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DUKAS_188451014_NUR
Maggots - Housefly Larvae - Diptera - Potato - Animal India
Housefly larvae, or maggots, are seen on rotten potatoes in Tehatta, West Bengal, India, on September 1, 2025. Flies are drawn to decaying organic matter such as spoiled vegetables, where they lay eggs. The eggs hatch into maggots that feed on the decay and can carry pathogens, before pupating and developing into adult flies. (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_188450989_NUR
Maggots - Housefly Larvae - Diptera - Potato - Animal India
Housefly larvae, or maggots, are seen on rotten potatoes in Tehatta, West Bengal, India, on September 1, 2025. Flies are drawn to decaying organic matter such as spoiled vegetables, where they lay eggs. The eggs hatch into maggots that feed on the decay and can carry pathogens, before pupating and developing into adult flies. (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187981745_NUR
Greater Banded Hornet (Vespa Tropica) Is Known For Its Lethal Venom
A greater banded hornet (Vespa tropica) shelters inside human footwear in Tehatta, West Bengal, India, on August 1, 2025. Native to southern Asia, New Guinea and West Africa, the species has recently been identified as invasive on Guam. The hornet preys on paper wasps, honeybees and dragonflies, and is known to raid the nests of other wasps to capture larvae as food. Its sting can inject neuro (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187981744_NUR
Greater Banded Hornet (Vespa Tropica) Is Known For Its Lethal Venom
A greater banded hornet (Vespa tropica) shelters inside human footwear in Tehatta, West Bengal, India, on August 1, 2025. Native to southern Asia, New Guinea and West Africa, the species has recently been identified as invasive on Guam. The hornet preys on paper wasps, honeybees and dragonflies, and is known to raid the nests of other wasps to capture larvae as food. Its sting can inject neuro (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187981743_NUR
Greater Banded Hornet (Vespa Tropica) Is Known For Its Lethal Venom
A greater banded hornet (Vespa tropica) shelters inside human footwear in Tehatta, West Bengal, India, on August 1, 2025. Native to southern Asia, New Guinea and West Africa, the species has recently been identified as invasive on Guam. The hornet preys on paper wasps, honeybees and dragonflies, and is known to raid the nests of other wasps to capture larvae as food. Its sting can inject neuro (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187981742_NUR
Greater Banded Hornet (Vespa Tropica) Is Known For Its Lethal Venom
A greater banded hornet (Vespa tropica) shelters inside human footwear in Tehatta, West Bengal, India, on August 1, 2025. Native to southern Asia, New Guinea and West Africa, the species has recently been identified as invasive on Guam. The hornet preys on paper wasps, honeybees and dragonflies, and is known to raid the nests of other wasps to capture larvae as food. Its sting can inject neuro (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187981741_NUR
Greater Banded Hornet (Vespa Tropica) Is Known For Its Lethal Venom
A greater banded hornet (Vespa tropica) shelters inside human footwear in Tehatta, West Bengal, India, on August 1, 2025. Native to southern Asia, New Guinea and West Africa, the species has recently been identified as invasive on Guam. The hornet preys on paper wasps, honeybees and dragonflies, and is known to raid the nests of other wasps to capture larvae as food. Its sting can inject neuro (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187981740_NUR
Greater Banded Hornet (Vespa Tropica) Is Known For Its Lethal Venom
A greater banded hornet (Vespa tropica) shelters inside human footwear in Tehatta, West Bengal, India, on August 1, 2025. Native to southern Asia, New Guinea and West Africa, the species has recently been identified as invasive on Guam. The hornet preys on paper wasps, honeybees and dragonflies, and is known to raid the nests of other wasps to capture larvae as food. Its sting can inject neuro (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187981739_NUR
Greater Banded Hornet (Vespa Tropica) Is Known For Its Lethal Venom
A greater banded hornet (Vespa tropica) shelters inside human footwear in Tehatta, West Bengal, India, on August 1, 2025. Native to southern Asia, New Guinea and West Africa, the species has recently been identified as invasive on Guam. The hornet preys on paper wasps, honeybees and dragonflies, and is known to raid the nests of other wasps to capture larvae as food. Its sting can inject neuro (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187981736_NUR
Greater Banded Hornet (Vespa Tropica) Is Known For Its Lethal Venom
A greater banded hornet (Vespa tropica) shelters inside human footwear in Tehatta, West Bengal, India, on August 1, 2025. Native to southern Asia, New Guinea and West Africa, the species has recently been identified as invasive on Guam. The hornet preys on paper wasps, honeybees and dragonflies, and is known to raid the nests of other wasps to capture larvae as food. Its sting can inject neuro (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187235518_FER
dukas 187235518 fer
Ferrari Press Agency
Malaria 1
Ref 17021
24/07/2025
See Ferrari text
Picture MUST credit: Zhiqian Li, Bier Lab, UC San Diego
A new method that genetically blocks mosquitoes from transmitting malaria has been developed by researchers.
