Experimental evolution reveals high insecticide tolerance in Daphnia inhabiting farmland ponds

Exposure of nontarget populations to agricultural chemicals is an important aspect of global change. We quantified the capacity of natural Daphnia magna populations to locally adapt to insecticide exposure through a selection experiment involving carbaryl exposure and a control. Carbaryl tolerance a...

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Published inEvolutionary applications Vol. 8; no. 5; pp. 442 - 453
Main Authors Jansen, Mieke, Coors, Anja, Vanoverbeke, Joost, Schepens, Melissa, De Voogt, Pim, De Schamphelaere, Karel A. C., De Meester, Luc
Format Journal Article
LanguageEnglish
Published England John Wiley & Sons, Inc 01.06.2015
BlackWell Publishing Ltd
Subjects
adaptation
Agricultural economics
Agricultural land
Agriculture
Carbaryl
Cloning
Daphnia
Daphnia magna
Data analysis
Drinking water
Eggs
Evolution
evolutionary potential
Experiments
Hypotheses
insecticide tolerance
Insecticides
Land use
Original
Pesticides
Pollutants
Ponds
Population
Population genetics
adaptation
Daphnia magna
carbaryl
evolutionary potential
insecticide tolerance
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Abstract Exposure of nontarget populations to agricultural chemicals is an important aspect of global change. We quantified the capacity of natural Daphnia magna populations to locally adapt to insecticide exposure through a selection experiment involving carbaryl exposure and a control. Carbaryl tolerance after selection under carbaryl exposure did not increase significantly compared to the tolerance of the original field populations. However, there was evolution of a decreased tolerance in the control experimental populations compared to the original field populations. The magnitude of this decrease was positively correlated with land use intensity in the neighbourhood of the ponds from which the original populations were sampled. The genetic change in carbaryl tolerance in the control rather than in the carbaryl treatment suggests widespread selection for insecticide tolerance in the field associated with land use intensity and suggests that this evolution comes at a cost. Our data suggest a strong impact of current agricultural land use on nontarget natural Daphnia populations.
AbstractList Exposure of nontarget populations to agricultural chemicals is an important aspect of global change. We quantified the capacity of natural Daphnia magna populations to locally adapt to insecticide exposure through a selection experiment involving carbaryl exposure and a control. Carbaryl tolerance after selection under carbaryl exposure did not increase significantly compared to the tolerance of the original field populations. However, there was evolution of a decreased tolerance in the control experimental populations compared to the original field populations. The magnitude of this decrease was positively correlated with land use intensity in the neighbourhood of the ponds from which the original populations were sampled. The genetic change in carbaryl tolerance in the control rather than in the carbaryl treatment suggests widespread selection for insecticide tolerance in the field associated with land use intensity and suggests that this evolution comes at a cost. Our data suggest a strong impact of current agricultural land use on nontarget natural Daphnia populations.
Exposure of nontarget populations to agricultural chemicals is an important aspect of global change. We quantified the capacity of natural Daphnia magna populations to locally adapt to insecticide exposure through a selection experiment involving carbaryl exposure and a control. Carbaryl tolerance after selection under carbaryl exposure did not increase significantly compared to the tolerance of the original field populations. However, there was evolution of a decreased tolerance in the control experimental populations compared to the original field populations. The magnitude of this decrease was positively correlated with land use intensity in the neighbourhood of the ponds from which the original populations were sampled. The genetic change in carbaryl tolerance in the control rather than in the carbaryl treatment suggests widespread selection for insecticide tolerance in the field associated with land use intensity and suggests that this evolution comes at a cost. Our data suggest a strong impact of current agricultural land use on nontarget natural Daphnia populations.
Abstract Exposure of nontarget populations to agricultural chemicals is an important aspect of global change. We quantified the capacity of natural Daphnia magna populations to locally adapt to insecticide exposure through a selection experiment involving carbaryl exposure and a control. Carbaryl tolerance after selection under carbaryl exposure did not increase significantly compared to the tolerance of the original field populations. However, there was evolution of a decreased tolerance in the control experimental populations compared to the original field populations. The magnitude of this decrease was positively correlated with land use intensity in the neighbourhood of the ponds from which the original populations were sampled. The genetic change in carbaryl tolerance in the control rather than in the carbaryl treatment suggests widespread selection for insecticide tolerance in the field associated with land use intensity and suggests that this evolution comes at a cost. Our data suggest a strong impact of current agricultural land use on nontarget natural Daphnia populations.
Author Vanoverbeke, Joost
Schepens, Melissa
Jansen, Mieke
Coors, Anja
De Meester, Luc
De Schamphelaere, Karel A. C.
De Voogt, Pim
Author_xml – sequence: 1
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  fullname: Coors, Anja
  organization: Biodiversity and Climate Research Centre (BiK‐F)
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  givenname: Joost
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  givenname: Melissa
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  givenname: Pim
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  organization: Universiteit Amsterdam
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  surname: De Schamphelaere
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  givenname: Luc
  surname: De Meester
  fullname: De Meester, Luc
  organization: KU Leuven
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Issue 5
Keywords adaptation
Daphnia magna
carbaryl
evolutionary potential
insecticide tolerance
Language English
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Snippet Exposure of nontarget populations to agricultural chemicals is an important aspect of global change. We quantified the capacity of natural Daphnia magna...
Abstract Exposure of nontarget populations to agricultural chemicals is an important aspect of global change. We quantified the capacity of natural Daphnia...
Exposure of nontarget populations to agricultural chemicals is an important aspect of global change. We quantified the capacity of natural Daphnia magna...
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StartPage 442
SubjectTerms adaptation
Agricultural economics
Agricultural land
Agriculture
Carbaryl
Cloning
Daphnia
Daphnia magna
Data analysis
Drinking water
Eggs
Evolution
evolutionary potential
Experiments
Hypotheses
insecticide tolerance
Insecticides
Land use
Original
Pesticides
Pollutants
Ponds
Population
Population genetics
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Title Experimental evolution reveals high insecticide tolerance in Daphnia inhabiting farmland ponds
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Feva.12253
https://www.ncbi.nlm.nih.gov/pubmed/26029258
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Volume 8
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