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DUKAS_186651952_NUR
Garden Baby Snail On Flower
A garden snail baby crawls on a flower leaf in Kirtipur, Kathmandu, Nepal, on July 14, 2025. (Photo by Narayan Maharjan/NurPhoto) -
DUKAS_186651932_NUR
Garden Baby Snail On Flower
A garden snail baby crawls on a flower leaf in Kirtipur, Kathmandu, Nepal, on July 14, 2025. (Photo by Narayan Maharjan/NurPhoto) -
DUKAS_186651930_NUR
Garden Baby Snail On Flower
A garden snail baby crawls on a flower leaf in Kirtipur, Kathmandu, Nepal, on July 14, 2025. (Photo by Narayan Maharjan/NurPhoto) -
DUKAS_186651920_NUR
Garden Baby Snail On Flower
Water droplets appear on the Madagascar periwinkle flower after rain in Kirtipur, Kathmandu, Nepal, on July 14, 2025. (Photo by Narayan Maharjan/NurPhoto) -
DUKAS_186651918_NUR
Garden Baby Snail On Flower
Water droplets appear on the Madagascar periwinkle flower after rain in Kirtipur, Kathmandu, Nepal, on July 14, 2025. (Photo by Narayan Maharjan/NurPhoto) -
DUKAS_186651899_NUR
Garden Baby Snail On Flower
Water droplets appear on the Madagascar periwinkle flower after rain in Kirtipur, Kathmandu, Nepal, on July 14, 2025. (Photo by Narayan Maharjan/NurPhoto) -
DUKAS_186651881_NUR
Garden Baby Snail On Flower
A garden snail baby crawls on a leaf in Kirtipur, Kathmandu, Nepal, on July 14, 2025. (Photo by Narayan Maharjan/NurPhoto) -
DUKAS_186651852_NUR
Garden Baby Snail On Flower
A garden snail baby crawls on a flower in Kirtipur, Kathmandu, Nepal, on July 14, 2025. (Photo by Narayan Maharjan/NurPhoto) -
DUKAS_186651850_NUR
Garden Baby Snail On Flower
A garden snail baby crawls on a flower in Kirtipur, Kathmandu, Nepal, on July 14, 2025. (Photo by Narayan Maharjan/NurPhoto) -
DUKAS_186651841_NUR
Garden Baby Snail On Flower
A garden snail baby crawls on a flower leaf in Kirtipur, Kathmandu, Nepal, on July 14, 2025. (Photo by Narayan Maharjan/NurPhoto) -
DUKAS_185654051_NUR
Rainy Morning In Toronto, Canada
A banded garden snail (Cepaea nemoralis) is on the bud of a peony flower following the first thunderstorm of the season in Toronto, Ontario, Canada, on June 5, 2025 (Photo by Creative Touch Imaging Ltd./NurPhoto). -
DUKAS_185654027_NUR
Rainy Morning In Toronto, Canada
A small snail is on the bud of a peony flower following the first thunderstorm of the season in Toronto, Ontario, Canada, on June 5, 2025. (Photo by Creative Touch Imaging Ltd./NurPhoto) -
DUKAS_185653991_NUR
Rainy Morning In Toronto, Canada
A small snail is on the bud of a peony flower following the first thunderstorm of the season in Toronto, Ontario, Canada, on June 5, 2025. (Photo by Creative Touch Imaging Ltd./NurPhoto) -
DUKAS_185653955_NUR
Rainy Morning In Toronto, Canada
A banded garden snail (Cepaea nemoralis) is on the leaf of a peony plant following the first thunderstorm of the season in Toronto, Ontario, Canada, on June 5, 2025 (Photo by Creative Touch Imaging Ltd./NurPhoto). -
DUKAS_184923024_NUR
Banded Garden Snail
A banded garden snail (Cepaea nemoralis) is in Toronto, Ontario, Canada, on May 16, 2025. (Photo by Creative Touch Imaging Ltd./NurPhoto) -
DUKAS_184923021_NUR
Banded Garden Snail
A banded garden snail (Cepaea nemoralis) is in Toronto, Ontario, Canada, on May 16, 2025. (Photo by Creative Touch Imaging Ltd./NurPhoto) -
DUKAS_184410892_NUR
Spring Season In Toronto
A banded garden snail (Cepaea nemoralis) is present during the spring season in Toronto, Ontario, Canada, on April 30, 2025. (Photo by Creative Touch Imaging Ltd./NurPhoto) -
DUKAS_169320285_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snail in action.