The flying insects are responsible for the deaths of more people each year than any other animal.
In 2023, the blood-sucking bugs infected a reported 263 million people with malaria, leading to nearly 600,000 deaths, 80 percent of them children.
Now, a US team drawn from the University of California San Diego, Johns Hopkins University, UC Berkeley and the University of São Paulo have created a gene-editing system that changes a single molecule within mosquitoes.
This minuscule but effective change stops the malaria-parasite transmission process.
Genetically altered mosquitoes are still able to bite those with malaria and acquire parasites from their blood, but the parasites can no longer be spread to other people.
The new system is designed to genetically spread the malaria resistance trait until entire populations of the insects no longer transfer the disease-causing parasites.
OPS: Genetically modified mosquito larvae express fluorescent markers of the FREP1 gene — RFP (pink), GFP (blue) or both (yellow) — to indicate whether they spread or block infection from malarial parasites.
P{icture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_187128420_NUR
Tobacco Cutworm - Cotton Leafworm (Spodoptera Litura) - Agricultural Pest - Animal India
A tobacco cutworm or cotton leafworm (Spodoptera litura) pictured in a forest, in Tehatta, India, on July 20, 2025. This nocturnal moth is a major polyphagous pest in Asia, Oceania, and the Indian subcontinent. As larvae, they feed on a wide variety of plants and can cause severe damage to agricultural crops.(Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187128419_NUR
Tobacco Cutworm - Cotton Leafworm (Spodoptera Litura) - Agricultural Pest - Animal India
A tobacco cutworm or cotton leafworm (Spodoptera litura) pictured in a forest, in Tehatta, India, on July 20, 2025. This nocturnal moth is a major polyphagous pest in Asia, Oceania, and the Indian subcontinent. As larvae, they feed on a wide variety of plants and can cause severe damage to agricultural crops.(Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187128410_NUR
Tobacco Cutworm - Cotton Leafworm (Spodoptera Litura) - Agricultural Pest - Animal India
A tobacco cutworm or cotton leafworm (Spodoptera litura) pictured in a forest, in Tehatta, India, on July 20, 2025. This nocturnal moth is a major polyphagous pest in Asia, Oceania, and the Indian subcontinent. As larvae, they feed on a wide variety of plants and can cause severe damage to agricultural crops.(Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187128400_NUR
Tobacco Cutworm - Cotton Leafworm (Spodoptera Litura) - Agricultural Pest - Animal India
A tobacco cutworm or cotton leafworm (Spodoptera litura) pictured in a forest, in Tehatta, India, on July 20, 2025. This nocturnal moth is a major polyphagous pest in Asia, Oceania, and the Indian subcontinent. As larvae, they feed on a wide variety of plants and can cause severe damage to agricultural crops.(Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187128399_NUR
Tobacco Cutworm - Cotton Leafworm (Spodoptera Litura) - Agricultural Pest - Animal India
A tobacco cutworm or cotton leafworm (Spodoptera litura) pictured in a forest, in Tehatta, India, on July 20, 2025. This nocturnal moth is a major polyphagous pest in Asia, Oceania, and the Indian subcontinent. As larvae, they feed on a wide variety of plants and can cause severe damage to agricultural crops.(Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187046602_NUR
Caterpillar Eating A Black-eyed Susan Flower
A caterpillar eats a Black-eyed Susan (Rudbeckia hirta) flower in Markham, Ontario, Canada, on July 3, 2025. (Photo by Creative Touch Imaging Ltd./NurPhoto) -
DUKAS_187046601_NUR
Caterpillar Eating A Black-eyed Susan Flower
A caterpillar eats a Black-eyed Susan (Rudbeckia hirta) flower in Markham, Ontario, Canada, on July 3, 2025. (Photo by Creative Touch Imaging Ltd./NurPhoto) -
DUKAS_161799819_EYE
Why we should all dig into poo - all you need is a spoon
Cowpats in a Cambridge meadow offer vital lessons in how a host of tiny creatures sustain our planet.
