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作者:Barra-Bucarei, L. , Moreno, L. D. , Iglesias, A. F.
来源:[B].Biological control in Latin America and the Caribbean: its rich history and bright future2020CABI
摘要:The first introduction of a predator of olive black scale in 1903 marked the start of biocontrol in Chile. In 1915 the Ministry of Agriculture began a programme of introduction of beneficial organisms and since then approximately 200 species of beneficial insects have been introd...
作者:Mujica, N. , Whu, M.
来源:[B].Biological control in Latin America and the Caribbean: its rich history and bright future2020CABI
摘要:In Peru, the first introduction of six species of beneficials occurred in 1904 for control of cotton white scale. By 1969, more than 20 other beneficial species had been imported for control of scales, aphids and lepidopterans in important crops. Many species established and stil...
作者:Khan, A. , Isaac, W. A. P.
来源:[B].Biological control in Latin America and the Caribbean: its rich history and bright future2020CABI
摘要:Since 1918, Trinidad and Tobago has been a rich source of biological control agents and has shipped numerous natural enemies both regionally and internationally. Successful classical biocontrol programmes using predominantly predators and parasitoids began in earnest in the 1970s...
作者:Kondo, T. , Manzano, M. R. , Cotes, A. M.
来源:[B].Biological control in Latin America and the Caribbean: its rich history and bright future2020CABI
摘要:The history of biological control of agricultural pests in Colombia dates back to 1880. The first documented cases include both classical biocontrol and the use of biopesticides against insect pests. The need to protect four national production systems of great economic importanc...
作者:Ryckewaert, P. , Lenteren, J. C. van
来源:[B].Biological control in Latin America and the Caribbean: its rich history and bright future2020CABI
摘要:Biocontrol on Haiti is mainly in the form of classical biological control. Successful early projects are control of citrus blackfly by a hymenopteran parasitoid since the 1930s and control of the sugarcane borer by an introduced tachinid parasitoid since 1953. After 1970 three hy...
作者:Lenteren, J. C. van , Bueno, V. H. P. , Luna, M. G. ...
来源:[B].Biological control in Latin America and the Caribbean: its rich history and bright future2020CABI
摘要:This book contains 32 chapters focusing on the biological control of many invasive pests, diseases and weeds and ensuring a healthy and sustainable food supply in various countries in Latin America and the Caribbean. The rich history of biological control in the region is documen...
作者:MÁrquez, M. E. , VÁzquez, L. L. , Rodríguez, M. G. ...
来源:[B].Biological control in Latin America and the Caribbean: its rich history and bright future2020CABI
摘要:The first biological control project in Cuba concerned the introduction of the parasitoid Eretmocerus serius in 1929, resulting in successful classical biocontrol of citrus blackfly in citrus. The subsequent biocontrol success that is still in use on large areas today was obtaine...
作者:Trabanino, R. , Pitty, A. , Cave, R. D.
来源:[B].Biological control in Latin America and the Caribbean: its rich history and bright future2020CABI
摘要:Prospecting for natural enemies and microbial control agents has been an important activity in Honduras since 1968, with as major projects the inventories of parasitoids of diamondback moth, striped grass looper, fall armyworm, Mexican cabbage butterfly, dipteran leaf miners, dia...
作者:Lenteren, J. C. van , Bueno, V. H. P.
来源:[B].Biological control in Latin America and the Caribbean: its rich history and bright future2020CABI
摘要:Biological control activities on 18 (groups of) Caribbean islands are summarized. Many natural enemies were introduced to these islands through Trinidad and Tobago up to 1980. Also, inter-island exchange of biocontrol agents took place. The majority of projects concerned classica...
作者:Lenteren, J. C. van
来源:[B].Biological control in Latin America and the Caribbean: its rich history and bright future2020CABI
摘要:Biological control was initiated in Guatemala in the 1990s, after costs for chemicals had increased substantially and had resulted in a drastic decrease in production of, for example, cotton and tomato. Most often, augmentative biocontrol is used in Guatemala. Examples of success...

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