-
Seabed Sediment Core Extraction Animation
This movie demonstrates how a sample of seabed sediment core can be extracted by lowering from a ship a vibrocorer to the seabed. This particular animation demonstrates GeoCorer 6000 being lowered from Ireland's Marine Institute vessel, the Celtic Explorer. This animation was funded by Titanic Belfast's Ocean Exploration Centre, and forms part of their seabed simulation display, open to the public
published: 08 Jun 2015
-
Seabed Excavator
The Seabed Excavator is the only excavator in the world with a track record which includes one week of continuous operation at 3200 meters depth.
The Seabed Excavator is own and operated by the subsea entrepreneuring company, Seabed Solutions in Norway.
published: 29 Oct 2021
-
Seabed mapping
Our oceans cover 71% of the planet, yet only 20% of the global seafloor is mapped.
published: 20 Jul 2020
-
Work under water and detection in seabed
Project within Test-Arena Blekinge with focus on work under water and detection in seabed. The project resulted in new research methods for the development of magnetometers for improved detection at the sea bottom and new methods as input to the standard for underwater work.
Project partners: Blue Science Park, Blekinge Institute of Technology, NKT Cable, Swedish Coast Guard, SAAB Kockums
published: 29 Jun 2020
-
Untangled: Deep seabed mining
The deep sea: it’s home to fascinating creatures and stores carbon to help keep our #climate in balance. But some companies see only 💰💰💰. We have to #DefendTheDeep from seabed mining. #DeepSeaMining #ThinkDeeply
published: 03 Aug 2022
-
Seabed Mining in the Deep Sea
(Visit: http://www.uctv.tv/)
0:16 - Main Presentation - Lisa Levin
28:24 - Audience Discussion
Given the growing demand for deep sea metals created by electronic and green technologies, scientists are faced with decisions about whether to engage in baseline and impacts research that enables development of a new extraction industry, and whether to contribute expertise to the development of environmental protections and guidelines. Lisa A. Levin, distinguished professor of biological oceanography at the Scripps Institution of Oceanography, University of California, San Diego, addresses the ethical and societal challenges of exploitation in a relatively unknown realm. Series: "Exploring Ethics" [6/2018] [Show ID: 32160]
published: 30 May 2018
-
Seabed Mining Presentation
This video is a recording of a virtual presentation session the Master of Environmental Studies Program hosted on 2/19/2021 on seabed mining. Seabed mining involves the extraction of valuable minerals from the seafloor through harmful disruption of the environment. Driven by an increasing demand for mineral resources and advances in extractive technology, companies around the globe are looking at the ocean as the “next frontier” to harvest these resources. Unfortunately, the health and productivity of marine ecosystems, as well as the human communities that depend on them, hangs in the balance. Liz Schotman, Surfrider Foundation's Washington Regional Manager, and Lee First with Twin Harbors Waterkeeper, present in this video on seabed mining and our emerging efforts to protect Washington's...
published: 26 Feb 2021
-
Deep seabed mining – a new threat to ocean health
We must say no to deep seabed mining, or we are in deep trouble.
Please support WWF in calling for a moratorium on deep seabed mining.
published: 24 Aug 2020
-
Seabed Mining: A Precautionary Approach
Deep-sea mining is the process of retrieving mineral deposits from the deep sea – the area of the ocean below 200m which covers about 65% of the Earth’s surface. There is growing interest in these mineral deposits, largely due to depleting terrestrial deposits for metals such as copper, nickel, aluminium, manganese, zinc, lithium and cobalt, coupled with rising demand for these metals to produce high-tech applications such as smartphones and green technologies such as wind turbines, solar panels and electric storage batteries. There are a number of conservation strategies that can be applied to implement the precautionary approach. These include the need to recognize natural resource conservation units using baseline studies; the need to establish a set of design recommendations for conse...
published: 19 Jun 2019
-
What are the consequences of mineral extraction from the seabed?
