Your search:
149 result(s) in 0.03 s
-
DUKAS_187858973_NUR
Caterpillars of the Indian lily moth (Polytela gloriosae) feed on pink rain lily (Zephyranthes rosea) plants in Tehatta, West Bengal, India, on August 17, 2025. The species is considered a major pest during the monsoon season. (Photo by Soumyabrata Roy/Nu
Caterpillars of the Indian lily moth (Polytela gloriosae) feed on pink rain lily (Zephyranthes rosea) plants in Tehatta, West Bengal, India, on August 17, 2025. The species is considered a major pest during the monsoon season. (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187858972_NUR
Caterpillars of the Indian lily moth (Polytela gloriosae) feed on pink rain lily (Zephyranthes rosea) plants in Tehatta, West Bengal, India, on August 17, 2025. The species is considered a major pest during the monsoon season. (Photo by Soumyabrata Roy/Nu
Caterpillars of the Indian lily moth (Polytela gloriosae) feed on pink rain lily (Zephyranthes rosea) plants in Tehatta, West Bengal, India, on August 17, 2025. The species is considered a major pest during the monsoon season. (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187858971_NUR
Caterpillars of the Indian lily moth (Polytela gloriosae) feed on pink rain lily (Zephyranthes rosea) plants in Tehatta, West Bengal, India, on August 17, 2025. The species is considered a major pest during the monsoon season. (Photo by Soumyabrata Roy/Nu
Caterpillars of the Indian lily moth (Polytela gloriosae) feed on pink rain lily (Zephyranthes rosea) plants in Tehatta, West Bengal, India, on August 17, 2025. The species is considered a major pest during the monsoon season. (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187787803_NUR
Green Moth Caterpillar Camouflaged On The Leaf - Animal India
A green moth caterpillar larva hides on the green leaves of the forest, appearing camouflaged as its body color almost blends in with the foliage, on August 13, 2025, in Tehatta, West Bengal, India. (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187787802_NUR
Green Moth Caterpillar Camouflaged On The Leaf - Animal India
A green moth caterpillar larva hides on the green leaves of the forest, appearing camouflaged as its body color almost blends in with the foliage, on August 13, 2025, in Tehatta, West Bengal, India. (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187787801_NUR
Green Moth Caterpillar Camouflaged On The Leaf - Animal India
A green moth caterpillar larva hides on the green leaves of the forest, appearing camouflaged as its body color almost blends in with the foliage, on August 13, 2025, in Tehatta, West Bengal, India. (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187787800_NUR
Green Moth Caterpillar Camouflaged On The Leaf - Animal India
A green moth caterpillar larva hides on the green leaves of the forest, appearing camouflaged as its body color almost blends in with the foliage, on August 13, 2025, in Tehatta, West Bengal, India. (Photo by Soumyabrata Roy/NurPhoto) -
DUKAS_187451914_NUR
Squash Vine Borer
The squash vine borer (Melittia cucurbitae) is on a pumpkin plant in Toronto, Ontario, Canada, on July 5, 2025. These moths are considered a significant pest in gardens, particularly for squash and pumpkin plants, and are found in various regions, including parts of Canada. The adult squash vine borer moth mimics a wasp, with a black body, orange legs, and clear wings. (Photo by Creative Touch Imaging Ltd./NurPhoto) -
DUKAS_176178654_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_176178644_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_176178631_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_176178618_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_176178607_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_176178595_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_176178583_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_176178571_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_176178560_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_176178548_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_176178536_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_176178522_BES
Des chercheurs ont créé un fil collant inspiré de la toile du héros de bande dessinée Spider-Man
Picture MUST credit: Tufts University/Marco Lo Presti A sticky thread inspired by comic book hero Spider-Man’s web, has been created by researchers. The material is fluid when shot from a needle and then almost immediately solidifies and is strong enough to adhere to and pick up heavy objects. The sticky fibres come from silk moth cocoons, which are broken down into their protein building blocks by boiling them in solution. The solution can then be extruded through narrow bore needles to form a stream that, thanks to the right additives, solidifies when it’s exposed to air. Moth silk has similar properties to spiders’ silk but with less structural complexity, and the raw materials are easier to come by. When tested, the extruded web string fibres were able to lift over 80 times their own weight. The researchers successfully picked up a steel bolt, a laboratory tube floating on water, a scalpel half-buried in sand, and a wood block all from from a distance of about 12 cm. The researchers from the USA’s Tufts University in Massachusetts, foresee a range of applications for the material including tissue engineering, drug delivery, biomaterials, and adhesives. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_166364500_EYE
Dr. Paul Hebert: I discovered a way to identify the millions of species on Earth after a lightbulb moment in the supermarket
Dr. Paul Hebert developed DNA barcoding in his back yard using a UV light and a white sheet to collect the moths of his childhood. He believes it could help discover all life on the planet.
