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Content provided by Andrew Lewin - Marine Biologist and Ocean Conservationist and Andrew Lewin. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Andrew Lewin - Marine Biologist and Ocean Conservationist and Andrew Lewin or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
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The Dark Oxygen Discovery: A Game Changer for Deep Sea Mining?
Manage episode 431562956 series 167482
Content provided by Andrew Lewin - Marine Biologist and Ocean Conservationist and Andrew Lewin. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Andrew Lewin - Marine Biologist and Ocean Conservationist and Andrew Lewin or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
Andrew Lewin dives into the controversial topic of deep-sea mining and its implications for the environment. He questions whether mining the deep sea for metals to create electric vehicle batteries truly benefits the planet or if there are better alternatives. The discussion raises concerns about the potential impact on the ocean and the need to explore alternative solutions for a sustainable future.
Link to article: https://www.sciencealert.com/mysterious-dark-oxygen-discovered-at-bottom-of-ocean-stuns-scientists
Follow a career in conservation: https://www.conservation-careers.com/online-training/ Use the code SUFB to get 33% off courses and the careers program. Do you want to join my Ocean Community? Sign Up for Updates on the process: www.speakupforblue.com/oceanapp Sign up for our Newsletter: http://www.speakupforblue.com/newsletter Facebook Group: https://bit.ly/3NmYvsIConnect with Speak Up For Blue: Website: https://bit.ly/3fOF3Wf Instagram: https://bit.ly/3rIaJSG TikTok: https://www.tiktok.com/@speakupforblue Twitter: https://bit.ly/3rHZxpc YouTube: www.speakupforblue.com/youtube
Deep sea nodules, highly sought after for mining due to their valuable metal content, have recently been discovered to play a crucial role in oxygen production in the deep sea. Composed of cobalt, manganese, and nickel, these nodules form a polymetallic matrix that can generate a significant voltage when clustered together. This voltage is essential for splitting oxygen from water, a process that typically requires light for photosynthesis to occur. However, in the dark depths of the deep sea where light does not penetrate, these nodules serve as natural geobatteries, generating the necessary voltage to produce oxygen.
The discovery of oxygen production by deep sea nodules challenges the conventional wisdom surrounding deep sea mining. While deep sea mining has been promoted as a means to extract valuable metals for various industries, the potential impact on oxygen production in the deep sea raises significant concerns. The presence of these nodules not only supports diverse ecosystems but also contributes to the geochemical processes that sustain life in the deep sea.
The revelation that deep sea nodules are involved in oxygen production underscores the complexity of deep sea ecosystems and the interconnectedness of marine life. The implications of deep sea mining on oxygen production and ecosystem health must be carefully considered in light of this new information. The balance between economic interests and environmental conservation becomes even more delicate when the fundamental role of these nodules in oxygen production is taken into account.
This discovery prompts a reevaluation of the necessity and sustainability of deep sea mining practices. It raises questions about the long-term consequences of extracting nodules from their natural habitat and the potential disruption to oxygen production and deep sea ecosystems. As we continue to explore and understand the deep sea, it is essential to prioritize the protection of these vital ecosystems and consider alternative approaches to resource extraction that minimize harm to the environment.
The discovery of "dark oxygen" in the deep sea, as discussed in the podcast episode, has significant implications for the ongoing debate surrounding deep-sea mining. The revelation that certain nodules sought after for mining are actually contributing to oxygen production in the deep sea challenges the perceived necessity of deep-sea mining for metals like cobalt, manganese, and nickel.
The presence of these nodules, which create a polymetallic matrix capable of producing oxygen, raises questions about the trade-off between resource extraction and environmental conservation. Deep sea mining companies have invested substantial resources in developing technologies to extract these nodules efficiently. However, the newfound understanding of the role of these nodules in oxygen production highlights the potential consequences of disrupting deep-sea habitats for mining purposes.
The episode emphasizes the importance of considering the impact of deep-sea mining on biodiversity and ecosystem functioning. Areas rich in these nodules exhibit higher biodiversity levels compared to mined regions, indicating the potential ecological harm caused by mining activities. The interconnected nature of deep-sea ecosystems underscores the need to evaluate the long-term effects of deep-sea mining on species dispersal and habitat connectivity.
Furthermore, the discovery of "dark oxygen" challenges the traditional understanding of oxygen production in the absence of sunlight. This raises questions about the origins of aerobic life and the evolution of complex organisms in oxygen-deprived environments. The implications of disrupting the natural processes that contribute to oxygen production in the deep sea underscore the need for a more comprehensive assessment of the environmental costs and benefits of deep-sea mining.
In conclusion, the revelation of "dark oxygen" in the deep sea prompts a reevaluation of the necessity and consequences of deep-sea mining. It calls for a balanced approach that considers both the economic benefits of resource extraction and the preservation of deep-sea habitats and biodiversity. The ongoing debate surrounding deep-sea mining must now incorporate the newfound knowledge of oxygen production in the deep sea to make informed decisions about the future of deep-sea exploration and conservation.