Prof Ed Turner, curator of insects at Cambridge University, digs into one with a teaspoon. Rather like an episode of The Great British Bake Off, he is talking us through textures and ingredients.
Cow dung contains 24 minerals - including nitrogen, potassium, sulphur, iron, magnesium, copper, cobalt and manganese - as well as a rich diversity of bacteria and fungi. "There is a whole suite of animals that feed on this," says Turner.
This is a nursery for new life.
Cows roam freely on Coe Fen, an area of meadowland to the east of the River Cam. Cow dung exploration with Edgar Turner in Cambridge.
© Jill Mead / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_161799817_EYE
Why we should all dig into poo - all you need is a spoon
Cowpats in a Cambridge meadow offer vital lessons in how a host of tiny creatures sustain our planet.
Prof Ed Turner, curator of insects at Cambridge University, digs into one with a teaspoon. Rather like an episode of The Great British Bake Off, he is talking us through textures and ingredients.
Cow dung contains 24 minerals - including nitrogen, potassium, sulphur, iron, magnesium, copper, cobalt and manganese - as well as a rich diversity of bacteria and fungi. "There is a whole suite of animals that feed on this," says Turner.
This is a nursery for new life.
A green-veined white, which likes damp areas such as fens. Cow dung is key to the ecosystem, with its nutrients feeding many different animal and plant species.
Cow dung exploration with Edgar Turner in Cambridge.
© Jill Mead / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_161799843_EYE
Why we should all dig into poo - all you need is a spoon
Cowpats in a Cambridge meadow offer vital lessons in how a host of tiny creatures sustain our planet.
Prof Ed Turner, curator of insects at Cambridge University, digs into one with a teaspoon. Rather like an episode of The Great British Bake Off, he is talking us through textures and ingredients.
Cow dung contains 24 minerals - including nitrogen, potassium, sulphur, iron, magnesium, copper, cobalt and manganese - as well as a rich diversity of bacteria and fungi. "There is a whole suite of animals that feed on this," says Turner.
This is a nursery for new life.
A red admiral caterpillar is among the wildlife found enjoying the cowpats.
Red admiral caterpillar inside the sweep net.
Cow dung exploration with Edgar Turner in Cambridge.
© Jill Mead / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_161799816_EYE
Why we should all dig into poo - all you need is a spoon
Cowpats in a Cambridge meadow offer vital lessons in how a host of tiny creatures sustain our planet.
Prof Ed Turner, curator of insects at Cambridge University, digs into one with a teaspoon. Rather like an episode of The Great British Bake Off, he is talking us through textures and ingredients.
Cow dung contains 24 minerals - including nitrogen, potassium, sulphur, iron, magnesium, copper, cobalt and manganese - as well as a rich diversity of bacteria and fungi. "There is a whole suite of animals that feed on this," says Turner.
This is a nursery for new life.
The best way to see whatÕs going on in a cowpat is by using a spoon.