Dr. Paul Hebert the founder of the Centre for Biodiversity and Genomics at the University of Guelph photographed in his backyard in Puslinch, Ontario, Canada on February 21, 2024. The evolutionary biologist collects moth samples globally and as local as his own backyard, using DNA to index and barcode the specimens.
Cole Burston / 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) -
DUKAS_166364501_EYE
Dr. Paul Hebert: I discovered a way to identify the millions of species on Earth after a lightbulb moment in the supermarket
Dr. Paul Hebert developed DNA barcoding in his back yard using a UV light and a white sheet to collect the moths of his childhood. He believes it could help discover all life on the planet.
Dr. Paul Hebert the founder of the Centre for Biodiversity and Genomics at the University of Guelph photographed in his backyard in Puslinch, Ontario, Canada on February 21, 2024. The evolutionary biologist collects moth samples globally and as local as his own backyard, using DNA to index and barcode the specimens.
Cole Burston / 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) -
DUKAS_166364499_EYE
Dr. Paul Hebert: I discovered a way to identify the millions of species on Earth after a lightbulb moment in the supermarket
Dr. Paul Hebert developed DNA barcoding in his back yard using a UV light and a white sheet to collect the moths of his childhood. He believes it could help discover all life on the planet.
Dr. Paul Hebert the founder of the Centre for Biodiversity and Genomics at the University of Guelph photographed in his backyard in Puslinch, Ontario, Canada on February 21, 2024. The evolutionary biologist collects moth samples globally and as local as his own backyard, using DNA to index and barcode the specimens.
Cole Burston / 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) -
DUK10140407_003
SPORT - Tennis: Eine Motte unterbricht Novak Djokovic während seines Halbfinalspiels in Melbourne
Mandatory Credit: Photo by James Gourley/Shutterstock (11763399ea)
A moth interrupts Novak Djokovic during his semi-final match
Australian Open Tennis, Day Eleven, Melbourne Park, Australia - 18 Feb 2021
(c) Dukas -
DUK10140407_002
SPORT - Tennis: Eine Motte unterbricht Novak Djokovic während seines Halbfinalspiels in Melbourne
Mandatory Credit: Photo by James Gourley/Shutterstock (11763399dy)
A moth interrupts Novak Djokovic during his semi-final match
Australian Open Tennis, Day Eleven, Melbourne Park, Australia - 18 Feb 2021
(c) Dukas -
DUK10140407_001
SPORT - Tennis: Eine Motte unterbricht Novak Djokovic während seines Halbfinalspiels in Melbourne
Mandatory Credit: Photo by James Gourley/Shutterstock (11763399dz)
A moth interrupts Novak Djokovic during his semi-final match
Australian Open Tennis, Day Eleven, Melbourne Park, Australia - 18 Feb 2021
(c) Dukas -
DUK10117909_009
FEATURE - Spanner-Raupen fressen sich satt
These caterpillars of the Small Eggar moth were seen feeding on fresh Hawthorn leaves in a roadside hedge near Somerton. Somerset. The caterpillars leave the safety of their silken web to feed. They feed as a group to lessen the risk for any one individual and return regularly to the safety of the main web. The caterpillars leave a silk trail as they move around the branches thereby creating a network of trails that link the web with good food locations.
