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DUKAS_183823685_POL
Kier Starmer welcomes New Zealand PM Christopher Luxon to No10
Image Licensed to i-Images / Polaris) Picture Agency. 22/04/2025. London, United Kingdom: Kier Starmer Greets Christopher Luxon to No10. Prime Minister Keir Starmer welcomes New Zealand Prime Minister Christopher Luxon to Downing Street. (Martyn Wheatley / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Martyn Wheatley / i-Images -
DUKAS_183823683_POL
Kier Starmer welcomes New Zealand PM Christopher Luxon to No10
Image Licensed to i-Images / Polaris) Picture Agency. 22/04/2025. London, United Kingdom: Kier Starmer Greets Christopher Luxon to No10. Prime Minister Keir Starmer welcomes New Zealand Prime Minister Christopher Luxon to Downing Street. (Martyn Wheatley / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Martyn Wheatley / i-Images -
DUKAS_183823681_POL
Kier Starmer welcomes New Zealand PM Christopher Luxon to No10
Image Licensed to i-Images / Polaris) Picture Agency. 22/04/2025. London, United Kingdom: Kier Starmer Greets Christopher Luxon to No10. Prime Minister Keir Starmer welcomes New Zealand Prime Minister Christopher Luxon to Downing Street. (Martyn Wheatley / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Martyn Wheatley / i-Images -
DUKAS_183823679_POL
Kier Starmer welcomes New Zealand PM Christopher Luxon to No10
Image Licensed to i-Images / Polaris) Picture Agency. 22/04/2025. London, United Kingdom: Kier Starmer Greets Christopher Luxon to No10. Prime Minister Keir Starmer welcomes New Zealand Prime Minister Christopher Luxon to Downing Street. (Martyn Wheatley / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Martyn Wheatley / i-Images -
DUKAS_183823677_POL
Kier Starmer welcomes New Zealand PM Christopher Luxon to No10
Image Licensed to i-Images / Polaris) Picture Agency. 22/04/2025. London, United Kingdom: Kier Starmer Greets Christopher Luxon to No10. Prime Minister Keir Starmer welcomes New Zealand Prime Minister Christopher Luxon to Downing Street. (Martyn Wheatley / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Martyn Wheatley / i-Images -
DUKAS_183823676_POL
Kier Starmer welcomes New Zealand PM Christopher Luxon to No10
Image Licensed to i-Images / Polaris) Picture Agency. 22/04/2025. London, United Kingdom: Kier Starmer Greets Christopher Luxon to No10. Prime Minister Keir Starmer welcomes New Zealand Prime Minister Christopher Luxon to Downing Street. (Martyn Wheatley / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Martyn Wheatley / i-Images -
DUKAS_183823675_POL
Kier Starmer welcomes New Zealand PM Christopher Luxon to No10
Image Licensed to i-Images / Polaris) Picture Agency. 22/04/2025. London, United Kingdom: Kier Starmer Greets Christopher Luxon to No10. Prime Minister Keir Starmer welcomes New Zealand Prime Minister Christopher Luxon to Downing Street. (Martyn Wheatley / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Martyn Wheatley / i-Images -
DUKAS_183823674_POL
Kier Starmer welcomes New Zealand PM Christopher Luxon to No10
Image Licensed to i-Images / Polaris) Picture Agency. 22/04/2025. London, United Kingdom: Kier Starmer Greets Christopher Luxon to No10. Prime Minister Keir Starmer welcomes New Zealand Prime Minister Christopher Luxon to Downing Street. (Martyn Wheatley / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Martyn Wheatley / i-Images -
DUKAS_183823673_POL
Kier Starmer welcomes New Zealand PM Christopher Luxon to No10
Image Licensed to i-Images / Polaris) Picture Agency. 22/04/2025. London, United Kingdom: Kier Starmer Greets Christopher Luxon to No10. Prime Minister Keir Starmer welcomes New Zealand Prime Minister Christopher Luxon to Downing Street. (Martyn Wheatley / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Martyn Wheatley / i-Images -
DUKAS_182911415_EYE
Fake dolphins and frantic digging: the army of helpers learning to rescue New Zealand's stranded whales.
Fake dolphins and frantic digging: the army of helpers learning to rescue New Zealand's stranded whales.
A vast network of volunteers leap into action to save beached creatures in New Zealand, a global hotspot for strandings.
The animals are so life-like beachgoers run to check on them, prompting assurances from trainers they are just models to teach people how to respond if a whale or dolphin strands.
Project Jonah Whale rescue workshop on Sat March 1st 2025 at Scorching Bay, Wellington, New Zealand.
Mark Coote / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
Copyright Mark Coote ©2025 -
DUKAS_182911414_EYE
Fake dolphins and frantic digging: the army of helpers learning to rescue New Zealand's stranded whales.
Fake dolphins and frantic digging: the army of helpers learning to rescue New Zealand's stranded whales.
A vast network of volunteers leap into action to save beached creatures in New Zealand, a global hotspot for strandings.
The animals are so life-like beachgoers run to check on them, prompting assurances from trainers they are just models to teach people how to respond if a whale or dolphin strands.
Seasoned volunteer Mark Rounce at the Project Jonah Whale rescue workshop on Sat March 1st 2025 at Scorching Bay, Wellington, New Zealand.
