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  • Results for
    • Insecticide
  • (115)
Smithsonian researcher Terry Erwin fogging trees with insecticide to collect insects from lowland rainforest canopy, Peru  -  Mark Moffett
00750037
00750037 Smithsonian researcher Terry Erwin fogging trees with insecticide to collect insects from lowland rainforest canopy, Peru© Mark Moffett
Migratory Locust (Locusta migratoria) control operation helicopter being reloaded with insecticide, Miandrivazo Airport, Madagascar  -  Ingo Arndt
00536644
00536644 Migratory Locust (Locusta migratoria) control operation helicopter being reloaded with insecticide, Miandrivazo Airport, Madagascar© Ingo Arndt
Migratory Locust (Locusta migratoria) control operation with insecticide delivery by FAO helicopter, Miandrivazo, Madagascar  -  Ingo Arndt
00536642
00536642 Migratory Locust (Locusta migratoria) control operation with insecticide delivery by FAO helicopter, Miandrivazo, Madagascar© Ingo Arndt
Oil Seed Rape (Brassica napus) field being sprayed with insecticide, Germany  -  Duncan Usher
00535699
00535699 Oil Seed Rape (Brassica napus) field being sprayed with insecticide, Germany© Duncan Usher
Farmer in protective clothing and face mask spraying fruit trees with chemical insecticide, Europe  -  Simon Littlejohn/ NiS
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70046338 Farmer in protective clothing and face mask spraying fruit trees with chemical insecticide, Europe© Simon Littlejohn/ NiS
Farm worker spraying insecticide on a field of Green beans (Phaseolus vulgaris) Commercial bean farm, Tanzania, East Africa December 2010  -  Cheryl-Samantha Owen/ npl
90675391
90675391 Farm worker spraying insecticide on a field of Green beans (Phaseolus vulgaris) Commercial bean farm, Tanzania, East Africa December 2010© Cheryl-Samantha Owen / NPL
Two Grey crowned cranes (Balearica regulorum gibbericeps) foraging in a field of beans near a farm worker spraying insecticide Commercial farm, Tanzania, East Africa December 2010  -  Cheryl-Samantha Owen/ npl
90675390
90675390 Two Grey crowned cranes (Balearica regulorum gibbericeps) foraging in a field of beans near a farm worker spraying insecticide Commercial farm, Tanzania, East Africa December 2010© Cheryl-Samantha Owen / NPL
Farm worker spraying insecticide on a field of Green beans (Phaseolus vulgaris) Commercial bean farm, Tanzania, East Africa December 2010  -  Cheryl-Samantha Owen/ npl
90675389
90675389 Farm worker spraying insecticide on a field of Green beans (Phaseolus vulgaris) Commercial bean farm, Tanzania, East Africa December 2010© Cheryl-Samantha Owen / NPL
Farm worker spraying insecticide on a field of Green beans (Phaseolus vulgaris) Commercial bean farm, Tanzania, East Africa December 2010  -  Cheryl-Samantha Owen/ npl
90675388
90675388 Farm worker spraying insecticide on a field of Green beans (Phaseolus vulgaris) Commercial bean farm, Tanzania, East Africa December 2010© Cheryl-Samantha Owen / NPL
Honey Bee (Apis mellifera) research, determining impact of different insecticides on bees, Bee Research Institute Oberursel, Germany
00642329
00642329 Honey Bee (Apis mellifera) research, determining impact of different insecticides on bees, Bee Research Institute Oberursel, Germany© Ingo Arndt
Pyrethrum (Chrysanthemum cinerariaefolium) flower with dead grasshopper that died after ingesting parts of the flower which contain a natural insecticide, Kibale National Reserve, Uganda  -  Ch'ien Lee
00518959
00518959 Pyrethrum (Chrysanthemum cinerariaefolium) flower with dead grasshopper that died after ingesting parts of the flower which contain a natural insecticide, Kibale National Reserve, Uganda© Chien Lee
Honey bee (Apis mellifera), research setup to find out how honey bees react to insecticides, Bee Institute Oberursel, Germany.
90850699
90850699 Honey bee (Apis mellifera), research setup to find out how honey bees react to insecticides, Bee Institute Oberursel, Germany.©
Honey bee (Apis mellifera) restrained in a research setup to find out how honey bees react to insecticides, Bee Institute Oberursel, Germany.
90850599
90850599 Honey bee (Apis mellifera) restrained in a research setup to find out how honey bees react to insecticides, Bee Institute Oberursel, Germany.©
Honey bee (Apis mellifera) restrained in a research setup to find out how honey bees react to insecticides, Bee Institute Oberursel, Germany.
90850574
90850574 Honey bee (Apis mellifera) restrained in a research setup to find out how honey bees react to insecticides, Bee Institute Oberursel, Germany.©
Researchers sampling aquatic invertebrates in trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment than...
90849972
90849972 Researchers sampling aquatic invertebrates in trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment than...©
Researchers sampling aquatic invertebrates in trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment than...
