A reconsideration of the safety of fenoxycarb (IGR) in soil environment: The toxicity of fenoxycarb to Yuukianura szeptyckii (Collembola)

[Display omitted] •Fenoxycarb is considered environmentally safe due to its low toxicity to mammals.•Fenoxycarb had a strong negative effect on the egg hatching rate of Y. szeptyckii.•The toxicity/exposure ratio of fenoxycarb was less than 5.•Fenoxycarb has a potential risk to Y. szeptyckii in the s...

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Published inJournal of Asia-Pacific entomology Vol. 23; no. 1; pp. 214 - 218
Main Authors Lee, Yun-Sik, Son, Jino, Wee, June, Kim, Yongeun, Hong, Jinsol, Cho, Kijong
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2020
한국응용곤충학회
Subjects
adults
adverse effects
agonists
Collembolan toxicity test
earthworms
edaphic factors
egg production
Eisenia fetida
fenoxycarb
Folsomia candida
hatching
IGRs
insect control
insect pests
juvenile hormones
juveniles
lethal concentration 50
mammals
median effective concentration
PEC
pesticides
risk
Risk assessment
soil
soil ecosystems
TER
toxicity
농학
TER
IGRs
Collembolan toxicity test
Risk assessment
PEC
Online AccessGet full text
ISSN1226-8615
1876-7990
DOI10.1016/j.aspen.2019.12.006