Mark Coote / 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)
Copyright Mark Coote ©2025 -
DUKAS_182911416_EYE
Fake dolphins and frantic digging: the army of helpers learning to rescue New Zealand's stranded whales.
Fake dolphins and frantic digging: the army of helpers learning to rescue New Zealand's stranded whales.
A vast network of volunteers leap into action to save beached creatures in New Zealand, a global hotspot for strandings.
The animals are so life-like beachgoers run to check on them, prompting assurances from trainers they are just models to teach people how to respond if a whale or dolphin strands.
Project Jonah Whale rescue workshop on Sat March 1st 2025 at Scorching Bay, Wellington, New Zealand.
Mark Coote / 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)
Copyright Mark Coote ©2025 -
DUKAS_182911413_EYE
Fake dolphins and frantic digging: the army of helpers learning to rescue New Zealand's stranded whales.
Fake dolphins and frantic digging: the army of helpers learning to rescue New Zealand's stranded whales.
A vast network of volunteers leap into action to save beached creatures in New Zealand, a global hotspot for strandings.
The animals are so life-like beachgoers run to check on them, prompting assurances from trainers they are just models to teach people how to respond if a whale or dolphin strands.
Project Jonah Whale rescue workshop on Sat March 1st 2025 at Scorching Bay, Wellington, New Zealand.
Mark Coote / 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)
Copyright Mark Coote ©2025 -
DUKAS_181387926_EYE
Joseph Parker: 'This will mean something different. I'm doing it for myself now'
Joseph Parker: 'This will mean something different. I'm doing it for myself now'
New Zealand fighter Joseph Parker has appreciated spending time with his family as he prepares to challenge Daniel Dubois for the IBF world heavyweight title.
Joseph Parker at Ballybrack Boxing Club, Dublin, Ireland.
Patrick Bolger / 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)
© Patrick Bolger -
DUKAS_181387925_EYE
Joseph Parker: 'This will mean something different. I'm doing it for myself now'
Joseph Parker: 'This will mean something different. I'm doing it for myself now'
New Zealand fighter Joseph Parker has appreciated spending time with his family as he prepares to challenge Daniel Dubois for the IBF world heavyweight title.
Joseph Parker at Ballybrack Boxing Club, Dublin, Ireland.
Patrick Bolger / 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)
© Patrick Bolger -
DUKAS_181387924_EYE
Joseph Parker: 'This will mean something different. I'm doing it for myself now'
Joseph Parker: 'This will mean something different. I'm doing it for myself now'
New Zealand fighter Joseph Parker has appreciated spending time with his family as he prepares to challenge Daniel Dubois for the IBF world heavyweight title.
Joseph Parker at Ballybrack Boxing Club, Dublin, Ireland.
Patrick Bolger / 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)
© Patrick Bolger -
DUKAS_181387922_EYE
Joseph Parker: 'This will mean something different. I'm doing it for myself now'
Joseph Parker: 'This will mean something different. I'm doing it for myself now'
New Zealand fighter Joseph Parker has appreciated spending time with his family as he prepares to challenge Daniel Dubois for the IBF world heavyweight title.
Joseph Parker at Ballybrack Boxing Club, Dublin, Ireland.
Patrick Bolger / 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)
© Patrick Bolger -
DUKAS_179881777_BES
Des télécabines pour survoler le trafic urbain
Picture MUST credit: Whoosh Transport pods that wind around a city and can be hailed using an app could be the future of urban transport. The autonomous system called Whoosh, which is about to be tested in New Zealand, uses gondolas that have their own motors and autonomous route-switching systems on board. They are free to navigate their way from point to point across a complex, super-modular high-rise network that could stretch from one side of town to the other above congested roads. It is an on-demand ride-hailing experience for passengers, allowing them to book rides and glide easily above congestion traveling nonstop to their destination. Riding on a dedicated rail system offers a network of safe electric vehicles with low energy needs and zero emissions. Whoosh networks would be modular and include small pull-off stops, larger hub stations or combinations of both to create a variety of journey options across a region. The pods transition from cable to rail support structure, changing elevation, or turning to create countless route options. The New Zealand team behind the innovation based in Christchurch says the system is flexible and easy to implement in tight spaces. Picture supplied by JLPPA via Bestimage
JLPPA / Bestimage -
DUKAS_179881776_BES
Des télécabines pour survoler le trafic urbain
Picture MUST credit: Whoosh Transport pods that wind around a city and can be hailed using an app could be the future of urban transport. The autonomous system called Whoosh, which is about to be tested in New Zealand, uses gondolas that have their own motors and autonomous route-switching systems on board. They are free to navigate their way from point to point across a complex, super-modular high-rise network that could stretch from one side of town to the other above congested roads. It is an on-demand ride-hailing experience for passengers, allowing them to book rides and glide easily above congestion traveling nonstop to their destination. Riding on a dedicated rail system offers a network of safe electric vehicles with low energy needs and zero emissions. Whoosh networks would be modular and include small pull-off stops, larger hub stations or combinations of both to create a variety of journey options across a region. The pods transition from cable to rail support structure, changing elevation, or turning to create countless route options. The New Zealand team behind the innovation based in Christchurch says the system is flexible and easy to implement in tight spaces. Picture supplied by JLPPA via Bestimage
JLPPA / Bestimage -
DUKAS_179881775_BES
Des télécabines pour survoler le trafic urbain