Where: Somerton, Somerset, United Kingdom
When: 16 May 2019
Credit: Robin Morrison/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10117909_008
FEATURE - Spanner-Raupen fressen sich satt
These caterpillars of the Small Eggar moth were seen feeding on fresh Hawthorn leaves in a roadside hedge near Somerton. Somerset. The caterpillars leave the safety of their silken web to feed. They feed as a group to lessen the risk for any one individual and return regularly to the safety of the main web. The caterpillars leave a silk trail as they move around the branches thereby creating a network of trails that link the web with good food locations.
Where: Somerton, Somerset, United Kingdom
When: 16 May 2019
Credit: Robin Morrison/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10117909_007
FEATURE - Spanner-Raupen fressen sich satt
These caterpillars of the Small Eggar moth were seen feeding on fresh Hawthorn leaves in a roadside hedge near Somerton. Somerset. The caterpillars leave the safety of their silken web to feed. They feed as a group to lessen the risk for any one individual and return regularly to the safety of the main web. The caterpillars leave a silk trail as they move around the branches thereby creating a network of trails that link the web with good food locations.
Where: Somerton, Somerset, United Kingdom
When: 16 May 2019
Credit: Robin Morrison/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10117909_006
FEATURE - Spanner-Raupen fressen sich satt
These caterpillars of the Small Eggar moth were seen feeding on fresh Hawthorn leaves in a roadside hedge near Somerton. Somerset. The caterpillars leave the safety of their silken web to feed. They feed as a group to lessen the risk for any one individual and return regularly to the safety of the main web. The caterpillars leave a silk trail as they move around the branches thereby creating a network of trails that link the web with good food locations.
Where: Somerton, Somerset, United Kingdom
When: 16 May 2019
Credit: Robin Morrison/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10117909_005
FEATURE - Spanner-Raupen fressen sich satt
These caterpillars of the Small Eggar moth were seen feeding on fresh Hawthorn leaves in a roadside hedge near Somerton. Somerset. The caterpillars leave the safety of their silken web to feed. They feed as a group to lessen the risk for any one individual and return regularly to the safety of the main web. The caterpillars leave a silk trail as they move around the branches thereby creating a network of trails that link the web with good food locations.
Where: Somerton, Somerset, United Kingdom
When: 16 May 2019
Credit: Robin Morrison/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10117909_004
FEATURE - Spanner-Raupen fressen sich satt
These caterpillars of the Small Eggar moth were seen feeding on fresh Hawthorn leaves in a roadside hedge near Somerton. Somerset. The caterpillars leave the safety of their silken web to feed. They feed as a group to lessen the risk for any one individual and return regularly to the safety of the main web. The caterpillars leave a silk trail as they move around the branches thereby creating a network of trails that link the web with good food locations.
Where: Somerton, Somerset, United Kingdom
When: 16 May 2019
Credit: Robin Morrison/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10117909_003
FEATURE - Spanner-Raupen fressen sich satt
These caterpillars of the Small Eggar moth were seen feeding on fresh Hawthorn leaves in a roadside hedge near Somerton. Somerset. The caterpillars leave the safety of their silken web to feed. They feed as a group to lessen the risk for any one individual and return regularly to the safety of the main web. The caterpillars leave a silk trail as they move around the branches thereby creating a network of trails that link the web with good food locations.
Where: Somerton, Somerset, United Kingdom
When: 16 May 2019
Credit: Robin Morrison/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10117909_002
FEATURE - Spanner-Raupen fressen sich satt
These caterpillars of the Small Eggar moth were seen feeding on fresh Hawthorn leaves in a roadside hedge near Somerton. Somerset. The caterpillars leave the safety of their silken web to feed. They feed as a group to lessen the risk for any one individual and return regularly to the safety of the main web. The caterpillars leave a silk trail as they move around the branches thereby creating a network of trails that link the web with good food locations.
Where: Somerton, Somerset, United Kingdom
When: 16 May 2019
Credit: Robin Morrison/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10117909_001
FEATURE - Spanner-Raupen fressen sich satt
These caterpillars of the Small Eggar moth were seen feeding on fresh Hawthorn leaves in a roadside hedge near Somerton. Somerset. The caterpillars leave the safety of their silken web to feed. They feed as a group to lessen the risk for any one individual and return regularly to the safety of the main web. The caterpillars leave a silk trail as they move around the branches thereby creating a network of trails that link the web with good food locations.
