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Kingston, JM
Friday, July 19, 2019
Deep Sea Mining
Can India mine deep-sea resources without disturbing the Indian Ocean seabed ecosystem?

Can India mine deep-sea resources without disturbing the Indian Ocean seabed ecosystem?

JENCY SAMUEL on MONGABAY | 9 February 2018 Mining of polymetallic nodules present in the seabed in the Central Indian Ocean Basin can help...
deep ocean

Unless we regain our historic awe of the deep ocean, it will be plundered

Laurence Publicover, University of Bristol and Katharine Hendry, University of Bristol In the memorable second instalment of Blue Planet II, we are offered glimpses of...

26 years after experimental mining, a seabed ecosystem has yet to recover

In 1989, the largest attempt to model the impacts of a deep-sea mining operation was conducted across 1100 hectares of seafloor in...
A nodule harvester. Image courtesy DeepGreen.

What’s next for deep-sea mining in 2019?

1. Outcomes from the LTC. In the next few weeks, the Legal and Technical Committee will release their draft regulations for mining...
ocean news

Mongabay: 2017’s top 10 ocean news stories

Commentary by DOUGLAS MCCAULEY and PAUL DESALLES on MONGABAY | 27 December 2017 1. U.S. drops out of Paris In Mongabay's 2015 ocean top 10 list,...

Mapping the online conversation around Deep-sea Mining.

Social media offers a snapshot of the human networks surrounding a particular issue. It makes public the conversations and relationships that once...
Fig 3. Examples of metazoan megafauna photographed at the APEI6 seafloor during AUV survey. Scale bars representing 50 mm. (a) Actiniaria msp-6. (b) Actiniaria msp-13. (c) Bathygorgia cf. profunda. (d) Abyssopathes cf. lyra. (e) Left: Chonelasma sp.; right: Hyalonema sp. (f) Cladorhiza cf. kensmithi. (g) Bathystylodactylus cf. echinus. (h) Nematocarcinus sp. (i) Sabellida msp-1 (polychaete). (j) Left: Freyastera sp.; right: Caulophacus sp. (k) Psychropotes cf. longicauda. (l) Benthodytes cf. typica. (m) Coryphaenoides sp. (n) Typhlonus nasus. o and p: probable new Mastigoteuthis sp. Same specimen photographed with different cameras: (o) vertical view; (p) oblique view (Image taken ∼1″ prior to the vertical shot).

A year of discovery in the deep sea

2018 was a banner year for studies highlighting the importance of hydrothermal vents not just to the highly specialized communities that thrive...
Bed of Ifremeria nautilei. Photo: CRF/Ridge2000

A glossary of Neptunes and Nautili in Deep-sea Mining

If you were to ask a new stakeholder to name the most frustrating aspect of trying to understand the current state of deep-sea mining,...
Deep Sea Mining DSM Summit

New Book on Deep Sea Mining

A new book from Springer offers one of the most comprehensive looks at deep sea mining to date.  Edited by Dr. Rahul Sharma of...
Plastic ice bag found by a NOAA expedition to the Marianas in 2016. Image: NOAA Office of Ocean Exploration and Research

Microplastics in The Deep Ocean

Rachel Pendergrass | 15 November 2018 Giant gyers of floating plastic have long been at the forefront of the public conversation around ocean pollution, but...

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Latest articles

From the Editor: US Mineral Policy and an atomic legacy.

Last year, for a completely unrelated project, I conducted a census of how many nuclear weapons had been lost at sea. Since...

Imagining Worst Case Scenarios: The legacy of nuclear weapons lost at sea.

What would you do if you found a nuclear weapon while preparing for, carrying out, or after conducting mining operations at sea? Would you...

26 years after experimental mining, a seabed ecosystem has yet to recover

In 1989, the largest attempt to model the impacts of a deep-sea mining operation was conducted across 1100 hectares of seafloor in...