Picture MUST credit: Whoosh Transport pods that wind around a city and can be hailed using an app could be the future of urban transport. The autonomous system called Whoosh, which is about to be tested in New Zealand, uses gondolas that have their own motors and autonomous route-switching systems on board. They are free to navigate their way from point to point across a complex, super-modular high-rise network that could stretch from one side of town to the other above congested roads. It is an on-demand ride-hailing experience for passengers, allowing them to book rides and glide easily above congestion traveling nonstop to their destination. Riding on a dedicated rail system offers a network of safe electric vehicles with low energy needs and zero emissions. Whoosh networks would be modular and include small pull-off stops, larger hub stations or combinations of both to create a variety of journey options across a region. The pods transition from cable to rail support structure, changing elevation, or turning to create countless route options. The New Zealand team behind the innovation based in Christchurch says the system is flexible and easy to implement in tight spaces. Picture supplied by JLPPA via Bestimage
JLPPA / Bestimage -
DUKAS_179881774_BES
Des télécabines pour survoler le trafic urbain
Picture MUST credit: Whoosh Transport pods that wind around a city and can be hailed using an app could be the future of urban transport. The autonomous system called Whoosh, which is about to be tested in New Zealand, uses gondolas that have their own motors and autonomous route-switching systems on board. They are free to navigate their way from point to point across a complex, super-modular high-rise network that could stretch from one side of town to the other above congested roads. It is an on-demand ride-hailing experience for passengers, allowing them to book rides and glide easily above congestion traveling nonstop to their destination. Riding on a dedicated rail system offers a network of safe electric vehicles with low energy needs and zero emissions. Whoosh networks would be modular and include small pull-off stops, larger hub stations or combinations of both to create a variety of journey options across a region. The pods transition from cable to rail support structure, changing elevation, or turning to create countless route options. The New Zealand team behind the innovation based in Christchurch says the system is flexible and easy to implement in tight spaces. Picture supplied by JLPPA via Bestimage
JLPPA / Bestimage -
DUKAS_179881773_BES
Des télécabines pour survoler le trafic urbain
Picture MUST credit: Whoosh Transport pods that wind around a city and can be hailed using an app could be the future of urban transport. The autonomous system called Whoosh, which is about to be tested in New Zealand, uses gondolas that have their own motors and autonomous route-switching systems on board. They are free to navigate their way from point to point across a complex, super-modular high-rise network that could stretch from one side of town to the other above congested roads. It is an on-demand ride-hailing experience for passengers, allowing them to book rides and glide easily above congestion traveling nonstop to their destination. Riding on a dedicated rail system offers a network of safe electric vehicles with low energy needs and zero emissions. Whoosh networks would be modular and include small pull-off stops, larger hub stations or combinations of both to create a variety of journey options across a region. The pods transition from cable to rail support structure, changing elevation, or turning to create countless route options. The New Zealand team behind the innovation based in Christchurch says the system is flexible and easy to implement in tight spaces. Picture supplied by JLPPA via Bestimage
JLPPA / Bestimage -
DUKAS_179796346_FER
Ride-hailing gondolas to glide above city traffic
Ferrari Press Agency
Gondolas 1
Ref 16469
16/01/2025
See Ferrari text
Picture MUST credit: Whoosh
Transport pods that wind around a city and can be hailed using an app could be the future of urban transport.
The autonomous system called Whoosh, which is about to be tested in New Zealand, uses gondolas that have their own motors and autonomous route-switching systems on board.
They are free to navigate their way from point to point across a complex, super-modular high-rise network that could stretch from one side of town to the other above congested roads.
It is an on-demand ride-hailing experience for passengers, allowing them to book rides and glide easily above congestion traveling nonstop to their destination.
Riding on a dedicated rail system offers a network of safe electric vehicles with low energy needs and zero emissions.
Whoosh networks would be modular and include small pull-off stops, larger hub stations or combinations of both to create a variety of journey options across a region.
The pods transition from cable to rail support structure, changing elevation, or turning to create countless route options.
The New Zealand team behind the innovation based in Christchurch says the system is flexible and easy to implement in tight spaces.
OPS: Render of the Whoosh system in action.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179796345_FER
Ride-hailing gondolas to glide above city traffic
Ferrari Press Agency
Gondolas 1
Ref 16469
16/01/2025
See Ferrari text
Picture MUST credit: Whoosh
Transport pods that wind around a city and can be hailed using an app could be the future of urban transport.
The autonomous system called Whoosh, which is about to be tested in New Zealand, uses gondolas that have their own motors and autonomous route-switching systems on board.
They are free to navigate their way from point to point across a complex, super-modular high-rise network that could stretch from one side of town to the other above congested roads.
It is an on-demand ride-hailing experience for passengers, allowing them to book rides and glide easily above congestion traveling nonstop to their destination.
Riding on a dedicated rail system offers a network of safe electric vehicles with low energy needs and zero emissions.
Whoosh networks would be modular and include small pull-off stops, larger hub stations or combinations of both to create a variety of journey options across a region.