Where: Somerton, Somerset, United Kingdom
When: 16 May 2019
Credit: Robin Morrison/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10101900_007
FEATURE - Faszierend: Kolibri holt sich Nektar
A Hummingbird hawk-moth sips nectar from a Buddleia plant on the wing. A day flying moth that migrates up from the continent each summer. Feeding very much like a hummingbird, hence it's name. Near Corwen, north Wales.
Featuring: Hummingbird hawk-moth
Where: Corwen, Wales
When: 21 Aug 2018
Credit: Richard Bowler/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10101900_006
FEATURE - Faszierend: Kolibri holt sich Nektar
A Hummingbird hawk-moth sips nectar from a Buddleia plant on the wing. A day flying moth that migrates up from the continent each summer. Feeding very much like a hummingbird, hence it's name. Near Corwen, north Wales.
Featuring: Hummingbird hawk-moth
Where: Corwen, Wales
When: 21 Aug 2018
Credit: Richard Bowler/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10101900_005
FEATURE - Faszierend: Kolibri holt sich Nektar
A Hummingbird hawk-moth sips nectar from a Buddleia plant on the wing. A day flying moth that migrates up from the continent each summer. Feeding very much like a hummingbird, hence it's name. Near Corwen, north Wales.
Featuring: Hummingbird hawk-moth
Where: Corwen, Wales
When: 21 Aug 2018
Credit: Richard Bowler/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10101900_004
FEATURE - Faszierend: Kolibri holt sich Nektar
A Hummingbird hawk-moth sips nectar from a Buddleia plant on the wing. A day flying moth that migrates up from the continent each summer. Feeding very much like a hummingbird, hence it's name. Near Corwen, north Wales.
Featuring: Hummingbird hawk-moth
Where: Corwen, Wales
When: 21 Aug 2018
Credit: Richard Bowler/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10101900_003
FEATURE - Faszierend: Kolibri holt sich Nektar
A Hummingbird hawk-moth sips nectar from a Buddleia plant on the wing. A day flying moth that migrates up from the continent each summer. Feeding very much like a hummingbird, hence it's name. Near Corwen, north Wales.
Featuring: Hummingbird hawk-moth
Where: Corwen, Wales
When: 21 Aug 2018
Credit: Richard Bowler/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10101900_002
FEATURE - Faszierend: Kolibri holt sich Nektar
A Hummingbird hawk-moth sips nectar from a Buddleia plant on the wing. A day flying moth that migrates up from the continent each summer. Feeding very much like a hummingbird, hence it's name. Near Corwen, north Wales.
Featuring: Hummingbird hawk-moth
Where: Corwen, Wales
When: 21 Aug 2018
Credit: Richard Bowler/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10101900_001
FEATURE - Faszierend: Kolibri holt sich Nektar
A Hummingbird hawk-moth sips nectar from a Buddleia plant on the wing. A day flying moth that migrates up from the continent each summer. Feeding very much like a hummingbird, hence it's name. Near Corwen, north Wales.
Featuring: Hummingbird hawk-moth
Where: Corwen, Wales
When: 21 Aug 2018
Credit: Richard Bowler/Cover Images (FOTO: DUKAS/COVER IMAGES)
(c) Dukas -
DUK10081138_084
REPORTAGE - Mit der Familie draussen schlafen und der Natur nahe sein
Editorial use only - Model Released
Mandatory Credit: Photo by REX/Shutterstock (9297567y)
Big Wild Sleepout event, young children and parents out in their back garden from around mid-afternoon until night-time, enjoying activities, such as making a den, looking at bugs, putting out dog food for hedgehogs, toasting marshmallows around a fire pit, moth trapping, looking for nocturnal wildlife.