Dung beetle.
Cow dung exploration with Edgar Turner in Cambridge.
© Jill Mead / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_161799841_EYE
Why we should all dig into poo - all you need is a spoon
Cowpats in a Cambridge meadow offer vital lessons in how a host of tiny creatures sustain our planet.
Prof Ed Turner, curator of insects at Cambridge University, digs into one with a teaspoon. Rather like an episode of The Great British Bake Off, he is talking us through textures and ingredients.
Cow dung contains 24 minerals - including nitrogen, potassium, sulphur, iron, magnesium, copper, cobalt and manganese - as well as a rich diversity of bacteria and fungi. "There is a whole suite of animals that feed on this," says Turner.
This is a nursery for new life.
A dung beetle larva in a cowpat. ÔThere is a whole suite of animals that feed on this,Õ says Prof Ed Turner.
Dung beetle larvae in a cow pat.
Cow dung exploration with Edgar Turner in Cambridge.
© Jill Mead / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_161799818_EYE
Why we should all dig into poo - all you need is a spoon
Cowpats in a Cambridge meadow offer vital lessons in how a host of tiny creatures sustain our planet.
Prof Ed Turner, curator of insects at Cambridge University, digs into one with a teaspoon. Rather like an episode of The Great British Bake Off, he is talking us through textures and ingredients.
Cow dung contains 24 minerals - including nitrogen, potassium, sulphur, iron, magnesium, copper, cobalt and manganese - as well as a rich diversity of bacteria and fungi. "There is a whole suite of animals that feed on this," says Turner.
This is a nursery for new life.
Extricating dung beetle larvae from one of the cowpats.
Dung beetle larvae in a cow pat.
Cow dung exploration with Edgar Turner in Cambridge.
© Jill Mead / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_161799842_EYE
Why we should all dig into poo - all you need is a spoon
Cowpats in a Cambridge meadow offer vital lessons in how a host of tiny creatures sustain our planet.
Prof Ed Turner, curator of insects at Cambridge University, digs into one with a teaspoon. Rather like an episode of The Great British Bake Off, he is talking us through textures and ingredients.
Cow dung contains 24 minerals - including nitrogen, potassium, sulphur, iron, magnesium, copper, cobalt and manganese - as well as a rich diversity of bacteria and fungi. "There is a whole suite of animals that feed on this," says Turner.
Prof Ed Turner examines a cowpat on Coe Fen.
This is a nursery for new life.
Cow dung exploration with Edgar Turner in Cambridge.
© Jill Mead / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_98735139_REX
London Zoo annual stocktake, UK - 03 Jan 2019
Mandatory Credit: Photo by Nils Jorgensen/REX/Shutterstock (10045706av)
Magnificent Flower Beetle and larvae
London Zoo annual stocktake, UK - 03 Jan 2019
Zookeepers at ZSL London Zoo count Magnificent Flower Beetle and larvae at the ZooÕs annual stocktake. Caring for more than 700 different species, ZSL London ZooÕs keepers face the challenging task of tallying up every mammal, bird, reptile, fish and invertebrate at the Zoo, counting everything from a troop of inquisitive squirrel monkeys to Critically Endangered Sumatran tigers and Bactrian camels.
DUKAS/REX/SHUTTERSTOCK -
DUKAS_98735066_REX
London Zoo annual stocktake, UK - 03 Jan 2019
Mandatory Credit: Photo by Nils Jorgensen/REX/Shutterstock (10045706as)
Magnificent Flower Beetle and larvae
London Zoo annual stocktake, UK - 03 Jan 2019
Zookeepers at ZSL London Zoo count Magnificent Flower Beetle and larvae at the ZooÕs annual stocktake. Caring for more than 700 different species, ZSL London ZooÕs keepers face the challenging task of tallying up every mammal, bird, reptile, fish and invertebrate at the Zoo, counting everything from a troop of inquisitive squirrel monkeys to Critically Endangered Sumatran tigers and Bactrian camels.