The pods transition from cable to rail support structure, changing elevation, or turning to create countless route options.
The New Zealand team behind the innovation based in Christchurch says the system is flexible and easy to implement in tight spaces.
OPS: Render of the Whoosh system in action.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179796342_FER
Ride-hailing gondolas to glide above city traffic
Ferrari Press Agency
Gondolas 1
Ref 16469
16/01/2025
See Ferrari text
Picture MUST credit: Whoosh
Transport pods that wind around a city and can be hailed using an app could be the future of urban transport.
The autonomous system called Whoosh, which is about to be tested in New Zealand, uses gondolas that have their own motors and autonomous route-switching systems on board.
They are free to navigate their way from point to point across a complex, super-modular high-rise network that could stretch from one side of town to the other above congested roads.
It is an on-demand ride-hailing experience for passengers, allowing them to book rides and glide easily above congestion traveling nonstop to their destination.
Riding on a dedicated rail system offers a network of safe electric vehicles with low energy needs and zero emissions.
Whoosh networks would be modular and include small pull-off stops, larger hub stations or combinations of both to create a variety of journey options across a region.
The pods transition from cable to rail support structure, changing elevation, or turning to create countless route options.
The New Zealand team behind the innovation based in Christchurch says the system is flexible and easy to implement in tight spaces.
OPS: Render of the Whoosh system in action.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179796341_FER
Ride-hailing gondolas to glide above city traffic
Ferrari Press Agency
Gondolas 1
Ref 16469
16/01/2025
See Ferrari text
Picture MUST credit: Whoosh
Transport pods that wind around a city and can be hailed using an app could be the future of urban transport.
The autonomous system called Whoosh, which is about to be tested in New Zealand, uses gondolas that have their own motors and autonomous route-switching systems on board.
They are free to navigate their way from point to point across a complex, super-modular high-rise network that could stretch from one side of town to the other above congested roads.
It is an on-demand ride-hailing experience for passengers, allowing them to book rides and glide easily above congestion traveling nonstop to their destination.
Riding on a dedicated rail system offers a network of safe electric vehicles with low energy needs and zero emissions.
Whoosh networks would be modular and include small pull-off stops, larger hub stations or combinations of both to create a variety of journey options across a region.
The pods transition from cable to rail support structure, changing elevation, or turning to create countless route options.
The New Zealand team behind the innovation based in Christchurch says the system is flexible and easy to implement in tight spaces.
OPS: Render of the Whoosh system in action.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179796340_FER
Ride-hailing gondolas to glide above city traffic
Ferrari Press Agency
Gondolas 1
Ref 16469
16/01/2025
See Ferrari text
Picture MUST credit: Whoosh
Transport pods that wind around a city and can be hailed using an app could be the future of urban transport.
The autonomous system called Whoosh, which is about to be tested in New Zealand, uses gondolas that have their own motors and autonomous route-switching systems on board.
They are free to navigate their way from point to point across a complex, super-modular high-rise network that could stretch from one side of town to the other above congested roads.
It is an on-demand ride-hailing experience for passengers, allowing them to book rides and glide easily above congestion traveling nonstop to their destination.
Riding on a dedicated rail system offers a network of safe electric vehicles with low energy needs and zero emissions.
Whoosh networks would be modular and include small pull-off stops, larger hub stations or combinations of both to create a variety of journey options across a region.
The pods transition from cable to rail support structure, changing elevation, or turning to create countless route options.
The New Zealand team behind the innovation based in Christchurch says the system is flexible and easy to implement in tight spaces.
OPS: Render of the Whoosh system in action.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179449630_EYE
Dissecting the world's rarest whale
Dissecting the world's rarest whale.
Conservationists and scientists in New Zealand were astonished to find the worldÕs rarest whale washed ashore in the South Island in July. As only the seventh spade-toothed whale identified, and with none ever seen alive, this month saw the first dissection of a complete specimen.
Sophie White, of the University of Otago goes to work at Invermay Agricultural Centre for the dissection of the world's rarest species of beaked whale, a male spade-toothed whale (Mesoplodon traversii), which washed ashore near Taieri Mouth in July 2024.
Derek Morrison / 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)
Copyright © Derek Morrison 2024. All rights reserved. -
DUKAS_179449588_EYE
Dissecting the world's rarest whale
Dissecting the world's rarest whale.
Conservationists and scientists in New Zealand were astonished to find the worldÕs rarest whale washed ashore in the South Island in July. As only the seventh spade-toothed whale identified, and with none ever seen alive, this month saw the first dissection of a complete specimen.
International scientist Professor Joy Reidenberg, of the Center for Anatomy and Functional Morphology at the Icahn School of Medicine, gets to work mapping the structure of the whale at Invermay Agricultural Centre for the dissection of the world's rarest species of beaked whale, a male spade-toothed whale (Mesoplodon traversii), which washed ashore near Taieri Mouth in July 2024.
Derek Morrison / 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)
Copyright © Derek Morrison 2024. All rights reserved. -
DUKAS_179449629_EYE
Dissecting the world's rarest whale
Dissecting the world's rarest whale.
Conservationists and scientists in New Zealand were astonished to find the world’s rarest whale washed ashore in the South Island in July. As only the seventh spade-toothed whale identified, and with none ever seen alive, this month saw the first dissection of a complete specimen.