The discovery of oxygen-producing nodules in the deep sea sheds light on the intricate interconnectedness of ocean ecosystems and the potential consequences of deep sea mining on marine life dispersal and population dynamics. The presence of these nodules, sought after for mining due to their metal content, plays a crucial role in providing oxygen in the dark depths of the ocean where photosynthesis is not possible.
The episode discusses how these nodules, composed of cobalt, manganese, and nickel, create a polymetallic matrix that can produce enough voltage to split oxygen from water without the need for sunlight. This process not only sustains oxygen levels in the deep sea but also supports a more biodiverse community of animals in areas where these nodules are present. The higher diversity of fauna in nodular-rich regions compared to unmined areas underscores the importance of these nodules in maintaining healthy deep-sea ecosystems.
Furthermore, the episode raises questions about the potential impacts of deep-sea mining on marine life dispersal and population dynamics. It highlights the interconnected nature of ocean ecosystems, where organisms rely on various mechanisms, such as larval dispersal, to populate different areas of the deep sea. The removal of nodules through mining could disrupt these natural processes, leading to changes in population dynamics and potentially affecting the overall health and resilience of deep-sea ecosystems.
Overall, the presence of oxygen-producing nodules in the deep sea serves as a reminder of the delicate balance within marine ecosystems and the need for careful consideration of the impacts of human activities, such as deep-sea mining, on these interconnected systems. The episode prompts a critical examination of the trade-offs between resource extraction and ecosystem conservation in the deep sea, emphasizing the importance of sustainable practices to protect the biodiversity and functioning of these unique and fragile environments.
1669 episodes
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Manage episode 431562956 series 167482
Content provided by Andrew Lewin - Marine Biologist and Ocean Conservationist and Andrew Lewin. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Andrew Lewin - Marine Biologist and Ocean Conservationist and Andrew Lewin or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
Andrew Lewin dives into the controversial topic of deep-sea mining and its implications for the environment. He questions whether mining the deep sea for metals to create electric vehicle batteries truly benefits the planet or if there are better alternatives. The discussion raises concerns about the potential impact on the ocean and the need to explore alternative solutions for a sustainable future.
Link to article: https://www.sciencealert.com/mysterious-dark-oxygen-discovered-at-bottom-of-ocean-stuns-scientists
Follow a career in conservation: https://www.conservation-careers.com/online-training/ Use the code SUFB to get 33% off courses and the careers program. Do you want to join my Ocean Community? Sign Up for Updates on the process: www.speakupforblue.com/oceanapp Sign up for our Newsletter: http://www.speakupforblue.com/newsletter Facebook Group: https://bit.ly/3NmYvsIConnect with Speak Up For Blue: Website: https://bit.ly/3fOF3Wf Instagram: https://bit.ly/3rIaJSG TikTok: https://www.tiktok.com/@speakupforblue Twitter: https://bit.ly/3rHZxpc YouTube: www.speakupforblue.com/youtube
Deep sea nodules, highly sought after for mining due to their valuable metal content, have recently been discovered to play a crucial role in oxygen production in the deep sea. Composed of cobalt, manganese, and nickel, these nodules form a polymetallic matrix that can generate a significant voltage when clustered together. This voltage is essential for splitting oxygen from water, a process that typically requires light for photosynthesis to occur. However, in the dark depths of the deep sea where light does not penetrate, these nodules serve as natural geobatteries, generating the necessary voltage to produce oxygen.
The discovery of oxygen production by deep sea nodules challenges the conventional wisdom surrounding deep sea mining. While deep sea mining has been promoted as a means to extract valuable metals for various industries, the potential impact on oxygen production in the deep sea raises significant concerns. The presence of these nodules not only supports diverse ecosystems but also contributes to the geochemical processes that sustain life in the deep sea.
The revelation that deep sea nodules are involved in oxygen production underscores the complexity of deep sea ecosystems and the interconnectedness of marine life. The implications of deep sea mining on oxygen production and ecosystem health must be carefully considered in light of this new information. The balance between economic interests and environmental conservation becomes even more delicate when the fundamental role of these nodules in oxygen production is taken into account.
This discovery prompts a reevaluation of the necessity and sustainability of deep sea mining practices. It raises questions about the long-term consequences of extracting nodules from their natural habitat and the potential disruption to oxygen production and deep sea ecosystems. As we continue to explore and understand the deep sea, it is essential to prioritize the protection of these vital ecosystems and consider alternative approaches to resource extraction that minimize harm to the environment.