RSPB Big Wild Sleepout event, Letchworth, Hertfordshire, UK - 21 Apr 2017
(c) Dukas -
DUK10081138_083
REPORTAGE - Mit der Familie draussen schlafen und der Natur nahe sein
Editorial use only - Model Released
Mandatory Credit: Photo by REX/Shutterstock (9297567be)
Big Wild Sleepout event, young children and parents out in their back garden from around mid-afternoon until night-time, enjoying activities, such as making a den, looking at bugs, putting out dog food for hedgehogs, toasting marshmallows around a fire pit, moth trapping, looking for nocturnal wildlife.
RSPB Big Wild Sleepout event, Letchworth, Hertfordshire, UK - 21 Apr 2017
(c) Dukas -
DUK10081138_082
REPORTAGE - Mit der Familie draussen schlafen und der Natur nahe sein
Editorial use only - Model Released
Mandatory Credit: Photo by REX/Shutterstock (9297567bj)
Big Wild Sleepout event, young children and parents out in their back garden from around mid-afternoon until night-time, enjoying activities, such as making a den, looking at bugs, putting out dog food for hedgehogs, toasting marshmallows around a fire pit, moth trapping, looking for nocturnal wildlife.
RSPB Big Wild Sleepout event, Letchworth, Hertfordshire, UK - 21 Apr 2017
(c) Dukas -
DUK10081138_081
REPORTAGE - Mit der Familie draussen schlafen und der Natur nahe sein
Editorial use only - Model Released
Mandatory Credit: Photo by REX/Shutterstock (9297567bs)
Big Wild Sleepout event, young children and parents out in their back garden from around mid-afternoon until night-time, enjoying activities, such as making a den, looking at bugs, putting out dog food for hedgehogs, toasting marshmallows around a fire pit, moth trapping, looking for nocturnal wildlife.
RSPB Big Wild Sleepout event, Letchworth, Hertfordshire, UK - 21 Apr 2017
(c) Dukas -
DUK10081138_080
REPORTAGE - Mit der Familie draussen schlafen und der Natur nahe sein
Editorial use only - Model Released
Mandatory Credit: Photo by REX/Shutterstock (9297567ak)
Big Wild Sleepout event, young children and parents out in their back garden from around mid-afternoon until night-time, enjoying activities, such as making a den, looking at bugs, putting out dog food for hedgehogs, toasting marshmallows around a fire pit, moth trapping, looking for nocturnal wildlife.
RSPB Big Wild Sleepout event, Letchworth, Hertfordshire, UK - 21 Apr 2017
(c) Dukas -
DUK10081138_079
REPORTAGE - Mit der Familie draussen schlafen und der Natur nahe sein
Editorial use only - Model Released
Mandatory Credit: Photo by REX/Shutterstock (9297567aa)
Big Wild Sleepout event, young children and parents out in their back garden from around mid-afternoon until night-time, enjoying activities, such as making a den, looking at bugs, putting out dog food for hedgehogs, toasting marshmallows around a fire pit, moth trapping, looking for nocturnal wildlife.
RSPB Big Wild Sleepout event, Letchworth, Hertfordshire, UK - 21 Apr 2017
(c) Dukas -
DUK10081138_078
REPORTAGE - Mit der Familie draussen schlafen und der Natur nahe sein
Editorial use only - Model Released
Mandatory Credit: Photo by REX/Shutterstock (9297567af)
Big Wild Sleepout event, young children and parents out in their back garden from around mid-afternoon until night-time, enjoying activities, such as making a den, looking at bugs, putting out dog food for hedgehogs, toasting marshmallows around a fire pit, moth trapping, looking for nocturnal wildlife.
RSPB Big Wild Sleepout event, Letchworth, Hertfordshire, UK - 21 Apr 2017
(c) Dukas -
DUK10081138_077
REPORTAGE - Mit der Familie draussen schlafen und der Natur nahe sein
Editorial use only - Model Released
Mandatory Credit: Photo by REX/Shutterstock (9297567s)
Big Wild Sleepout event, young children and parents out in their back garden from around mid-afternoon until night-time, enjoying activities, such as making a den, looking at bugs, putting out dog food for hedgehogs, toasting marshmallows around a fire pit, moth trapping, looking for nocturnal wildlife.
RSPB Big Wild Sleepout event, Letchworth, Hertfordshire, UK - 21 Apr 2017
(c) Dukas -