It is no secret that the mass production of cars, telephones, computers and other household goods has led to the accelerated depletion of the earth's resources. Extraction of the remaining minerals is becoming less efficient and requires more and more energy. Some scientists see the solution in the extraction of resources in space, but it would be more rational to search for them in the oceans. Indeed, according to the data, it is under water that huge reserves are concentrated, which will last for several hundred more years. But what could the new type of mineral extraction turn out to be: a disaster or a solution to the problem of scarcity of resources all around the world?
#inventions #technology #sea
Don’t miss next videos: Press the little bell ((🔔)) to get notifications
Producti...
published: 08 Dec 2021
1:47
Seabed Sediment Core Extraction Animation
This movie demonstrates how a sample of seabed sediment core can be extracted by lowering from a ship a vibrocorer to the seabed. This particular animation dem...
This movie demonstrates how a sample of seabed sediment core can be extracted by lowering from a ship a vibrocorer to the seabed. This particular animation demonstrates GeoCorer 6000 being lowered from Ireland's Marine Institute vessel, the Celtic Explorer. This animation was funded by Titanic Belfast's Ocean Exploration Centre, and forms part of their seabed simulation display, open to the public
https://wn.com/Seabed_Sediment_Core_Extraction_Animation
This movie demonstrates how a sample of seabed sediment core can be extracted by lowering from a ship a vibrocorer to the seabed. This particular animation demonstrates GeoCorer 6000 being lowered from Ireland's Marine Institute vessel, the Celtic Explorer. This animation was funded by Titanic Belfast's Ocean Exploration Centre, and forms part of their seabed simulation display, open to the public
- published: 08 Jun 2015
- views: 20457
1:45
Seabed Excavator
The Seabed Excavator is the only excavator in the world with a track record which includes one week of continuous operation at 3200 meters depth.
The Seabed Ex...
The Seabed Excavator is the only excavator in the world with a track record which includes one week of continuous operation at 3200 meters depth.
The Seabed Excavator is own and operated by the subsea entrepreneuring company, Seabed Solutions in Norway.
https://wn.com/Seabed_Excavator
The Seabed Excavator is the only excavator in the world with a track record which includes one week of continuous operation at 3200 meters depth.
The Seabed Excavator is own and operated by the subsea entrepreneuring company, Seabed Solutions in Norway.
- published: 29 Oct 2021
- views: 287
1:08
Seabed mapping
Our oceans cover 71% of the planet, yet only 20% of the global seafloor is mapped.
Our oceans cover 71% of the planet, yet only 20% of the global seafloor is mapped.
https://wn.com/Seabed_Mapping
Our oceans cover 71% of the planet, yet only 20% of the global seafloor is mapped.
- published: 20 Jul 2020
- views: 577
3:53
Work under water and detection in seabed
Project within Test-Arena Blekinge with focus on work under water and detection in seabed. The project resulted in new research methods for the development of m...
Project within Test-Arena Blekinge with focus on work under water and detection in seabed. The project resulted in new research methods for the development of magnetometers for improved detection at the sea bottom and new methods as input to the standard for underwater work.
Project partners: Blue Science Park, Blekinge Institute of Technology, NKT Cable, Swedish Coast Guard, SAAB Kockums
https://wn.com/Work_Under_Water_And_Detection_In_Seabed
Project within Test-Arena Blekinge with focus on work under water and detection in seabed. The project resulted in new research methods for the development of magnetometers for improved detection at the sea bottom and new methods as input to the standard for underwater work.
Project partners: Blue Science Park, Blekinge Institute of Technology, NKT Cable, Swedish Coast Guard, SAAB Kockums
- published: 29 Jun 2020
- views: 164
3:16
Untangled: Deep seabed mining
The deep sea: it’s home to fascinating creatures and stores carbon to help keep our #climate in balance. But some companies see only 💰💰💰. We have to #DefendTheD...
