Germination requirements for 29 terrestrial and wetland wild plant species appropriate for phytotoxicity testing

BACKGROUND: Species selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the regulatory level. However, guidelines by the Organisation for Economic Development and Cooperation (OECD) were recently amended in 2006 to include a lis...

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Published inPest management science Vol. 65; no. 1; pp. 19 - 26
Main Authors White, Andrea L, Boutin, Céline, Dalton, Rebecca L, Henkelman, Bettina, Carpenter, David
Format Journal Article
LanguageEnglish
Published Chichester, UK John Wiley & Sons, Ltd 2009
Wiley
Wiley Subscription Services, Inc
Subjects
aquatic plants
Biological and medical sciences
cooling
Crop science
Fundamental and applied biological sciences. Psychology
Germination
Germination - physiology
herbaceous plants
imbibition
laboratory techniques
non-crop plant species
non-target plant testing
Organization for Economic Development and Cooperation
pesticide assessment guidelines
Phytopathology. Animal pests. Plant and forest protection
phytotoxicity
Plant Development
Plants - classification
regulatory studies
regulatory testing
seed germination
seed stratification
Seeds
Seeds - physiology
soil depth
sowing
species differences
Species Specificity
Studies
Temperature
temporal variation
Toxicity
toxicity testing
Water
Wetlands
wild plants
OECD
Germination
Pesticides
non-target plant testing
pesticide assessment guidelines
Recommendation
non-crop plant species
Phytotoxicity
herbaceous plants
Wild plant
Herbaceous plant
Non target organism
regulatory studies
Wetland
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Abstract BACKGROUND: Species selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the regulatory level. However, guidelines by the Organisation for Economic Development and Cooperation (OECD) were recently amended in 2006 to include a list of herbaceous non-crop plant species suitable for testing. The objective of this study was to outline the optimum germination requirements for a selection of wild species for which seeds were readily available from commercial suppliers.RESULTS: Of the 29 herbaceous terrestrial and wetland species included in this study, all achieved 50% germination and 23 reached > 70% germination to meet the criterion outlined in the OECD guidelines. Most species attained their maximum germination within 14 days or less. Cold stratification of imbibed seeds improved germination for 14 species. Increasing sowing soil depth did not improve seed germination. The variance attained in this experiment between replicates was low, especially for species with > 70% germination (standard error ~5%).CONCLUSION: The present study showed that 23 of the 29 species tested required minimal pretreatments and produced consistent, reliable and uniform germination reaching at least 70%. The inclusion of wild plant species in regulatory testing should be given real consideration.
AbstractList Abstract BACKGROUND: Species selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the regulatory level. However, guidelines by the Organisation for Economic Development and Cooperation (OECD) were recently amended in 2006 to include a list of herbaceous non‐crop plant species suitable for testing. The objective of this study was to outline the optimum germination requirements for a selection of wild species for which seeds were readily available from commercial suppliers. RESULTS: Of the 29 herbaceous terrestrial and wetland species included in this study, all achieved 50% germination and 23 reached > 70% germination to meet the criterion outlined in the OECD guidelines. Most species attained their maximum germination within 14 days or less. Cold stratification of imbibed seeds improved germination for 14 species. Increasing sowing soil depth did not improve seed germination. The variance attained in this experiment between replicates was low, especially for species with > 70% germination (standard error ∼5%). CONCLUSION: The present study showed that 23 of the 29 species tested required minimal pretreatments and produced consistent, reliable and uniform germination reaching at least 70%. The inclusion of wild plant species in regulatory testing should be given real consideration. Copyright © 2008 Crown in the right of Canada. Published by John Wiley & Sons, Ltd
BACKGROUND: Species selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the regulatory level. However, guidelines by the Organisation for Economic Development and Cooperation (OECD) were recently amended in 2006 to include a list of herbaceous non-crop plant species suitable for testing. The objective of this study was to outline the optimum germination requirements for a selection of wild species for which seeds were readily available from commercial suppliers.RESULTS: Of the 29 herbaceous terrestrial and wetland species included in this study, all achieved 50% germination and 23 reached > 70% germination to meet the criterion outlined in the OECD guidelines. Most species attained their maximum germination within 14 days or less. Cold stratification of imbibed seeds improved germination for 14 species. Increasing sowing soil depth did not improve seed germination. The variance attained in this experiment between replicates was low, especially for species with > 70% germination (standard error ~5%).CONCLUSION: The present study showed that 23 of the 29 species tested required minimal pretreatments and produced consistent, reliable and uniform germination reaching at least 70%. The inclusion of wild plant species in regulatory testing should be given real consideration.
