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Honey Bee (Apis mellifera) swarm on honeycomb held by three biology students in bee protection clothes, Bee Station at the Bavarian Julius-Maximilians-University of Wurzburg, Germany  -  Heidi & Hans-Juergen Koch
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00241072 Honey Bee (Apis mellifera) swarm on honeycomb held by three biology students in bee protection clothes, Bee Station at the Bavarian Julius-Maximilians-University of Wurzburg, Germany© Heidi & Hans-Juergen Koch
Mining bee (Andrena sp.), harvesting pollen from anthers of Cherry tree (Prunus sp.) Ripon Wisconsin USA, May.
90822688
90822688 Mining bee (Andrena sp.), harvesting pollen from anthers of Cherry tree (Prunus sp.) Ripon Wisconsin USA, May.© Phil Savoie
Little nomad bee (Nomada favoguttata) covered in Dandelion pollen (Taraxacum offinicale) Monmouthshire, Wales, UK. September
90822684
90822684 Little nomad bee (Nomada favoguttata) covered in Dandelion pollen (Taraxacum offinicale) Monmouthshire, Wales, UK. September© Phil Savoie
Smeathman's furrow bee (Lasioglossum smeathmanellum) feeding on Wallflower (Erysimum sp.) Monmouthshire, Wales, UK. April.
90816173
90816173 Smeathman's furrow bee (Lasioglossum smeathmanellum) feeding on Wallflower (Erysimum sp.) Monmouthshire, Wales, UK. April.© Phil Savoie
Inupiaq subsistence whalers butcher a Bowhead Whale (Balaena mysticetus) catch in the village of Kaktovik, Barter Island, North Slope, Alaska
90741268
90741268 Inupiaq subsistence whalers butcher a Bowhead Whale (Balaena mysticetus) catch in the village of Kaktovik, Barter Island, North Slope, Alaska© Steven Kazlowski,Steven Kazlowski
Polar bear (Ursus maritimus) juvenile spreading body weight over thin newly forming pack ice, trying not to break through, Beaufort Sea, off the 1002 area of the Arctic National Wildlife Refuge, North...
90720130
90720130 Polar bear (Ursus maritimus) juvenile spreading body weight over thin newly forming pack ice, trying not to break through, Beaufort Sea, off the 1002 area of the Arctic National Wildlife Refuge, North...© Steven Kazlowski,Steven Kazlowski
Polar bear (Ursus maritimus) juvenile rolling  around on newly formed pack ice, Beaufort Sea, off the 1002 area of the Arctic National Wildlife Refuge, North Slope, Alaska
90720128
90720128 Polar bear (Ursus maritimus) juvenile rolling around on newly formed pack ice, Beaufort Sea, off the 1002 area of the Arctic National Wildlife Refuge, North Slope, Alaska© Steven Kazlowski,Steven Kazlowski
Polar bear (Ursus maritimus) portrait, female. Bernard Spit, 1002 area of the Arctic National Wildlife Refuge, North Slope, Alaska.
90720127
90720127 Polar bear (Ursus maritimus) portrait, female. Bernard Spit, 1002 area of the Arctic National Wildlife Refuge, North Slope, Alaska.© Steven Kazlowski,Steven Kazlowski
Polar bear (Ursus maritimus) curious adult head underwater, Beaufort Sea, off the 1002 area of the Arctic National Wildlife Refuge, North Slope, Alaska.