DUKAS/REX/SHUTTERSTOCK -
DUKAS_98735043_REX
London Zoo annual stocktake, UK - 03 Jan 2019
Mandatory Credit: Photo by Nils Jorgensen/REX/Shutterstock (10045706at)
Magnificent Flower Beetle and larvae
London Zoo annual stocktake, UK - 03 Jan 2019
Zookeepers at ZSL London Zoo count Magnificent Flower Beetle and larvae at the ZooÕs annual stocktake. Caring for more than 700 different species, ZSL London ZooÕs keepers face the challenging task of tallying up every mammal, bird, reptile, fish and invertebrate at the Zoo, counting everything from a troop of inquisitive squirrel monkeys to Critically Endangered Sumatran tigers and Bactrian camels.
DUKAS/REX/SHUTTERSTOCK -
DUKAS_98735042_REX
London Zoo annual stocktake, UK - 03 Jan 2019
Mandatory Credit: Photo by Nils Jorgensen/REX/Shutterstock (10045706au)
Magnificent Flower Beetle and larvae
London Zoo annual stocktake, UK - 03 Jan 2019
Zookeepers at ZSL London Zoo count Magnificent Flower Beetle and larvae at the ZooÕs annual stocktake. Caring for more than 700 different species, ZSL London ZooÕs keepers face the challenging task of tallying up every mammal, bird, reptile, fish and invertebrate at the Zoo, counting everything from a troop of inquisitive squirrel monkeys to Critically Endangered Sumatran tigers and Bactrian camels.
DUKAS/REX/SHUTTERSTOCK -
DUKAS_98735038_REX
London Zoo annual stocktake, UK - 03 Jan 2019
Mandatory Credit: Photo by Nils Jorgensen/REX/Shutterstock (10045706ar)
Magnificent Flower Beetle and larvae
London Zoo annual stocktake, UK - 03 Jan 2019
Zookeepers at ZSL London Zoo count Magnificent Flower Beetle and larvae at the ZooÕs annual stocktake. Caring for more than 700 different species, ZSL London ZooÕs keepers face the challenging task of tallying up every mammal, bird, reptile, fish and invertebrate at the Zoo, counting everything from a troop of inquisitive squirrel monkeys to Critically Endangered Sumatran tigers and Bactrian camels.
DUKAS/REX/SHUTTERSTOCK -
DUKAS_98735030_REX
London Zoo annual stocktake, UK - 03 Jan 2019
Mandatory Credit: Photo by Nils Jorgensen/REX/Shutterstock (10045706ao)
Magnificent Flower Beetle and larvae
London Zoo annual stocktake, UK - 03 Jan 2019
Zookeepers at ZSL London Zoo count Magnificent Flower Beetle and larvae at the ZooÕs annual stocktake. Caring for more than 700 different species, ZSL London ZooÕs keepers face the challenging task of tallying up every mammal, bird, reptile, fish and invertebrate at the Zoo, counting everything from a troop of inquisitive squirrel monkeys to Critically Endangered Sumatran tigers and Bactrian camels.