BACKGROUND: Species selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the regulatory level. However, guidelines by the Organisation for Economic Development and Cooperation (OECD) were recently amended in 2006 to include a list of herbaceous non‐crop plant species suitable for testing. The objective of this study was to outline the optimum germination requirements for a selection of wild species for which seeds were readily available from commercial suppliers. RESULTS: Of the 29 herbaceous terrestrial and wetland species included in this study, all achieved 50% germination and 23 reached > 70% germination to meet the criterion outlined in the OECD guidelines. Most species attained their maximum germination within 14 days or less. Cold stratification of imbibed seeds improved germination for 14 species. Increasing sowing soil depth did not improve seed germination. The variance attained in this experiment between replicates was low, especially for species with > 70% germination (standard error ∼5%). CONCLUSION: The present study showed that 23 of the 29 species tested required minimal pretreatments and produced consistent, reliable and uniform germination reaching at least 70%. The inclusion of wild plant species in regulatory testing should be given real consideration. Copyright © 2008 Crown in the right of Canada. Published by John Wiley & Sons, Ltd
Species selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the regulatory level. However, guidelines by the Organisation for Economic Development and Cooperation (OECD) were recently amended in 2006 to include a list of herbaceous non-crop plant species suitable for testing. The objective of this study was to outline the optimum germination requirements for a selection of wild species for which seeds were readily available from commercial suppliers. Of the 29 herbaceous terrestrial and wetland species included in this study, all achieved 50% germination and 23 reached > 70% germination to meet the criterion outlined in the OECD guidelines. Most species attained their maximum germination within 14 days or less. Cold stratification of imbibed seeds improved germination for 14 species. Increasing sowing soil depth did not improve seed germination. The variance attained in this experiment between replicates was low, especially for species with > 70% germination (standard error approximately 5%). The present study showed that 23 of the 29 species tested required minimal pretreatments and produced consistent, reliable and uniform germination reaching at least 70%. The inclusion of wild plant species in regulatory testing should be given real consideration.
BACKGROUNDSpecies selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the regulatory level. However, guidelines by the Organisation for Economic Development and Cooperation (OECD) were recently amended in 2006 to include a list of herbaceous non-crop plant species suitable for testing. The objective of this study was to outline the optimum germination requirements for a selection of wild species for which seeds were readily available from commercial suppliers.RESULTSOf the 29 herbaceous terrestrial and wetland species included in this study, all achieved 50% germination and 23 reached > 70% germination to meet the criterion outlined in the OECD guidelines. Most species attained their maximum germination within 14 days or less. Cold stratification of imbibed seeds improved germination for 14 species. Increasing sowing soil depth did not improve seed germination. The variance attained in this experiment between replicates was low, especially for species with > 70% germination (standard error approximately 5%).CONCLUSIONThe present study showed that 23 of the 29 species tested required minimal pretreatments and produced consistent, reliable and uniform germination reaching at least 70%. The inclusion of wild plant species in regulatory testing should be given real consideration.
Species selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the regulatory level. However, guidelines by the Organisation for Economic Development and Cooperation (OECD) were recently amended in 2006 to include a list of herbaceous non-crop plant species suitable for testing. The objective of this study was to outline the optimum germination requirements for a selection of wild species for which seeds were readily available from commercial suppliers. Of the 29 herbaceous terrestrial and wetland species included in this study, all achieved 50% germination and 23 reached > 70% germination to meet the criterion outlined in the OECD guidelines. Most species attained their maximum germination within 14 days or less. Cold stratification of imbibed seeds improved germination for 14 species. Increasing sowing soil depth did not improve seed germination. The variance attained in this experiment between replicates was low, especially for species with > 70% germination (standard error ~5%). The present study showed that 23 of the 29 species tested required minimal pretreatments and produced consistent, reliable and uniform germination reaching at least 70%. The inclusion of wild plant species in regulatory testing should be given real consideration.
Author Dalton, Rebecca L
Henkelman, Bettina
White, Andrea L
Boutin, Céline
Carpenter, David
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Issue 1
Keywords Germination
Pesticides
non-target plant testing
pesticide assessment guidelines
Recommendation
non-crop plant species
Phytotoxicity
herbaceous plants
Wild plant
Herbaceous plant
Non target organism
regulatory studies
Wetland
Language English
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Snippet BACKGROUND: Species selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the regulatory...
Species selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the regulatory level....
Abstract BACKGROUND: Species selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the...
BACKGROUNDSpecies selected for phytotoxicity testing have been limited to a few standard crop species owing to restrictive recommendations at the regulatory...
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wiley
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StartPage 19
SubjectTerms aquatic plants
Biological and medical sciences
cooling
Crop science
Fundamental and applied biological sciences. Psychology
Germination
Germination - physiology
herbaceous plants
imbibition
laboratory techniques
non-crop plant species
non-target plant testing
Organization for Economic Development and Cooperation
pesticide assessment guidelines
Phytopathology. Animal pests. Plant and forest protection
phytotoxicity
Plant Development
Plants - classification
regulatory studies
regulatory testing
seed germination
seed stratification
Seeds
Seeds - physiology
soil depth
sowing
species differences
Species Specificity
Studies
Temperature
temporal variation
Toxicity
toxicity testing
Water
Wetlands
wild plants
Title Germination requirements for 29 terrestrial and wetland wild plant species appropriate for phytotoxicity testing
URI https://api.istex.fr/ark:/67375/WNG-JMZ6BJF6-6/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fps.1638
https://www.ncbi.nlm.nih.gov/pubmed/18785223
https://www.proquest.com/docview/222642747
https://search.proquest.com/docview/20593516
https://search.proquest.com/docview/66737965
Volume 65
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