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252:) and Cyt toxins, including Cry4, Cry10, Cry11, Cyt1, and Cyt2. The crystal aggregation which these toxins form contains at least four major toxic components, but the extent to which each Cry and Cyt protein is represented is not known and likely to vary with strain and formulation. Both Cry and Cyt proteins are
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of
Germany. This early experimentation demonstrated the efficacy of Bti in controlling mosquito populations, leading to its widespread adoption. Over the years, Bti has been extensively used by various organizations, including the
367:"What are the effects of control of mosquitoes and other nematoceran Diptera using the microbial agent Bacillus thuringiensis israelensis (Bti) on aquatic and terrestrial ecosystems? A systematic review protocol"
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products is that they are thought to affect few non-target species. However, even though Bti may have minimal direct effects on non-target organisms, it may potentially be associated with knock-on effects on
179:. The presence of the mosquitoes is detected through the eggs they lay on the wooden paddle or from larvae that hatch from these eggs in the laboratory. The brown granules in the water are a
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Commercial formulations include "Mosquito Dunks", "Mosquito Bits", and "VectoBac". It is also available in bulk liquid or granular formulations for commercial and public agency use.
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Today, Bti is utilized globally across all continents to manage mosquito populations, although controlling certain vector species like
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preparation that will kill mosquito larvae that hatch in the ovitrap. Ovitraps are also used to monitor the yellow fever mosquito
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400:"Mode of action of Bacillus thuringiensis Cry and Cyt toxins and their potential for insect control"
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307:(KABS), which has utilized Bti for almost four decades without encountering resistance issues.
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The initial field tests of Bti were conducted in 1978 against the floodwater mosquito species
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and other ecosystem properties, including biodiversity and ecosystem functioning.
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remains challenging due to their breeding habits in small and hidden containers.
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Bacillus thuringiensis israelensis (Bti) was discovered in 1976 by
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Land, M, Bundschuh, M, Hopkins, RJ, et al. (2019).
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214:agents for larvae stages of certain
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181:Bacillus thuringiensis israelensis
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25:Bacillus thuringiensis israelensis
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210:) is a group of bacteria used as
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244:Bti strains possess the pBtoxis
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456:. Biologisk Myggkontroll.
384:10.1186/s13750-019-0175-1
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32:Scientific classification
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503:Bacillus thuringiensis
175:in the Swiss canton of
16:Subspecies of bacterium
594:-related article is a
470:Bacillus thuringiensis
331:Bacillus thuringiensis
195:Bacillus thuringiensis
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127:B. t. israelensis
285:Ben Gurion University
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113:B. thuringiensis
482:6 July 2013 at the
268:and forming pores.
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212:biological control
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89:Bacillaceae
655:Subspecies
639:Categories
472:fact sheet
353:References
228:blackflies
220:mosquitoes
79:Bacillales
326:Long name
275:Discovery
239:food webs
216:dipterans
107:Species:
59:Bacillota
645:Bacillus
522:Q3522985
516:Wikidata
480:Archived
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341:See also
199:serotype
100:Bacillus
85:Family:
55:Phylum:
49:Bacteria
45:Domain:
592:bacilli
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425:1857359
404:Toxicon
347:Malaria
260:midgut
256:; they
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377:(32).
226:, and
177:Ticino
154:, 1978
152:Barjac
590:This
596:stub
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430:PMID
316:and
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