DUKAS/REX/SHUTTERSTOCK -
DUK10046334_006
NEWS - Jakarta: Mückenspray gegen Dengue-Fieber
An employee of the Health Ministry sprays anti-mosquito fog in an attempt to control dengue fever at a neighborhood in Jakarta, Indonesia on November 26, 20016. Fogging is done in areas considered vulnerable larvae of aedes aegypti to eradicate the Aedes aegypti mosquito main source of transmission of the disease. *** Please Use Credit from Credit Field *** *** Local Caption *** 18972011
(c) Dukas -
DUK10046334_005
NEWS - Jakarta: Mückenspray gegen Dengue-Fieber
An employee of the Health Ministry sprays anti-mosquito fog in an attempt to control dengue fever at a neighborhood in Jakarta, Indonesia on November 26, 20016. Fogging is done in areas considered vulnerable larvae of aedes aegypti to eradicate the Aedes aegypti mosquito main source of transmission of the disease. *** Please Use Credit from Credit Field *** *** Local Caption *** 18972010
(c) Dukas -
DUK10046334_004
NEWS - Jakarta: Mückenspray gegen Dengue-Fieber
An employee of the Health Ministry sprays anti-mosquito fog in an attempt to control dengue fever at a neighborhood in Jakarta, Indonesia on November 26, 20016. Fogging is done in areas considered vulnerable larvae of aedes aegypti to eradicate the Aedes aegypti mosquito main source of transmission of the disease. *** Please Use Credit from Credit Field *** *** Local Caption *** 18972006
(c) Dukas -
DUK10046334_003
NEWS - Jakarta: Mückenspray gegen Dengue-Fieber
An employee of the Health Ministry sprays anti-mosquito fog in an attempt to control dengue fever at a neighborhood in Jakarta, Indonesia on November 26, 20016. Fogging is done in areas considered vulnerable larvae of aedes aegypti to eradicate the Aedes aegypti mosquito main source of transmission of the disease. *** Please Use Credit from Credit Field *** *** Local Caption *** 18972014
(c) Dukas -
DUK10046334_001
NEWS - Jakarta: Mückenspray gegen Dengue-Fieber
An employee of the Health Ministry sprays anti-mosquito fog in an attempt to control dengue fever at a neighborhood in Jakarta, Indonesia on November 26, 20016. Fogging is done in areas considered vulnerable larvae of aedes aegypti to eradicate the Aedes aegypti mosquito main source of transmission of the disease. *** Please Use Credit from Credit Field *** *** Local Caption *** 18972016
(c) Dukas -
DUK10014577_015
NEWS - Südamerika kämpft gegen den Zika Virus
Jan. 29, 2016 - BrasLia, Brasil - Brazilian soldiers cleans rooftop drains at the Ministry of Defense to control in breeding of aedes aegypti mosquito during efforts to halt the outbreak of Zika virus January 29, 2016 in Braslia, Brazil (FOTO: DUKAS/ZUMA)
(c) Dukas -
DUK10014577_017
NEWS - Südamerika kämpft gegen den Zika Virus
Jan. 29, 2016 - BrasLia, Brasil - A member of the Brazilian health task force cleans drains at the Ministry of Defense to control in breeding of aedes aegypti mosquito during control efforts to halt the outbreak of Zika virus January 29, 2016 in Braslia, Brazil (FOTO: DUKAS/ZUMA)
(c) Dukas -
DUK10014577_014
NEWS - Südamerika kämpft gegen den Zika Virus
Jan. 29, 2016 - BrasLia, Brasil - Brazil President Dilma Rousseff greets sailors as they help clean up standing water at the Naval Headquarters to prevent breeding of aedes aegypti mosquitos during control efforts to halt the outbreak of Zika virus January 29, 2016 in Braslia, Brazil (FOTO: DUKAS/ZUMA)
(c) Dukas -
DUK10014577_016
NEWS - Südamerika kämpft gegen den Zika Virus
Jan. 29, 2016 - BrasLia, Brasil - Brazil President Dilma Rousseff watches as sailors clean out storm drains at the Naval Headquarters to prevent breeding of aedes aegypti mosquitos during control efforts to halt the outbreak of Zika virus January 29, 2016 in Braslia, Brazil (FOTO: DUKAS/ZUMA)
(c) Dukas -
DUK10014577_019
NEWS - Südamerika kämpft gegen den Zika Virus
Jan. 29, 2016 - BrasLia, DF, Brasil - Brazil Minister of Culture Juca Ferreira helps clean up storm drains where the aedes aegypti mosquitos breed in an effort to help control the outbreak of Zika virus January 29, 2016 in Braslia, Brazil (FOTO: DUKAS/ZUMA)
(c) Dukas -
DUK10014577_021
NEWS - Südamerika kämpft gegen den Zika Virus
Jan. 29, 2016 - BrasLia, DF, Brasil - Brazil Minister of Culture Juca Ferreira hands out information on the Zika virus during clean up efforts to help steam the outbreak of aedes aegypti mosquitos that carry the disease at the ministry January 29, 2016 in Braslia, Brazil (FOTO: DUKAS/ZUMA)
(c) Dukas -
DUK10014577_020
NEWS - Südamerika kämpft gegen den Zika Virus
Jan. 29, 2016 - CandangolNdia, Brasil - A member of the Brazilian health task force tests for signs of the aedes aegypti mosquito during control efforts to halt the outbreak of Zika virus January 29, 2016 in Candangolndia, Braslia, Brazil (FOTO: DUKAS/ZUMA)
(c) Dukas -
DUK10014577_031
NEWS - Südamerika kämpft gegen den Zika Virus
A member of the Brazilian government health task force examines aedes aegypti mosquito larvae during control efforts to halt the outbreak of Zika virus January 6, 2016 in Planaltina, Brazil.