90720126
90720126 Polar bear (Ursus maritimus) curious adult head underwater, Beaufort Sea, off the 1002 area of the Arctic National Wildlife Refuge, North Slope, Alaska.© Steven Kazlowski,Steven Kazlowski
Polar bear (Ursus maritimus) 4-5 year-old on pack ice, low angle shot, off the 1002 area of the Arctic National Wildlife Refuge, North Slope of the Brooks Range, Alaska, Beaufort Sea, autumn
90720125
90720125 Polar bear (Ursus maritimus) 4-5 year-old on pack ice, low angle shot, off the 1002 area of the Arctic National Wildlife Refuge, North Slope of the Brooks Range, Alaska, Beaufort Sea, autumn© Steven Kazlowski,Steven Kazlowski
Scientist using plankton net to survey marine fauna Isle of Mull, Scotland, UK, June  -  Alex Hyde/ npl
90674919
90674919 Scientist using plankton net to survey marine fauna Isle of Mull, Scotland, UK, June© Alex Hyde / NPL
Person writing notes at moth trapping event, with Dusky Thorn moth (Ennomos fuscantaria) on paper The National Forest, Leicestershire, UK September  -  Alex Hyde/ npl
90674904
90674904 Person writing notes at moth trapping event, with Dusky Thorn moth (Ennomos fuscantaria) on paper The National Forest, Leicestershire, UK September© Alex Hyde / NPL
Honey Bee (Apis mellifera) biology student Hartmut Vierle observing beehive, Bee Station at the Bavarian Julius-Maximilians-University of Wurzburg, Germany  -  Heidi & Hans-Juergen Koch
00241022
00241022 Honey Bee (Apis mellifera) biology student Hartmut Vierle observing beehive, Bee Station at the Bavarian Julius-Maximilians-University of Wurzburg, Germany© Heidi & Hans-Juergen Koch
Honey Bee (Apis mellifera) swarm on honeycomb held by three biology students in bee protection clothes, Bee Station at the Bavarian Julius-Maximilians-University of Wurzburg, Germany  -  Heidi & Hans-Juergen Koch
00241019
00241019 Honey Bee (Apis mellifera) swarm on honeycomb held by three biology students in bee protection clothes, Bee Station at the Bavarian Julius-Maximilians-University of Wurzburg, Germany© Heidi & Hans-Juergen Koch
Professor Dr. Jurgen Tautz, teacher of biology at the Bavarian Julius-Maximilians-University of Wurzburg, Germany, head of the Bee group, portrait with a beehive  -  Heidi & Hans-Juergen Koch
00241018
00241018 Professor Dr. Jurgen Tautz, teacher of biology at the Bavarian Julius-Maximilians-University of Wurzburg, Germany, head of the Bee group, portrait with a beehive© Heidi & Hans-Juergen Koch
Marine Biology student conducts line transect survey on coral reef at Sirinat National Park, Phuket Province, Thailand, November 2015
90853874
90853874 Marine Biology student conducts line transect survey on coral reef at Sirinat National Park, Phuket Province, Thailand, November 2015©
Researchers from Department of Fisheries and Oceans Canada stitching up Atlantic cod (Gadus morhua) juvenile after implanting a radio tag to track the fish's movements. Newfoundland, Canada. May 2...
90853430
90853430 Researchers from Department of Fisheries and Oceans Canada stitching up Atlantic cod (Gadus morhua) juvenile after implanting a radio tag to track the fish's movements. Newfoundland, Canada. May 2...©
Research aquarist Andrea Severeti with experiments in National Sea Simulator, fragment and spawn grown Coral from Great Barrier Reef. Australian Institute of Marine Science where impacts of complex en...
90852589
90852589 Research aquarist Andrea Severeti with experiments in National Sea Simulator, fragment and spawn grown Coral from Great Barrier Reef. Australian Institute of Marine Science where impacts of complex en...©
Coral growing in marine tank where impacts of complex environmental changes are researched. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Australia. 2019.
90852588
90852588 Coral growing in marine tank where impacts of complex environmental changes are researched. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Australia. 2019.©
Coral growing in marine tank where impacts of complex environmental changes are researched. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Australia. 2019.
90852587
90852587 Coral growing in marine tank where impacts of complex environmental changes are researched. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Australia. 2019.©
Coral growing in marine tank where impacts of complex environmental changes are researched. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Australia. 2019.
