Effects of Bt-maize material on the life cycle of the land snail Cantareus aspersus

Insect resistant Bt-maize (MON 810) expresses active Cry1Ab endotoxin derived from Bacillus thuringiensis ( Bt). Snails constitute non-target soil species potentially exposed to Bt-toxin through consumption of plant material and soil in fields where transgenic plants have been grown. We studied the...

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Veröffentlicht in:	Applied soil ecology : a section of Agriculture, ecosystems & environment ecosystems & environment, 2009-07, Vol.42 (3), p.236-242
Hauptverfasser:	Kramarz, Paulina, de Vaufleury, Annette, Gimbert, Frédéric, Cortet, Jerome, Tabone, Elisabeth, Andersen, Mathias Neumann, Krogh, Paul Henning
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Sprache:	eng
Schlagworte:	Agronomy. Soil science and plant productions Bacillus thuringiensis bacterial toxins Biological and medical sciences Chemical, physicochemical, biochemical and biological properties chronic exposure Ecotoxicology egg hatchability endotoxins food choices food intake foods Fundamental and applied biological sciences. Psychology Genetically modified crops hazard characterization Helix aspersa life cycle (organisms) Life Sciences Long-term experiment MON 810 mortality nontarget organisms ova Physics, chemistry, biochemistry and biology of agricultural and forest soils Snail snails soil soil sampling Soil science Toxicology transgenic plants Zea mays
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container_title	Applied soil ecology : a section of Agriculture, ecosystems & environment
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creator	Kramarz, Paulina de Vaufleury, Annette Gimbert, Frédéric Cortet, Jerome Tabone, Elisabeth Andersen, Mathias Neumann Krogh, Paul Henning
description	Insect resistant Bt-maize (MON 810) expresses active Cry1Ab endotoxin derived from Bacillus thuringiensis ( Bt). Snails constitute non-target soil species potentially exposed to Bt-toxin through consumption of plant material and soil in fields where transgenic plants have been grown. We studied the effect of the Cry1Ab toxin on survival, growth and egg hatchability of the snail Cantareus aspersus. From the age of 4 to 88 weeks, snails were fed either powdered Bt-maize or non- Bt-maize and exposed to soil samples collected after harvesting either the Bt-maize or non- Bt-maize. We applied four treatments: non- Bt soil + non- Bt-maize (MM); Bt soil + Bt-maize (BB), non- Bt soil + Bt-maize (MB), Bt soil + non- Bt-maize (BM). Eggs laid by snails not exposed to Bt-toxin were also exposed to the two types of soils ( Bt and non- Bt soil). At the end of growth (47 weeks of exposure), snails exposed to Bt-toxin in food and soil (BB) had a growth coefficient (GC) 25% lower than unexposed snails (MM). After the first period of reproduction (68 weeks) a significant difference remained for body mass GC between the BB and MM treatments. Differences in body mass were not significant at the end of exposure (88 weeks). For snails not previously exposed to Bt material, hatchability of eggs was similar in the soils tested. The outcome of the experiments indicates that, in growing snails, long-term exposure is needed to reveal an effect of Bt-maize. The hazard analysis of Bt-maize which we performed, based on a worst-case scenario, i.e. snails having no food choice, should now be complemented by other simple measurements, e.g. food intake, to understand the underlying mechanisms involved.
doi_str_mv	10.1016/j.apsoil.2009.04.007
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Snails constitute non-target soil species potentially exposed to Bt-toxin through consumption of plant material and soil in fields where transgenic plants have been grown. We studied the effect of the Cry1Ab toxin on survival, growth and egg hatchability of the snail Cantareus aspersus. From the age of 4 to 88 weeks, snails were fed either powdered Bt-maize or non- Bt-maize and exposed to soil samples collected after harvesting either the Bt-maize or non- Bt-maize. We applied four treatments: non- Bt soil + non- Bt-maize (MM); Bt soil + Bt-maize (BB), non- Bt soil + Bt-maize (MB), Bt soil + non- Bt-maize (BM). Eggs laid by snails not exposed to Bt-toxin were also exposed to the two types of soils ( Bt and non- Bt soil). At the end of growth (47 weeks of exposure), snails exposed to Bt-toxin in food and soil (BB) had a growth coefficient (GC) 25% lower than unexposed snails (MM). After the first period of reproduction (68 weeks) a significant difference remained for body mass GC between the BB and MM treatments. Differences in body mass were not significant at the end of exposure (88 weeks). For snails not previously exposed to Bt material, hatchability of eggs was similar in the soils tested. The outcome of the experiments indicates that, in growing snails, long-term exposure is needed to reveal an effect of Bt-maize. The hazard analysis of Bt-maize which we performed, based on a worst-case scenario, i.e. snails having no food choice, should now be complemented by other simple measurements, e.g. food intake, to understand the underlying mechanisms involved.</description><subject>Agronomy. 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Snails constitute non-target soil species potentially exposed to Bt-toxin through consumption of plant material and soil in fields where transgenic plants have been grown. We studied the effect of the Cry1Ab toxin on survival, growth and egg hatchability of the snail Cantareus aspersus. From the age of 4 to 88 weeks, snails were fed either powdered Bt-maize or non- Bt-maize and exposed to soil samples collected after harvesting either the Bt-maize or non- Bt-maize. We applied four treatments: non- Bt soil + non- Bt-maize (MM); Bt soil + Bt-maize (BB), non- Bt soil + Bt-maize (MB), Bt soil + non- Bt-maize (BM). Eggs laid by snails not exposed to Bt-toxin were also exposed to the two types of soils ( Bt and non- Bt soil). At the end of growth (47 weeks of exposure), snails exposed to Bt-toxin in food and soil (BB) had a growth coefficient (GC) 25% lower than unexposed snails (MM). After the first period of reproduction (68 weeks) a significant difference remained for body mass GC between the BB and MM treatments. Differences in body mass were not significant at the end of exposure (88 weeks). For snails not previously exposed to Bt material, hatchability of eggs was similar in the soils tested. The outcome of the experiments indicates that, in growing snails, long-term exposure is needed to reveal an effect of Bt-maize. The hazard analysis of Bt-maize which we performed, based on a worst-case scenario, i.e. snails having no food choice, should now be complemented by other simple measurements, e.g. food intake, to understand the underlying mechanisms involved.</abstract><cop>Kidlington</cop><pub>Elsevier B.V</pub><doi>10.1016/j.apsoil.2009.04.007</doi><tpages>7</tpages><orcidid>https://orcid.org/0000-0001-5673-6672</orcidid><orcidid>https://orcid.org/0000-0002-7410-8626</orcidid></addata></record>
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subjects	Agronomy. Soil science and plant productions Bacillus thuringiensis bacterial toxins Biological and medical sciences Chemical, physicochemical, biochemical and biological properties chronic exposure Ecotoxicology egg hatchability endotoxins food choices food intake foods Fundamental and applied biological sciences. Psychology Genetically modified crops hazard characterization Helix aspersa life cycle (organisms) Life Sciences Long-term experiment MON 810 mortality nontarget organisms ova Physics, chemistry, biochemistry and biology of agricultural and forest soils Snail snails soil soil sampling Soil science Toxicology transgenic plants Zea mays
title	Effects of Bt-maize material on the life cycle of the land snail Cantareus aspersus
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