Iwi representatives, Department of Conservation and the science community come together at Invermay Agricultural Centre for the dissection of the world's rarest species of beaked whale, a male spade-toothed whale (Mesoplodon traversii), which washed ashore near Taieri Mouth in July 2024.
Derek Morrison / 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)
Copyright © Derek Morrison 2024. All rights reserved. -
DUKAS_179449626_EYE
Dissecting the world's rarest whale
Dissecting the world's rarest whale.
Conservationists and scientists in New Zealand were astonished to find the world’s rarest whale washed ashore in the South Island in July. As only the seventh spade-toothed whale identified, and with none ever seen alive, this month saw the first dissection of a complete specimen.
International scientist Alexander Werth, Trinkle Professor of Biology at the Hampden-Sydney College, holds a piece of whale muscle at Invermay Agricultural Centre for the dissection of the world's rarest species of beaked whale, a male spade-toothed whale (Mesoplodon traversii), which washed ashore near Taieri Mouth in July 2024.
Derek Morrison / 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)
Copyright © Derek Morrison 2024. All rights reserved. -
DUKAS_179449634_EYE
Dissecting the world's rarest whale
Dissecting the world's rarest whale.
Conservationists and scientists in New Zealand were astonished to find the world’s rarest whale washed ashore in the South Island in July. As only the seventh spade-toothed whale identified, and with none ever seen alive, this month saw the first dissection of a complete specimen.
Ngatiwai iwi representative and whale expert Kaurinui Parata gets to work alongside the scientists at Invermay Agricultural Centre for the dissection of the world's rarest species of beaked whale, a male spade-toothed whale (Mesoplodon traversii), which washed ashore near Taieri Mouth in July 2024.
Derek Morrison / 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)
Copyright © Derek Morrison 2024. All rights reserved. -
DUKAS_179449636_EYE
Dissecting the world's rarest whale
Dissecting the world's rarest whale.
Conservationists and scientists in New Zealand were astonished to find the worldÕs rarest whale washed ashore in the South Island in July. As only the seventh spade-toothed whale identified, and with none ever seen alive, this month saw the first dissection of a complete specimen.
Ngatiwai iwi representative and whale expert Kaurinui Parata gets to work alongside the scientists at Invermay Agricultural Centre for the dissection of the world's rarest species of beaked whale, a male spade-toothed whale (Mesoplodon traversii), which washed ashore near Taieri Mouth in July 2024.
Derek Morrison / 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)
Copyright © Derek Morrison 2024. All rights reserved. -
DUKAS_179449632_EYE
Dissecting the world's rarest whale
Dissecting the world's rarest whale.
Conservationists and scientists in New Zealand were astonished to find the world’s rarest whale washed ashore in the South Island in July. As only the seventh spade-toothed whale identified, and with none ever seen alive, this month saw the first dissection of a complete specimen.
International scientist Professor Joy Reidenberg, of the Center for Anatomy and Functional Morphology at the Icahn School of Medicine, gets to work at Invermay Agricultural Centre for the dissection of the world's rarest species of beaked whale, a male spade-toothed whale (Mesoplodon traversii), which washed ashore near Taieri Mouth in July 2024.
Derek Morrison / 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)
Copyright © Derek Morrison 2024. All rights reserved. -
DUKAS_179449625_EYE
Dissecting the world's rarest whale
Dissecting the world's rarest whale.
Conservationists and scientists in New Zealand were astonished to find the world’s rarest whale washed ashore in the South Island in July. As only the seventh spade-toothed whale identified, and with none ever seen alive, this month saw the first dissection of a complete specimen.
Kaumatua, Hori Parata from Ngatiwai, Whangarei, shares tikanga from more than 500 whale and dolphin strandings with his son Kaurinui at Invermay Agricultural Centre for the dissection of the world's rarest species of beaked whale, a male spade-toothed whale (Mesoplodon traversii), which washed ashore near Taieri Mouth in July 2024.
Derek Morrison / 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)
Copyright © Derek Morrison 2024. All rights reserved. -
DUKAS_179449637_EYE
Dissecting the world's rarest whale
Dissecting the world's rarest whale.
Conservationists and scientists in New Zealand were astonished to find the world’s rarest whale washed ashore in the South Island in July. As only the seventh spade-toothed whale identified, and with none ever seen alive, this month saw the first dissection of a complete specimen.
International scientist Professor Joy Reidenberg, of the Center for Anatomy and Functional Morphology at the Icahn School of Medicine, beaked whale expert Anton van Helden and Carolina Loch, of the Otago Faculty of Dentistry, discuss the plan at Invermay Agricultural Centre for the dissection of the world's rarest species of beaked whale, a male spade-toothed whale (Mesoplodon traversii), which washed ashore near Taieri Mouth in July 2024.
Derek Morrison / 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)
Copyright © Derek Morrison 2024. All rights reserved. -
DUKAS_179449628_EYE
Dissecting the world's rarest whale
Dissecting the world's rarest whale.
Conservationists and scientists in New Zealand were astonished to find the world’s rarest whale washed ashore in the South Island in July. As only the seventh spade-toothed whale identified, and with none ever seen alive, this month saw the first dissection of a complete specimen.