The deep sea: it’s home to fascinating creatures and stores carbon to help keep our #climate in balance. But some companies see only 💰💰💰. We have to #DefendTheDeep from seabed mining. #DeepSeaMining #ThinkDeeply
https://wn.com/Untangled_Deep_Seabed_Mining
The deep sea: it’s home to fascinating creatures and stores carbon to help keep our #climate in balance. But some companies see only 💰💰💰. We have to #DefendTheDeep from seabed mining. #DeepSeaMining #ThinkDeeply
- published: 03 Aug 2022
- views: 9704
57:45
Seabed Mining in the Deep Sea
(Visit: http://www.uctv.tv/)
0:16 - Main Presentation - Lisa Levin
28:24 - Audience Discussion
Given the growing demand for deep sea metals created by electro...
(Visit: http://www.uctv.tv/)
0:16 - Main Presentation - Lisa Levin
28:24 - Audience Discussion
Given the growing demand for deep sea metals created by electronic and green technologies, scientists are faced with decisions about whether to engage in baseline and impacts research that enables development of a new extraction industry, and whether to contribute expertise to the development of environmental protections and guidelines. Lisa A. Levin, distinguished professor of biological oceanography at the Scripps Institution of Oceanography, University of California, San Diego, addresses the ethical and societal challenges of exploitation in a relatively unknown realm. Series: "Exploring Ethics" [6/2018] [Show ID: 32160]
https://wn.com/Seabed_Mining_In_The_Deep_Sea
(Visit: http://www.uctv.tv/)
0:16 - Main Presentation - Lisa Levin
28:24 - Audience Discussion
Given the growing demand for deep sea metals created by electronic and green technologies, scientists are faced with decisions about whether to engage in baseline and impacts research that enables development of a new extraction industry, and whether to contribute expertise to the development of environmental protections and guidelines. Lisa A. Levin, distinguished professor of biological oceanography at the Scripps Institution of Oceanography, University of California, San Diego, addresses the ethical and societal challenges of exploitation in a relatively unknown realm. Series: "Exploring Ethics" [6/2018] [Show ID: 32160]
- published: 30 May 2018
- views: 8120
30:43
Seabed Mining Presentation
This video is a recording of a virtual presentation session the Master of Environmental Studies Program hosted on 2/19/2021 on seabed mining. Seabed mining invo...
This video is a recording of a virtual presentation session the Master of Environmental Studies Program hosted on 2/19/2021 on seabed mining. Seabed mining involves the extraction of valuable minerals from the seafloor through harmful disruption of the environment. Driven by an increasing demand for mineral resources and advances in extractive technology, companies around the globe are looking at the ocean as the “next frontier” to harvest these resources. Unfortunately, the health and productivity of marine ecosystems, as well as the human communities that depend on them, hangs in the balance. Liz Schotman, Surfrider Foundation's Washington Regional Manager, and Lee First with Twin Harbors Waterkeeper, present in this video on seabed mining and our emerging efforts to protect Washington's coast from this extractive industry. (Thumbnail image provided by Pew Charitable Trusts)
https://wn.com/Seabed_Mining_Presentation
This video is a recording of a virtual presentation session the Master of Environmental Studies Program hosted on 2/19/2021 on seabed mining. Seabed mining involves the extraction of valuable minerals from the seafloor through harmful disruption of the environment. Driven by an increasing demand for mineral resources and advances in extractive technology, companies around the globe are looking at the ocean as the “next frontier” to harvest these resources. Unfortunately, the health and productivity of marine ecosystems, as well as the human communities that depend on them, hangs in the balance. Liz Schotman, Surfrider Foundation's Washington Regional Manager, and Lee First with Twin Harbors Waterkeeper, present in this video on seabed mining and our emerging efforts to protect Washington's coast from this extractive industry. (Thumbnail image provided by Pew Charitable Trusts)
- published: 26 Feb 2021
- views: 131
1:00
Deep seabed mining – a new threat to ocean health
We must say no to deep seabed mining, or we are in deep trouble.
Please support WWF in calling for a moratorium on deep seabed mining.
We must say no to deep seabed mining, or we are in deep trouble.