The discovery of "dark oxygen" in the deep sea, as discussed in the podcast episode, has significant implications for the ongoing debate surrounding deep-sea mining. The revelation that certain nodules sought after for mining are actually contributing to oxygen production in the deep sea challenges the perceived necessity of deep-sea mining for metals like cobalt, manganese, and nickel.
The presence of these nodules, which create a polymetallic matrix capable of producing oxygen, raises questions about the trade-off between resource extraction and environmental conservation. Deep sea mining companies have invested substantial resources in developing technologies to extract these nodules efficiently. However, the newfound understanding of the role of these nodules in oxygen production highlights the potential consequences of disrupting deep-sea habitats for mining purposes.
The episode emphasizes the importance of considering the impact of deep-sea mining on biodiversity and ecosystem functioning. Areas rich in these nodules exhibit higher biodiversity levels compared to mined regions, indicating the potential ecological harm caused by mining activities. The interconnected nature of deep-sea ecosystems underscores the need to evaluate the long-term effects of deep-sea mining on species dispersal and habitat connectivity.
Furthermore, the discovery of "dark oxygen" challenges the traditional understanding of oxygen production in the absence of sunlight. This raises questions about the origins of aerobic life and the evolution of complex organisms in oxygen-deprived environments. The implications of disrupting the natural processes that contribute to oxygen production in the deep sea underscore the need for a more comprehensive assessment of the environmental costs and benefits of deep-sea mining.
In conclusion, the revelation of "dark oxygen" in the deep sea prompts a reevaluation of the necessity and consequences of deep-sea mining. It calls for a balanced approach that considers both the economic benefits of resource extraction and the preservation of deep-sea habitats and biodiversity. The ongoing debate surrounding deep-sea mining must now incorporate the newfound knowledge of oxygen production in the deep sea to make informed decisions about the future of deep-sea exploration and conservation.
The discovery of oxygen-producing nodules in the deep sea sheds light on the intricate interconnectedness of ocean ecosystems and the potential consequences of deep sea mining on marine life dispersal and population dynamics. The presence of these nodules, sought after for mining due to their metal content, plays a crucial role in providing oxygen in the dark depths of the ocean where photosynthesis is not possible.
The episode discusses how these nodules, composed of cobalt, manganese, and nickel, create a polymetallic matrix that can produce enough voltage to split oxygen from water without the need for sunlight. This process not only sustains oxygen levels in the deep sea but also supports a more biodiverse community of animals in areas where these nodules are present. The higher diversity of fauna in nodular-rich regions compared to unmined areas underscores the importance of these nodules in maintaining healthy deep-sea ecosystems.
Furthermore, the episode raises questions about the potential impacts of deep-sea mining on marine life dispersal and population dynamics. It highlights the interconnected nature of ocean ecosystems, where organisms rely on various mechanisms, such as larval dispersal, to populate different areas of the deep sea. The removal of nodules through mining could disrupt these natural processes, leading to changes in population dynamics and potentially affecting the overall health and resilience of deep-sea ecosystems.
Overall, the presence of oxygen-producing nodules in the deep sea serves as a reminder of the delicate balance within marine ecosystems and the need for careful consideration of the impacts of human activities, such as deep-sea mining, on these interconnected systems. The episode prompts a critical examination of the trade-offs between resource extraction and ecosystem conservation in the deep sea, emphasizing the importance of sustainable practices to protect the biodiversity and functioning of these unique and fragile environments.
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Similar to How To Protect The Ocean
How can we, humans, look at our relationship to nature differently? In season three of Going Wild, on top of stories about animals, we invite you to journey through the entire ecological web — from the tiniest of life forms to apex predators — alongside the scientists, activists and adventurers who study it. Wildlife biologist and host Dr. Rae Wynn-Grant has been studying wild animals in their natural habitats all over the world for years. Our award-winning podcast takes you inside the hidde ...
…
continue reading
How many organs could you donate and remain alive? How many planet Earths could fit inside the Sun? How high is a giraffe's blood pressure? Why is the sea blue? To find out, Ask The Naked Scientists!
…
continue reading
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…
continue reading
I discuss a variety of topics in both the natural and social sciences, exploring the many fascinating insights that the scientific method yields about the world around us.
…
continue reading
Artificial Intelligence has suddenly gone from the fringes of science to being everywhere. So how did we get here? And where's this all heading? In this new series of Science Friction, we're finding out.
…
continue reading
This Week in Microbiology is a podcast about unseen life on Earth hosted by Vincent Racaniello and friends. Following in the path of his successful shows 'This Week in Virology' (TWiV) and 'This Week in Parasitism' (TWiP), Racaniello and guests produce an informal yet informative conversation about microbes which is accessible to everyone, no matter what their science background.
…
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Unseeable forces control human behavior and shape our ideas, beliefs, and assumptions. Invisibilia—Latin for invisible things—fuses narrative storytelling with science that will make you see your own life differently.
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…
continue reading
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continue reading
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