Sophie White, technical support from the University of Otago, addresses iwi representatives, Department of Conservation and the science community come together at Invermay Agricultural Centre for the dissection of the world's rarest species of beaked whale, a male spade-toothed whale (Mesoplodon traversii), which washed ashore near Taieri Mouth in July 2024.
Derek Morrison / 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)
Copyright © Derek Morrison 2024. All rights reserved. -
DUKAS_179449633_EYE
Dissecting the world's rarest whale
Dissecting the world's rarest whale.
Conservationists and scientists in New Zealand were astonished to find the world’s rarest whale washed ashore in the South Island in July. As only the seventh spade-toothed whale identified, and with none ever seen alive, this month saw the first dissection of a complete specimen.
Iwi representatives, Department of Conservation and the science community come together at Invermay Agricultural Centre for the dissection of the world's rarest species of beaked whale, a male spade-toothed whale (Mesoplodon traversii), which washed ashore near Taieri Mouth in July 2024.
Derek Morrison / 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)
Copyright © Derek Morrison 2024. All rights reserved. -
DUKAS_177797664_FER
Supersonic rocket-powered drone
Ferrari Press Agency
Aurora 1
Ref 16322
19/11/2024
See Ferrari pictures
Picture MUST credit: Dawn Aerospace
An autonomous rocket-powered aircraft has flown at supersonic speed — the first privately-developed plane to do so since the end of the Anglo-French Concorde.
The Aurora, by New Zealand company Dawn Aerospace, broke the sound barrier with a speed of Mach 1.1 / 1,358 km/h on November 12, 2024.
This is over twice as high as commercial aircraft and marks the first time a civil aircraft has flown supersonic since Concorde.
A spokesperson for the maker said: “This achievement signifies a major step toward operational hypersonic travel and daily space access, establishing rocket-powered aircraft as a new class of ultra-high-performance vehicles.”
Dawn is one of a number of startups working to create a new generation of supersonic planes that are quieter, greener, more efficient, and cost effective to operate than Concorde, which retied in 2003.
The Aurora is an un-manned experimental aircraft with a 4 m wingspan.
In the skies over New Zealand's Glentanner Aerodrome theAurora hit top speed while climbing to an altitude of 25,150 m.
According to the company, broke other records by being the first New Zealand-designed and built supersonic aircraft, the highest altitude reached from New Zealand, and the fastest climb to 20 km.
OPS: The Aurora on board camera captures its reaching its maximum altotiude of 25,150m / 82,500 ft on November 12.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_177797663_FER
Supersonic rocket-powered drone
Ferrari Press Agency
Aurora 1
Ref 16322
19/11/2024
See Ferrari pictures
Picture MUST credit: Dawn Aerospace
An autonomous rocket-powered aircraft has flown at supersonic speed — the first privately-developed plane to do so since the end of the Anglo-French Concorde.
The Aurora, by New Zealand company Dawn Aerospace, broke the sound barrier with a speed of Mach 1.1 / 1,358 km/h on November 12, 2024.
This is over twice as high as commercial aircraft and marks the first time a civil aircraft has flown supersonic since Concorde.
A spokesperson for the maker said: “This achievement signifies a major step toward operational hypersonic travel and daily space access, establishing rocket-powered aircraft as a new class of ultra-high-performance vehicles.”
Dawn is one of a number of startups working to create a new generation of supersonic planes that are quieter, greener, more efficient, and cost effective to operate than Concorde, which retied in 2003.
The Aurora is an un-manned experimental aircraft with a 4 m wingspan.
In the skies over New Zealand's Glentanner Aerodrome theAurora hit top speed while climbing to an altitude of 25,150 m.
According to the company, broke other records by being the first New Zealand-designed and built supersonic aircraft, the highest altitude reached from New Zealand, and the fastest climb to 20 km.
OPS: The Aurora on board camera captures its supersonic, 25,150m altitutde flight on November 12.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_177797661_FER
Supersonic rocket-powered drone
Ferrari Press Agency
Aurora 1
Ref 16322
19/11/2024
See Ferrari pictures
Picture MUST credit: Dawn Aerospace
An autonomous rocket-powered aircraft has flown at supersonic speed — the first privately-developed plane to do so since the end of the Anglo-French Concorde.
The Aurora, by New Zealand company Dawn Aerospace, broke the sound barrier with a speed of Mach 1.1 / 1,358 km/h on November 12, 2024.
This is over twice as high as commercial aircraft and marks the first time a civil aircraft has flown supersonic since Concorde.
A spokesperson for the maker said: “This achievement signifies a major step toward operational hypersonic travel and daily space access, establishing rocket-powered aircraft as a new class of ultra-high-performance vehicles.”
Dawn is one of a number of startups working to create a new generation of supersonic planes that are quieter, greener, more efficient, and cost effective to operate than Concorde, which retied in 2003.
The Aurora is an un-manned experimental aircraft with a 4 m wingspan.
In the skies over New Zealand's Glentanner Aerodrome theAurora hit top speed while climbing to an altitude of 25,150 m.
According to the company, broke other records by being the first New Zealand-designed and built supersonic aircraft, the highest altitude reached from New Zealand, and the fastest climb to 20 km.