90852586
90852586 Coral growing in marine tank where impacts of complex environmental changes are researched. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Australia. 2019.©
Coral growing in marine tank where impacts of complex environmental changes on coral reefs are researched. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Au...
90852585
90852585 Coral growing in marine tank where impacts of complex environmental changes on coral reefs are researched. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Au...©
Coral growing in marine tank where impacts of complex environmental changes on coral reefs are researched. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Au...
90852584
90852584 Coral growing in marine tank where impacts of complex environmental changes on coral reefs are researched. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Au...©
Coral specimens in tank at National Sea Simulator where impacts of complex environmental changes on coral reefs are researched. Australian Institute of Marine Science, Cape Ferguson, Queensland, Austr...
90852583
90852583 Coral specimens in tank at National Sea Simulator where impacts of complex environmental changes on coral reefs are researched. Australian Institute of Marine Science, Cape Ferguson, Queensland, Austr...©
Coral polyps aged one month on plug substrate, reared following November spawning. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Australia. 2019.
90852582
90852582 Coral polyps aged one month on plug substrate, reared following November spawning. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Australia. 2019.©
Tray of circular plug substrates hosting Coral polyps aged one month, reared following November spawning. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Aus...
90852576
90852576 Tray of circular plug substrates hosting Coral polyps aged one month, reared following November spawning. National Sea Simulator, Australian Institute of Marine Science, Cape Ferguson, Queensland, Aus...©
Coral and Fish native to Great Barrier Reef inside experiment tanks at National Sea Simulator. Australian Institute of Marine Science where impacts of complex environmental changes are researched, Cap...
90852574
90852574 Coral and Fish native to Great Barrier Reef inside experiment tanks at National Sea Simulator. Australian Institute of Marine Science where impacts of complex environmental changes are researched, Cap...©
Coral native to Great Barrier Reef inside experiment tank at National Sea Simulator, biologist in background. Australian Institute of Marine Science where impacts of complex environmental changes are...
90852573
90852573 Coral native to Great Barrier Reef inside experiment tank at National Sea Simulator, biologist in background. Australian Institute of Marine Science where impacts of complex environmental changes are...©
Tanks with Great Barrier Reef experiments at National Sea Simulator. Australian Institute of Marine Science where impacts of complex environmental changes are researched, Cape Ferguson, Queensland, Au...
90852572
90852572 Tanks with Great Barrier Reef experiments at National Sea Simulator. Australian Institute of Marine Science where impacts of complex environmental changes are researched, Cape Ferguson, Queensland, Au...©
Entomologist with sample of Insects caught in malaise trap, reference books in background. Long-term monitoring has revealed a 75% decline in insect biomass over 27 years. Entomological Society Krefel...
90849977
90849977 Entomologist with sample of Insects caught in malaise trap, reference books in background. Long-term monitoring has revealed a 75% decline in insect biomass over 27 years. Entomological Society Krefel...©
Entomologist returning tray of pinned Moth (Lepidoptera) specimens to shelf within collection. Entomological Society Krefeld. Germany 2018.
90849976
90849976 Entomologist returning tray of pinned Moth (Lepidoptera) specimens to shelf within collection. Entomological Society Krefeld. Germany 2018.©
Entomologist examining pinned Insect specimens within collection. Entomological Society Krefeld. Germany 2019.
90849975
90849975 Entomologist examining pinned Insect specimens within collection. Entomological Society Krefeld. Germany 2019.©
Entomologist examining pinned Insect specimens within collection. Entomological Society Krefeld. Germany 2019.
90849974
90849974 Entomologist examining pinned Insect specimens within collection. Entomological Society Krefeld. Germany 2019.©
Entomologist examining pinned Insect specimens within collection. Entomological Society Krefeld. Germany 2019.
90849973
90849973 Entomologist examining pinned Insect specimens within collection. Entomological Society Krefeld. Germany 2019.©
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...©
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