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320282_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: Evolution of the snail inspired robot
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320281_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snails in action.Making a chain on a step for a stranded robot to climb down
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320279_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snails in action.Creating a step up for a single bot to climb
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320278_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snails in action.Making a bridge between two rocks for one to cross
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320277_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snals in action. Making a bridge between two rocks for one of the bots to cross
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320268_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The white jade land snail that inspired the research
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320267_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The white jade land snail that inspired the research
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320265_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snails in action swarming to make an arm to grab a package on a table
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320262_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snails in action swarming to make an arm to grab a package on a table
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320261_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snails in action.Making a bridge between two rocks for one to cross
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320256_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snail sucker
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320223_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snails in action.Making a chain on a step for a stranded robot to climb down
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320221_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snails in action.Making a bridge between two rocks for one to cross
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_169320218_FER
Snail inspired robots swarm together for search and rescue
Ferrari Press Agency
Snail 1
Ref 15827
06/05/2024
See Ferrari text
Pictures must credit: Chinese University of Hong Kong
Snail inspired robots that can swarm together to perform tasks are being developed that could one day be fused to explore distant planets.
They may also be used is searching for survivors at disaster sites or doing reconnaissance in hazardous environments
All the robots communicate with one another, coordinating their movements in order to get the job done.
The new devices are able to climb up on top of each other, stacking themselves into three-dimensional configurations.
The robots were modelled on a particular snail called the white jade land snail and developed by a team at The Chinese University of Hong Kong.
The robot has a spherical magnetic iron shell that houses a battery, microprocessor and other electronics.
It moves around on tiny rubber caterpillar tracks embedded with magnets.
A retractable vacuum-powered suction cup is located between the two sets of tracks on each bot.
When the robot is moving on its own the suction cup is kept withdrawn and unpowered.
The magnets allow it to climb up on top of the shells of other snail robots during swarming.
Once it's in place the bot lowers and powering up its suction cup to cling tightly to the shell of the other robot fixing the two firmly together.
OPS: The robot snails in action.Creating a step up for a single bot to climb
Pictue supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_117555022_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555225_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555226_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555033_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555223_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555205_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555264_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555021_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / Guardian / eyevine
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_117555263_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555265_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555020_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555019_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555221_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117555222_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ‘As the scientist meddling in this unusual love triangle, I tried to remain disinterested.’
© Fabio De Paola / 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_117554920_EYE
Experience: I helped a snail find love It is difficult for lefty snails to mate with normal snails because they have genitals on the opposite side of their head.
Angus Davison of Nottingham, Associate Professor and Reader in Evolutionary Genetics at the University of Nottingham who tried to find a mate for a rare left coiling snail called Jeremy.
Davison: ÔAs the scientist meddling in this unusual love triangle, I tried to remain disinterested.Õ
© Fabio De Paola / 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. -
DUK10127135_008
FEATURE - Jährliche Tierzählung im Londoner Zoo
Zookeeper, Craig Walker, holds a calculator with one of the 40 Giant African land snails at ZSL London Zoo’s annual stocktake.
A requirement of ZSL London Zoo’s license, the annual audit takes keepers almost a week to complete and the information is shared with other zoos around the world via a database called Species360, where it’s used to help manage the worldwide conservation breeding programmes for endangered animals.
ZSL London Zoo is home to more than 580 species, from Endangered Asiatic lions to Critically Endangered Chinese giant salamanders, and we’re working not only here in the Zoo to increase their numbers, but on conservation projects around the world too.
(c) Dukas -
DUK10101904_004
FEATURE - Jährlicher Wägetermin im London Zoo
Image ©Licensed to i-Images Picture Agency. 23/08/2018. London, United Kingdom.
Meerkats at the Annual London Zoo Weigh-In
London Zoo Weigh-in photocall. ZSL London Zoo. Picture by Mark Thomas / i-Images
(c) Dukas -
DUK10101979_046
FEATURE - Pix of the Day: Bilder des Tages
August 23, 2018 - London, Great Britain, United Kingdom - ZSL London Zoo Annual Weigh In, London...With more than 20,000 animals in their care, ZSL London ZooÕs keepers spend hours throughout the year recording the heights and weights of all the animals, information which helps them to monitor their health and well-being...The annual weigh-in is an opportunity for keepers at ZSL London Zoo to make sure the information theyÕve recorded is up-to-date and accurate - each measurement is then added to the Zoological Information Management System (ZIMS), a database shared with zoos all over the world that helps zookeepers to compare important information on thousands of endangered species...AUGUST 23rd 2018 (FOTO: DUKAS/ZUMA)
(c) Dukas -