90849971
90849971 Researchers sampling aquatic invertebrates in trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment than...©
Biologists conducting research into aquatic invertebrates from trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural...
90849970
90849970 Biologists conducting research into aquatic invertebrates from trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural...©
Ecotoxicologists sampling aquatic invertebrates in trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment...
90849969
90849969 Ecotoxicologists sampling aquatic invertebrates in trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment...©
Ecotoxicologists sampling aquatic invertebrates in trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment...
90849968
90849968 Ecotoxicologists sampling aquatic invertebrates in trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment...©
Ecotoxicologist conducting research into impact of thiacloprid, a neonicotinoid, on aquatic organisms. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment tha...
90849967
90849967 Ecotoxicologist conducting research into impact of thiacloprid, a neonicotinoid, on aquatic organisms. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment tha...©
Ecotoxicologist conducting research in laboratory into impact of thiacloprid, a neonicotinoid, on aquatic organisms. Organisms found to be 2500 times more sensitive to the insecticide in the natural e...
90849966
90849966 Ecotoxicologist conducting research in laboratory into impact of thiacloprid, a neonicotinoid, on aquatic organisms. Organisms found to be 2500 times more sensitive to the insecticide in the natural e...©
Ecotoxicologists conducting research in laboratory into impact of thiacloprid, a neonicotinoid, on aquatic organisms. Organisms found to be 2500 times more sensitive to the insecticide in the natural...
90849965
90849965 Ecotoxicologists conducting research in laboratory into impact of thiacloprid, a neonicotinoid, on aquatic organisms. Organisms found to be 2500 times more sensitive to the insecticide in the natural...©
Ecotoxicologist conducting research in laboratory into impact of the neonicotinoid thiacloprid on aquatic organisms. Organisms found to be 2500 times more sensitive to the insecticide in the natural e...
90849964
90849964 Ecotoxicologist conducting research in laboratory into impact of the neonicotinoid thiacloprid on aquatic organisms. Organisms found to be 2500 times more sensitive to the insecticide in the natural e...©
Sample of Insects held by ecotoxicologist conducting research into impact of thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment...
90849963
90849963 Sample of Insects held by ecotoxicologist conducting research into impact of thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment...©
Sample of Insects from emergence trap over trial ditch exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment than in a...
90849962
90849962 Sample of Insects from emergence trap over trial ditch exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environment than in a...©
Ecotoxicologist sampling aquatic invertebrates from emergence trap over trial ditch exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the n...
90849961
90849961 Ecotoxicologist sampling aquatic invertebrates from emergence trap over trial ditch exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the n...©
Ecotoxicologists sampling aquatic invertebrates from trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environmen...
90849960
90849960 Ecotoxicologists sampling aquatic invertebrates from trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environmen...©
Ecotoxicologists sampling aquatic invertebrates from trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environmen...
90849959
90849959 Ecotoxicologists sampling aquatic invertebrates from trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environmen...©
Ecotoxicologists sampling aquatic invertebrates from trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environmen...
90849958
90849958 Ecotoxicologists sampling aquatic invertebrates from trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environmen...©
Ecotoxicologist holding Damselfly nymph from experiment looking at impact of neonicotinoid insecticide thiacloprid on aquatic invertebrates. The number of Blue-tailed dragonflies (Ischnura elegans) re...
90849957
90849957 Ecotoxicologist holding Damselfly nymph from experiment looking at impact of neonicotinoid insecticide thiacloprid on aquatic invertebrates. The number of Blue-tailed dragonflies (Ischnura elegans) re...©
Ecotoxicologists sampling aquatic invertebrates from trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environmen...
90849956
90849956 Ecotoxicologists sampling aquatic invertebrates from trial ditches exposed to thiacloprid, a neonicotinoid. Organisms found to be 2500 times more sensitive to the insecticide in the natural environmen...©
Crop-dusting plane arches up into the sky at twilight as it sprays insecticide onto an agricultural field in Imperial Valley, California, USA.
90841586
90841586 Crop-dusting plane arches up into the sky at twilight as it sprays insecticide onto an agricultural field in Imperial Valley, California, USA.© Jenny E. Ross
Crop-dusting plane arches up into the sky at twilight as it sprays insecticide onto an agricultural field in Imperial Valley, California, USA.
90841585
90841585 Crop-dusting plane arches up into the sky at twilight as it sprays insecticide onto an agricultural field in Imperial Valley, California, USA.© Jenny E. Ross
White pesticide spray deposit on a wheat flag leaves on crop coming into ear dried shortly after spraying
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90828187 White pesticide spray deposit on a wheat flag leaves on crop coming into ear dried shortly after spraying© Nigel Cattlin
Cereal barley (Hordeum vulgare) leaf with colloidal suspension pesticide spray droplets evenly distrubuted on surface.