Please support WWF in calling for a moratorium on deep seabed mining.
https://wn.com/Deep_Seabed_Mining_–_A_New_Threat_To_Ocean_Health
We must say no to deep seabed mining, or we are in deep trouble.
Please support WWF in calling for a moratorium on deep seabed mining.
- published: 24 Aug 2020
- views: 5559
2:09
Seabed Mining: A Precautionary Approach
Deep-sea mining is the process of retrieving mineral deposits from the deep sea – the area of the ocean below 200m which covers about 65% of the Earth’s surface...
Deep-sea mining is the process of retrieving mineral deposits from the deep sea – the area of the ocean below 200m which covers about 65% of the Earth’s surface. There is growing interest in these mineral deposits, largely due to depleting terrestrial deposits for metals such as copper, nickel, aluminium, manganese, zinc, lithium and cobalt, coupled with rising demand for these metals to produce high-tech applications such as smartphones and green technologies such as wind turbines, solar panels and electric storage batteries. There are a number of conservation strategies that can be applied to implement the precautionary approach. These include the need to recognize natural resource conservation units using baseline studies; the need to establish a set of design recommendations for conservation areas at a regional scale as well as within the contractor’s license area (e.g., through preservation reference areas); and the need to develop and test methods for mitigation and restoration. All strategies call for effective remote observation and long-term monitoring capacity. www.iucn.org/deepseamining/
https://wn.com/Seabed_Mining_A_Precautionary_Approach
Deep-sea mining is the process of retrieving mineral deposits from the deep sea – the area of the ocean below 200m which covers about 65% of the Earth’s surface. There is growing interest in these mineral deposits, largely due to depleting terrestrial deposits for metals such as copper, nickel, aluminium, manganese, zinc, lithium and cobalt, coupled with rising demand for these metals to produce high-tech applications such as smartphones and green technologies such as wind turbines, solar panels and electric storage batteries. There are a number of conservation strategies that can be applied to implement the precautionary approach. These include the need to recognize natural resource conservation units using baseline studies; the need to establish a set of design recommendations for conservation areas at a regional scale as well as within the contractor’s license area (e.g., through preservation reference areas); and the need to develop and test methods for mitigation and restoration. All strategies call for effective remote observation and long-term monitoring capacity. www.iucn.org/deepseamining/
- published: 19 Jun 2019
- views: 2762
9:04
What are the consequences of mineral extraction from the seabed?
It is no secret that the mass production of cars, telephones, computers and other household goods has led to the accelerated depletion of the earth's resources....
It is no secret that the mass production of cars, telephones, computers and other household goods has led to the accelerated depletion of the earth's resources. Extraction of the remaining minerals is becoming less efficient and requires more and more energy. Some scientists see the solution in the extraction of resources in space, but it would be more rational to search for them in the oceans. Indeed, according to the data, it is under water that huge reserves are concentrated, which will last for several hundred more years. But what could the new type of mineral extraction turn out to be: a disaster or a solution to the problem of scarcity of resources all around the world?
#inventions #technology #sea
Don’t miss next videos: Press the little bell ((🔔)) to get notifications
Production Music courtesy of Epidemic Sound https://www.epidemicsound.com/
https://wn.com/What_Are_The_Consequences_Of_Mineral_Extraction_From_The_Seabed
It is no secret that the mass production of cars, telephones, computers and other household goods has led to the accelerated depletion of the earth's resources. Extraction of the remaining minerals is becoming less efficient and requires more and more energy. Some scientists see the solution in the extraction of resources in space, but it would be more rational to search for them in the oceans. Indeed, according to the data, it is under water that huge reserves are concentrated, which will last for several hundred more years. But what could the new type of mineral extraction turn out to be: a disaster or a solution to the problem of scarcity of resources all around the world?
#inventions #technology #sea
Don’t miss next videos: Press the little bell ((🔔)) to get notifications
Production Music courtesy of Epidemic Sound https://www.epidemicsound.com/
- published: 08 Dec 2021
- views: 5189