OPS: The Aurora on board camera captures its supersonic, 25,150m altitutde flight on November 12.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_177797660_FER
Supersonic rocket-powered drone
Ferrari Press Agency
Aurora 1
Ref 16322
19/11/2024
See Ferrari pictures
Picture MUST credit: Dawn Aerospace
An autonomous rocket-powered aircraft has flown at supersonic speed — the first privately-developed plane to do so since the end of the Anglo-French Concorde.
The Aurora, by New Zealand company Dawn Aerospace, broke the sound barrier with a speed of Mach 1.1 / 1,358 km/h on November 12, 2024.
This is over twice as high as commercial aircraft and marks the first time a civil aircraft has flown supersonic since Concorde.
A spokesperson for the maker said: “This achievement signifies a major step toward operational hypersonic travel and daily space access, establishing rocket-powered aircraft as a new class of ultra-high-performance vehicles.”
Dawn is one of a number of startups working to create a new generation of supersonic planes that are quieter, greener, more efficient, and cost effective to operate than Concorde, which retied in 2003.
The Aurora is an un-manned experimental aircraft with a 4 m wingspan.
In the skies over New Zealand's Glentanner Aerodrome theAurora hit top speed while climbing to an altitude of 25,150 m.
According to the company, broke other records by being the first New Zealand-designed and built supersonic aircraft, the highest altitude reached from New Zealand, and the fastest climb to 20 km.
OPS: The Aurora taking off on November 12.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_177797658_FER
Supersonic rocket-powered drone
Ferrari Press Agency
Aurora 1
Ref 16322
19/11/2024
See Ferrari pictures
Picture MUST credit: Dawn Aerospace
An autonomous rocket-powered aircraft has flown at supersonic speed — the first privately-developed plane to do so since the end of the Anglo-French Concorde.
The Aurora, by New Zealand company Dawn Aerospace, broke the sound barrier with a speed of Mach 1.1 / 1,358 km/h on November 12, 2024.
This is over twice as high as commercial aircraft and marks the first time a civil aircraft has flown supersonic since Concorde.
A spokesperson for the maker said: “This achievement signifies a major step toward operational hypersonic travel and daily space access, establishing rocket-powered aircraft as a new class of ultra-high-performance vehicles.”
Dawn is one of a number of startups working to create a new generation of supersonic planes that are quieter, greener, more efficient, and cost effective to operate than Concorde, which retied in 2003.
The Aurora is an un-manned experimental aircraft with a 4 m wingspan.
In the skies over New Zealand's Glentanner Aerodrome theAurora hit top speed while climbing to an altitude of 25,150 m.
According to the company, broke other records by being the first New Zealand-designed and built supersonic aircraft, the highest altitude reached from New Zealand, and the fastest climb to 20 km.
OPS: The Aurora taking off on November 12.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_177797656_FER
Supersonic rocket-powered drone
Ferrari Press Agency
Aurora 1
Ref 16322
19/11/2024
See Ferrari pictures
Picture MUST credit: Dawn Aerospace
An autonomous rocket-powered aircraft has flown at supersonic speed — the first privately-developed plane to do so since the end of the Anglo-French Concorde.
The Aurora, by New Zealand company Dawn Aerospace, broke the sound barrier with a speed of Mach 1.1 / 1,358 km/h on November 12, 2024.
This is over twice as high as commercial aircraft and marks the first time a civil aircraft has flown supersonic since Concorde.
A spokesperson for the maker said: “This achievement signifies a major step toward operational hypersonic travel and daily space access, establishing rocket-powered aircraft as a new class of ultra-high-performance vehicles.”
Dawn is one of a number of startups working to create a new generation of supersonic planes that are quieter, greener, more efficient, and cost effective to operate than Concorde, which retied in 2003.
The Aurora is an un-manned experimental aircraft with a 4 m wingspan.
In the skies over New Zealand's Glentanner Aerodrome theAurora hit top speed while climbing to an altitude of 25,150 m.
According to the company, broke other records by being the first New Zealand-designed and built supersonic aircraft, the highest altitude reached from New Zealand, and the fastest climb to 20 km.
OPS: The Aurora taking off on November 12.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_177797653_FER
Supersonic rocket-powered drone
Ferrari Press Agency
Aurora 1
Ref 16322
19/11/2024
See Ferrari pictures
Picture MUST credit: Dawn Aerospace
An autonomous rocket-powered aircraft has flown at supersonic speed — the first privately-developed plane to do so since the end of the Anglo-French Concorde.
The Aurora, by New Zealand company Dawn Aerospace, broke the sound barrier with a speed of Mach 1.1 / 1,358 km/h on November 12, 2024.
This is over twice as high as commercial aircraft and marks the first time a civil aircraft has flown supersonic since Concorde.
A spokesperson for the maker said: “This achievement signifies a major step toward operational hypersonic travel and daily space access, establishing rocket-powered aircraft as a new class of ultra-high-performance vehicles.”
Dawn is one of a number of startups working to create a new generation of supersonic planes that are quieter, greener, more efficient, and cost effective to operate than Concorde, which retied in 2003.
The Aurora is an un-manned experimental aircraft with a 4 m wingspan.