90819051
90819051 Cereal barley (Hordeum vulgare) leaf with colloidal suspension pesticide spray droplets evenly distrubuted on surface.© Nigel Cattlin
Cereal barley (Hordeum vulgare) leaf with colloidal suspension pesticide spray droplets evenly distrubuted on surface.
90819050
90819050 Cereal barley (Hordeum vulgare) leaf with colloidal suspension pesticide spray droplets evenly distrubuted on surface.© Nigel Cattlin
Woman, wearing no protection, spraying pesticide onto wheat crop near Hangang in northern China. March 2009
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90788889 Woman, wearing no protection, spraying pesticide onto wheat crop near Hangang in northern China. March 2009© Ashley Cooper
Women wearing no protection, spraying pesticide onto wheat crops near Hangang, northern China, March 2009.
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90782401 Women wearing no protection, spraying pesticide onto wheat crops near Hangang, northern China, March 2009.© Ashley Cooper
Women wearing no protection, spraying pesticide onto wheat crops near Hangang, northern China, March 2009
90782400
90782400 Women wearing no protection, spraying pesticide onto wheat crops near Hangang, northern China, March 2009© Ashley Cooper
Man spraying cocoa plant with pesticide, Cameroon. February 2015.
90750555
90750555 Man spraying cocoa plant with pesticide, Cameroon. February 2015.© Cyril Ruoso
Sheep farming, dipping ewes with insecticide to kill lice and mites, North Yorkshire, England, September  -  Wayne Hutchinson/ FLPA
80173756
80173756 Sheep farming, dipping ewes with insecticide to kill lice and mites, North Yorkshire, England, September© Wayne Hutchinson / FLPA
Sheep farming, dipping ewes with insecticide to kill lice and mites, North Yorkshire, England, September  -  Wayne Hutchinson/ FLPA
80173755
80173755 Sheep farming, dipping ewes with insecticide to kill lice and mites, North Yorkshire, England, September© Wayne Hutchinson / FLPA
Oil Seed Rape (Brassica napus) crop, Bateman spraying insecticide, Chesham, Buckinghamshire, England  -  Nick Spurling/ FLPA
80042465
80042465 Oil Seed Rape (Brassica napus) crop, Bateman spraying insecticide, Chesham, Buckinghamshire, England© Nick Spurling/ FLPA
Renault tractor with a Hardi sprayer spraying a young Barley (Hordeum sp) crop in spring, Hampshire, UK
90841887
90841887 Renault tractor with a Hardi sprayer spraying a young Barley (Hordeum sp) crop in spring, Hampshire, UK© Nigel Cattlin
An aphid killed by an entomopathogenic fungus (Verticillium lecanii), which is used a method for biological control in protected crops.
90828186
90828186 An aphid killed by an entomopathogenic fungus (Verticillium lecanii), which is used a method for biological control in protected crops.© Nigel Cattlin
Barrel with insecticide for Food and Agriculture Organization (FAO) control action against migratory locust (Locusta migratoria capito), Airport Miandrivazo, Madagascar December 2013  -  Ingo Arndt/ npl
90408740
90408740 Barrel with insecticide for Food and Agriculture Organization (FAO) control action against migratory locust (Locusta migratoria capito), Airport Miandrivazo, Madagascar December 2013© Ingo Arndt / NPL
Barrel with insecticide for Food and Agriculture Organization (FAO) control action against migratory locust (Locusta migratoria capito), Airport Miandrivazo, Madagascar December 2013  -  Ingo Arndt/ npl
90408739
90408739 Barrel with insecticide for Food and Agriculture Organization (FAO) control action against migratory locust (Locusta migratoria capito), Airport Miandrivazo, Madagascar December 2013© Ingo Arndt / NPL
Helicopter is loaded with insecticides for Food and Agriculture Organization (FAO) locust control operation Miandrivazo Airport, Madagascar, December 2013  -  Ingo Arndt/ npl
90408738
90408738 Helicopter is loaded with insecticides for Food and Agriculture Organization (FAO) locust control operation Miandrivazo Airport, Madagascar, December 2013© Ingo Arndt / NPL
Helicopter is loaded with insecticides for Food and Agriculture Organization (FAO) locust control operation Miandrivazo Airport, Madagascar, December 2013  -  Ingo Arndt/ npl
90408737
90408737 Helicopter is loaded with insecticides for Food and Agriculture Organization (FAO) locust control operation Miandrivazo Airport, Madagascar, December 2013© Ingo Arndt / NPL
Food and Agriculture Organization (FAO) helicopter pilot Eric Gadot, an expert at locust control operations flying over effected area, near Miandrivazo, Madagascar December 2013  -  Ingo Arndt/ npl
90408734
90408734 Food and Agriculture Organization (FAO) helicopter pilot Eric Gadot, an expert at locust control operations flying over effected area, near Miandrivazo, Madagascar December 2013© Ingo Arndt / NPL
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