(FOTO: DUKAS/ACTIONPRESS) *** Local Caption *** 21143931
(c) Dukas -
DUK10014577_029
NEWS - Südamerika kämpft gegen den Zika Virus
A member of the Brazilian health task force checks a water supply for signs of aedes aegypti mosquito larvae during control efforts to halt the outbreak of Zika virus January 6, 2016 in Planaltina, Brazil.
(FOTO: DUKAS/ACTIONPRESS) *** Local Caption *** 21143932
(c) Dukas -
DUK10008887_018
FEATURE - 'Aliens' unter Wasser
MANDATORY CREDIT: Kei Nomiyama/REX Shutterstock. Only for use in story about Kei's Blackwater photo series. Editorial Use Only. No stock, books, advertising or merchandising without photographer's permission
Mandatory Credit: Photo by Kei Nomiyama/REX Shutterstock (5440422i)
This phyllosoma 'jellyfish-rider' is pictured riding on jellyfish and travelling freely. Phyllosoma is larvae of spiny and slipper lobsters associated with jellyfish. In the environments, ecological implication is still unclear. Their body is transparent like glass and very beautiful
Blackwater: The marine life photography of Kei Nomiyama, Japan - Nov 2015
FULL COPY: http://www.rexfeatures.com/nanolink/rmbq
They look like creatures from another planet, but these weird specimens are all marine life captured by talented underwater photographer Kei Nomiyama.
In his photo series Blackwater, the 36-year-old presents the amazing creatures discovered in the sea at night.
His work includes the quirky sight of a 'jellyfish rider', a lobster larvae hitching a ride on a hapless jellyfish, and the Phronima Sedentaria, a species of amphipod crustacean, that Kei says reminds him of the sci-fi film 'Aliens'.
Kei explains: "I live in Matsuyama city at Shikoku island, smallest of the four main islands in Japan. I mainly take these photos at Omi-island in Yamaguchi-prefecture. The Omi-island is located in the south of the main island of Japan and facing the Sea of Japan.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008887_017
FEATURE - 'Aliens' unter Wasser
MANDATORY CREDIT: Kei Nomiyama/REX Shutterstock. Only for use in story about Kei's Blackwater photo series. Editorial Use Only. No stock, books, advertising or merchandising without photographer's permission
Mandatory Credit: Photo by Kei Nomiyama/REX Shutterstock (5440422k)
This phyllosoma 'jellyfish-rider' is pictured riding on jellyfish and travelling freely. Phyllosoma is larvae of spiny and slipper lobsters associated with jellyfish. In the environments, ecological implication is still unclear. Their body is transparent like glass and very beautiful
Blackwater: The marine life photography of Kei Nomiyama, Japan - Nov 2015
FULL COPY: http://www.rexfeatures.com/nanolink/rmbq
They look like creatures from another planet, but these weird specimens are all marine life captured by talented underwater photographer Kei Nomiyama.
In his photo series Blackwater, the 36-year-old presents the amazing creatures discovered in the sea at night.