In the skies over New Zealand's Glentanner Aerodrome theAurora hit top speed while climbing to an altitude of 25,150 m.
According to the company, broke other records by being the first New Zealand-designed and built supersonic aircraft, the highest altitude reached from New Zealand, and the fastest climb to 20 km.
OPS: The Aurora taking off on November 12.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_177797648_FER
Supersonic rocket-powered drone
Ferrari Press Agency
Aurora 1
Ref 16322
19/11/2024
See Ferrari pictures
Picture MUST credit: Dawn Aerospace
An autonomous rocket-powered aircraft has flown at supersonic speed — the first privately-developed plane to do so since the end of the Anglo-French Concorde.
The Aurora, by New Zealand company Dawn Aerospace, broke the sound barrier with a speed of Mach 1.1 / 1,358 km/h on November 12, 2024.
This is over twice as high as commercial aircraft and marks the first time a civil aircraft has flown supersonic since Concorde.
A spokesperson for the maker said: “This achievement signifies a major step toward operational hypersonic travel and daily space access, establishing rocket-powered aircraft as a new class of ultra-high-performance vehicles.”
Dawn is one of a number of startups working to create a new generation of supersonic planes that are quieter, greener, more efficient, and cost effective to operate than Concorde, which retied in 2003.
The Aurora is an un-manned experimental aircraft with a 4 m wingspan.
In the skies over New Zealand's Glentanner Aerodrome theAurora hit top speed while climbing to an altitude of 25,150 m.
According to the company, broke other records by being the first New Zealand-designed and built supersonic aircraft, the highest altitude reached from New Zealand, and the fastest climb to 20 km.
OPS: The Aurora on board camera captures its supersonic, 25,150m altitutde flight on November 12.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_177797647_FER
Supersonic rocket-powered drone
Ferrari Press Agency
Aurora 1
Ref 16322
19/11/2024
See Ferrari pictures
Picture MUST credit: Dawn Aerospace
An autonomous rocket-powered aircraft has flown at supersonic speed — the first privately-developed plane to do so since the end of the Anglo-French Concorde.
The Aurora, by New Zealand company Dawn Aerospace, broke the sound barrier with a speed of Mach 1.1 / 1,358 km/h on November 12, 2024.
This is over twice as high as commercial aircraft and marks the first time a civil aircraft has flown supersonic since Concorde.
A spokesperson for the maker said: “This achievement signifies a major step toward operational hypersonic travel and daily space access, establishing rocket-powered aircraft as a new class of ultra-high-performance vehicles.”
Dawn is one of a number of startups working to create a new generation of supersonic planes that are quieter, greener, more efficient, and cost effective to operate than Concorde, which retied in 2003.
The Aurora is an un-manned experimental aircraft with a 4 m wingspan.
In the skies over New Zealand's Glentanner Aerodrome theAurora hit top speed while climbing to an altitude of 25,150 m.
According to the company, broke other records by being the first New Zealand-designed and built supersonic aircraft, the highest altitude reached from New Zealand, and the fastest climb to 20 km.
OPS: The Aurora on board camera captures its supersonic, 25,150m altitutde flight on November 12.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_177797643_FER
Supersonic rocket-powered drone
Ferrari Press Agency
Aurora 1
Ref 16322
19/11/2024
See Ferrari pictures
Picture MUST credit: Dawn Aerospace
An autonomous rocket-powered aircraft has flown at supersonic speed — the first privately-developed plane to do so since the end of the Anglo-French Concorde.
The Aurora, by New Zealand company Dawn Aerospace, broke the sound barrier with a speed of Mach 1.1 / 1,358 km/h on November 12, 2024.
This is over twice as high as commercial aircraft and marks the first time a civil aircraft has flown supersonic since Concorde.
A spokesperson for the maker said: “This achievement signifies a major step toward operational hypersonic travel and daily space access, establishing rocket-powered aircraft as a new class of ultra-high-performance vehicles.”
Dawn is one of a number of startups working to create a new generation of supersonic planes that are quieter, greener, more efficient, and cost effective to operate than Concorde, which retied in 2003.
The Aurora is an un-manned experimental aircraft with a 4 m wingspan.
In the skies over New Zealand's Glentanner Aerodrome theAurora hit top speed while climbing to an altitude of 25,150 m.
According to the company, broke other records by being the first New Zealand-designed and built supersonic aircraft, the highest altitude reached from New Zealand, and the fastest climb to 20 km.
OPS: The moment the Aurora hits Mach 1.1 on itsNovember 12 flight
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179551856_EYE
Rose Matafeo: 'When you walk into a pub quiz and see a table of old geezers, you're screwed'
The Kiwi comedian Rose Matafeo on Junior Taskmaster, her love of games, and her bizarre childhood Christmases featuring... the lollyman.
Rose Matafeo is a New Zealand comedian, actress and TV presenter.
Perou / 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)
perou inc. -
DUKAS_179551857_EYE
Rose Matafeo: 'When you walk into a pub quiz and see a table of old geezers, you're screwed'
The Kiwi comedian Rose Matafeo on Junior Taskmaster, her love of games, and her bizarre childhood Christmases featuring... the lollyman.
Rose Matafeo is a New Zealand comedian, actress and TV presenter.
Perou / 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)
perou inc. -