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Abstract [Display omitted] •Fenoxycarb is considered environmentally safe due to its low toxicity to mammals.•Fenoxycarb had a strong negative effect on the egg hatching rate of Y. szeptyckii.•The toxicity/exposure ratio of fenoxycarb was less than 5.•Fenoxycarb has a potential risk to Y. szeptyckii in the soil environment.•The risk of fenoxycarb exposure should be clarified through higher tier study. Fenoxycarb, a juvenile hormone agonist has been widely used to control various insect pests in agriculture. Fenoxycarb has been considered environmentally safe because it degrades quickly and has lower mammalian toxicity compared with many conventional pesticides. To date, fenoxycarb is reported safe for soil organisms, but this conclusion is based solely on toxicity studies with Folsomia candida (Collembola) and Eisenia fetida (earthworm). The aim of this study was to investigate the toxic effect of fenoxycarb on Yuukianura szeptyckii (Collembola) to assess further whether this chemical is environmentally safe or not. After 28 d of exposure of fenoxycarb in the soil, adult survival and juvenile production were assessed. The median lethal concentration (LC50) value for adult was 955.2 mg/kg and the median effective concentration (EC50) and no observed effect concentration (NOEC) value for juvenile production was 0.2 mg/kg and <0.15 mg/kg, respectively. The effect of fenoxycarb on egg production and hatching rate was evaluated using a compressed soil substrate. A significant reduction in egg production was observed at 300 mg/kg or more, and the hatching rate was significantly reduced at 0.15 mg/kg or more. These results indicated that the adverse effects of fenoxycarb on juvenile production at concentrations of 0.15, 9.4, and 75 mg/kg were mainly due to a reduced hatching rate. The toxicity/exposure ratio (TER) for fenoxycarb in Y. szeptyckii was <5, indicating risk to Y. szeptyckii from fenoxycarb residues in soil. This study suggests that fenoxycarb poses high potential risk to Y. szeptyckii at environmentally relevant concentrations. Thus, further research, such as higher tier study is needed to clarify fenoxycarb risk in soil ecosystems.
AbstractList [Display omitted] •Fenoxycarb is considered environmentally safe due to its low toxicity to mammals.•Fenoxycarb had a strong negative effect on the egg hatching rate of Y. szeptyckii.•The toxicity/exposure ratio of fenoxycarb was less than 5.•Fenoxycarb has a potential risk to Y. szeptyckii in the soil environment.•The risk of fenoxycarb exposure should be clarified through higher tier study. Fenoxycarb, a juvenile hormone agonist has been widely used to control various insect pests in agriculture. Fenoxycarb has been considered environmentally safe because it degrades quickly and has lower mammalian toxicity compared with many conventional pesticides. To date, fenoxycarb is reported safe for soil organisms, but this conclusion is based solely on toxicity studies with Folsomia candida (Collembola) and Eisenia fetida (earthworm). The aim of this study was to investigate the toxic effect of fenoxycarb on Yuukianura szeptyckii (Collembola) to assess further whether this chemical is environmentally safe or not. After 28 d of exposure of fenoxycarb in the soil, adult survival and juvenile production were assessed. The median lethal concentration (LC50) value for adult was 955.2 mg/kg and the median effective concentration (EC50) and no observed effect concentration (NOEC) value for juvenile production was 0.2 mg/kg and <0.15 mg/kg, respectively. The effect of fenoxycarb on egg production and hatching rate was evaluated using a compressed soil substrate. A significant reduction in egg production was observed at 300 mg/kg or more, and the hatching rate was significantly reduced at 0.15 mg/kg or more. These results indicated that the adverse effects of fenoxycarb on juvenile production at concentrations of 0.15, 9.4, and 75 mg/kg were mainly due to a reduced hatching rate. The toxicity/exposure ratio (TER) for fenoxycarb in Y. szeptyckii was <5, indicating risk to Y. szeptyckii from fenoxycarb residues in soil. This study suggests that fenoxycarb poses high potential risk to Y. szeptyckii at environmentally relevant concentrations. Thus, further research, such as higher tier study is needed to clarify fenoxycarb risk in soil ecosystems.
Fenoxycarb, a juvenile hormone agonist has been widely used to control various insect pests in agriculture. Fenoxycarb has been considered environmentally safe because it degrades quickly and has lower mammalian toxicity compared with many conventional pesticides. To date, fenoxycarb is reported safe for soil organisms, but this conclusion is based solely on toxicity studies with Folsomia candida (Collembola) and Eisenia fetida (earthworm). The aim of this study was to investigate the toxic effect of fenoxycarb on Yuukianura szeptyckii (Collembola) to assess further whether this chemical is environmentally safe or not. After 28 d of exposure of fenoxycarb in the soil, adult survival and juvenile production were assessed. The median lethal concentration (LC 50 ) value for adult was 955.2 mg/kg and the median effective concentration (EC 50 ) and no observed effect concentration (NOEC) value for juvenile production was 0.2 mg/kg and < 0.15 mg/kg, respectively. The effect of fenoxycarb on egg production and hatching rate was evaluated using a compressed soil substrate. A significant reduction in egg production was observed at 300 mg/kg or more, and the hatching rate was significantly reduced at 0.15 mg/kg or more. These results indicated that the adverse effects of fenoxycarb on juvenile production at concentrations of 0.15, 9.4, and 75 mg/kg were mainly due to a reduced hatching rate. The toxicity/exposure ratio (TER) for fenoxycarb in Y. szeptyckii was < 5, indicating risk to Y. szeptyckii from fenoxycarb residues in soil. This study suggests that fenoxycarb poses high potential risk to Y. szeptyckii at environmentally relevant concentrations. Thus, further research, such as higher tier study is needed to clarify fenoxycarb risk in soil ecosystems. KCI Citation Count: 0
Fenoxycarb, a juvenile hormone agonist has been widely used to control various insect pests in agriculture. Fenoxycarb has been considered environmentally safe because it degrades quickly and has lower mammalian toxicity compared with many conventional pesticides. To date, fenoxycarb is reported safe for soil organisms, but this conclusion is based solely on toxicity studies with Folsomia candida (Collembola) and Eisenia fetida (earthworm). The aim of this study was to investigate the toxic effect of fenoxycarb on Yuukianura szeptyckii (Collembola) to assess further whether this chemical is environmentally safe or not. After 28 d of exposure of fenoxycarb in the soil, adult survival and juvenile production were assessed. The median lethal concentration (LC₅₀) value for adult was 955.2 mg/kg and the median effective concentration (EC₅₀) and no observed effect concentration (NOEC) value for juvenile production was 0.2 mg/kg and <0.15 mg/kg, respectively. The effect of fenoxycarb on egg production and hatching rate was evaluated using a compressed soil substrate. A significant reduction in egg production was observed at 300 mg/kg or more, and the hatching rate was significantly reduced at 0.15 mg/kg or more. These results indicated that the adverse effects of fenoxycarb on juvenile production at concentrations of 0.15, 9.4, and 75 mg/kg were mainly due to a reduced hatching rate. The toxicity/exposure ratio (TER) for fenoxycarb in Y. szeptyckii was <5, indicating risk to Y. szeptyckii from fenoxycarb residues in soil. This study suggests that fenoxycarb poses high potential risk to Y. szeptyckii at environmentally relevant concentrations. Thus, further research, such as higher tier study is needed to clarify fenoxycarb risk in soil ecosystems.
Author Hong, Jinsol
Wee, June
Lee, Yun-Sik
Kim, Yongeun
Son, Jino
Cho, Kijong
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Snippet [Display omitted] •Fenoxycarb is considered environmentally safe due to its low toxicity to mammals.•Fenoxycarb had a strong negative effect on the egg...
Fenoxycarb, a juvenile hormone agonist has been widely used to control various insect pests in agriculture. Fenoxycarb has been considered environmentally safe...
Fenoxycarb, a juvenile hormone agonist has been widely used to control various insect pests in agriculture. Fenoxycarb has been considered environmentally safe...
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SubjectTerms adults
adverse effects
agonists
Collembolan toxicity test
earthworms
edaphic factors
egg production
Eisenia fetida
fenoxycarb
Folsomia candida
hatching
IGRs
insect control
insect pests
juvenile hormones
juveniles
lethal concentration 50
mammals
median effective concentration
PEC
pesticides
risk
Risk assessment
soil
soil ecosystems
TER
toxicity
농학
Title A reconsideration of the safety of fenoxycarb (IGR) in soil environment: The toxicity of fenoxycarb to Yuukianura szeptyckii (Collembola)
URI https://dx.doi.org/10.1016/j.aspen.2019.12.006
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Volume 23
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