His work includes the quirky sight of a 'jellyfish rider', a lobster larvae hitching a ride on a hapless jellyfish, and the Phronima Sedentaria, a species of amphipod crustacean, that Kei says reminds him of the sci-fi film 'Aliens'.
Kei explains: "I live in Matsuyama city at Shikoku island, smallest of the four main islands in Japan. I mainly take these photos at Omi-island in Yamaguchi-prefecture. The Omi-island is located in the south of the main island of Japan and facing the Sea of Japan.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008887_015
FEATURE - 'Aliens' unter Wasser
MANDATORY CREDIT: Kei Nomiyama/REX Shutterstock. Only for use in story about Kei's Blackwater photo series. Editorial Use Only. No stock, books, advertising or merchandising without photographer's permission
Mandatory Credit: Photo by Kei Nomiyama/REX Shutterstock (5440422j)
This phyllosoma 'jellyfish-rider' is pictured riding on jellyfish and travelling freely. Phyllosoma is larvae of spiny and slipper lobsters associated with jellyfish. In the environments, ecological implication is still unclear. Their body is transparent like glass and very beautiful
Blackwater: The marine life photography of Kei Nomiyama, Japan - Nov 2015
FULL COPY: http://www.rexfeatures.com/nanolink/rmbq
They look like creatures from another planet, but these weird specimens are all marine life captured by talented underwater photographer Kei Nomiyama.
In his photo series Blackwater, the 36-year-old presents the amazing creatures discovered in the sea at night.
His work includes the quirky sight of a 'jellyfish rider', a lobster larvae hitching a ride on a hapless jellyfish, and the Phronima Sedentaria, a species of amphipod crustacean, that Kei says reminds him of the sci-fi film 'Aliens'.
Kei explains: "I live in Matsuyama city at Shikoku island, smallest of the four main islands in Japan. I mainly take these photos at Omi-island in Yamaguchi-prefecture. The Omi-island is located in the south of the main island of Japan and facing the Sea of Japan.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008887_013
FEATURE - 'Aliens' unter Wasser
MANDATORY CREDIT: Kei Nomiyama/REX Shutterstock. Only for use in story about Kei's Blackwater photo series. Editorial Use Only. No stock, books, advertising or merchandising without photographer's permission
Mandatory Credit: Photo by Kei Nomiyama/REX Shutterstock (5440422l)
This phyllosoma 'jellyfish-rider' is pictured riding on jellyfish and travelling freely. Phyllosoma is larvae of spiny and slipper lobsters associated with jellyfish. In the environments, ecological implication is still unclear. Their body is transparent like glass and very beautiful
Blackwater: The marine life photography of Kei Nomiyama, Japan - Nov 2015
FULL COPY: http://www.rexfeatures.com/nanolink/rmbq
They look like creatures from another planet, but these weird specimens are all marine life captured by talented underwater photographer Kei Nomiyama.
In his photo series Blackwater, the 36-year-old presents the amazing creatures discovered in the sea at night.
His work includes the quirky sight of a 'jellyfish rider', a lobster larvae hitching a ride on a hapless jellyfish, and the Phronima Sedentaria, a species of amphipod crustacean, that Kei says reminds him of the sci-fi film 'Aliens'.
Kei explains: "I live in Matsuyama city at Shikoku island, smallest of the four main islands in Japan. I mainly take these photos at Omi-island in Yamaguchi-prefecture. The Omi-island is located in the south of the main island of Japan and facing the Sea of Japan.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10014577_025
NEWS - Südamerika kämpft gegen den Zika Virus
A aedes aegypti mosquito larvae in a glass container during control efforts to halt the outbreak of Zika virus by health workers April 8, 2015 in Samambaia, Bras’lia, Brazil. The aides aegypti mosquito carries both Zika and Dengue fever viruses.
(FOTO: DUKAS/ACTIONPRESS) *** Local Caption *** 21143934
(c) Dukas -
