History, current status and collaborative research projects for Bemisia tabaci |
| description |
Bemisia tabaci was described over 100 years ago and has since become one of the most important pests worldwide in subtropical and tropical agriculture as well as in greenhouse production systems. It adapts easily to new host plants and geographical regions and has now been reported from all global continents except Antarctica. In the last decade, international transport of plant material and people have contributed to geographical spread. B. tabaci has been recorded from more than 600 plant species and there may be many additional hosts not yet formally documented. Biotypes have been identified in different areas of the world suggesting that B. tabaci may be a species-complex undergoing evolutionary change. These biotypes may exhibit differences in viruses transmitted and transmission efficiency, rates of development, endosymbionts, host utilization, and physiological host damage. Excessive B. tabaci induced losses worldwide occur in field, vegetable and ornamental crop production. Losses occur from plant diseases caused by B. tabaci transmitted viruses, direct feeding damage, plant physiological disorders, and honeydew contamination and associated fungal growth. The number of B. tabaci-transmitted plant viruses has increased, and total yield losses of important food and industrial crops has occurred. Effective control at present is dependent on insecticides. However, this has been achieved with more selective chemistries, use of action thresholds, and resistance management. Host plant resistance and various cultural methods are also components of developing integrated management systems. National and international collaborative projects have made significant progress towards improved characterization of the whitefly problem, increased research, development of management methods, transfer of technology to the agricultural communities, and information exchange. These projects, as well as intensive education, research and extension activities form the basis for biologically and ecologically based approaches to management. |
| format |
Journal Article |
| topic_facet |
bemisia tabaci pests of plants geminiviruses integrated control economics plagas de plantas geminivirus control integrado economía |
| author |
Oliveira, MRV Henneberry, TJ Anderson, Pamela K. |
| author_facet |
Oliveira, MRV Henneberry, TJ Anderson, Pamela K. |
| author_sort |
Oliveira, MRV |
| title |
History, current status and collaborative research projects for Bemisia tabaci |
| title_short |
History, current status and collaborative research projects for Bemisia tabaci |
| title_full |
History, current status and collaborative research projects for Bemisia tabaci |
| title_fullStr |
History, current status and collaborative research projects for Bemisia tabaci |
| title_full_unstemmed |
History, current status and collaborative research projects for Bemisia tabaci |
| title_sort |
history, current status and collaborative research projects for bemisia tabaci |
| publishDate |
2001 |
| url |
https://hdl.handle.net/10568/43533 http://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1357&context=usdaarsfacpub |
| work_keys_str_mv |
AT oliveiramrv historycurrentstatusandcollaborativeresearchprojectsforbemisiatabaci AT henneberrytj historycurrentstatusandcollaborativeresearchprojectsforbemisiatabaci AT andersonpamelak historycurrentstatusandcollaborativeresearchprojectsforbemisiatabaci |
| _version_ |
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