'Significant declines' in some species after deep-sea mining: research
The Metals Company -- a leading deep-sea mining firm -- paid Australia's government science agency to pore through data collected during test mining in the remote Pacific Ocean.
Huge tracts of Pacific Ocean seabed are carpeted in polymetallic nodules, bulbous lumps of rock that are rich in metals used in battery production -- such as cobalt and nickel.
The Metals Company is pushing to be the first to mine these nodules in international waters, striving to exploit a remote expanse known as the Clarion-Clipperton Zone.
Australia's government science agency released a series of technical reports on Thursday detailing how mining could be managed.
Bottom-dwellers such as sea cucumbers, marine worms, starfish and crustaceans could see "significant declines in abundance immediately following mining", research found.
Some of these species would partially bounce back within a year, but filter feeders and other tiny organisms that feast on seabed sediments showed "minimal recovery".
"On the seafloor, our research shows that there are substantial local impacts from different mining operations," scientist Piers Dunstan said during a briefing.
Deep-sea mining companies are still figuring out the best way to retrieve nodules that can lie five kilometres (three miles) or more beneath the waves.
Most efforts focus on robotic harvesting machines, or crawlers, which hoover up nodules as they rove the ocean floor.
The Australian scientists looked at how sharks and fish might be harmed by plumes of sediment discharged as mining waste.
In some scenarios, apex predators could see toxic metals start to build up in their blood after prolonged exposure to these plumes.
"Long-lived top predators, such as swordfish and large sharks, accumulated the highest simulated metal concentrations," scientists noted in one report.
Simulations showed blood metal concentrations would not exceed international health guidelines, and impacts were less pronounced if sediment was discharged at a greater depth.
"This project helps ensure that if deep-sea mining were to go ahead, there is a clear approach to understand potential risks and impacts to marine life and ecosystems," Dunstan said.
Canada-based The Metals Company is striving to start industrial deep-sea mining in the Clarion-Clipperton Zone within the next two years.
The International Seabed Authority -- which oversees deep-sea mining in international waters -- has yet to adopt long-awaited rules governing the industry.
The Metals Company has indicated it could forge ahead even without the authority's approval, pointing to an obscure US law that says American citizens can recover seabed minerals in areas beyond the nation's jurisdiction.
The firm paid Australia's Commonwealth Scientific and Industrial Research Organisation -- or CSIRO -- around US$1 million to compile the reports.
CSIRO stressed it was not for, or against, deep-sea mining -- but that its work would help to measure and monitor impacts should it go ahead. Energy transition expert Tina Soliman-Hunter said it was one of the "most comprehensive" pieces of research on deep-sea mining to date. "Without such research, there is a risk of harm from mining activities that can persist for generations," said Soliman-Hunter, from Australia's Macquarie University. Found in international waters between Mexico and Hawaii, the Clarion-Clipperton Zone is a vast abyssal plain spanning some 4 million square kilometres (1.7 million square miles). sft/djw/dhc
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Observer
3 days ago
- Observer
SPACEX CREW DRAGON DOCKS WITH ISS
FLORIDA: An international team of four astronauts aboard a SpaceX Crew Dragon capsule docked on Saturday with the orbiting International Space Station (ISS). "Docking confirmed!" SpaceX posted on social media, along with a video showing the spacecraft making contact with the ISS at 2:27 am Eastern Time (0627 GMT), far above the southeast Pacific Ocean. American astronauts Zena Cardman and Mike Fincke, Japan's Kimiya Yui, and Roscosmos cosmonaut Oleg Platonov are joining the ISS on a six-month mission. They lifted off on Friday morning from Kennedy Space Center in Florida, their capsule mounted on a Falcon 9 rocket. It is the 11th crew rotation mission to the ISS under Nasa's Commercial Crew Program, created to succeed the Space Shuttle era by partnering with private industry. As part of their stay, the Crew-11 astronauts will simulate Moon landing scenarios that could be encountered near the lunar South Pole under the US-led Artemis programme. Using handheld controllers and multiple display screens, they will test how shifts in gravity affect astronauts' ability to pilot spacecraft, including future lunar landers. — AFP
Observer
4 days ago
- Observer
Landslide-prone Nepal tests AI-powered warning system
Every morning, Nepali primary school teacher Bina Tamang steps outside her home and checks the rain gauge, part of an early warning system in one of the world's most landslide-prone regions. Tamang contributes to an AI-powered early warning system that uses rainfall and ground movement data, local observations and satellite imagery to predict landslides up to weeks in advance, according to its developers at the University of Melbourne. From her home in Kimtang village in the hills of northwest Nepal, 29-year-old Tamang sends photos of the water level to experts in the capital Kathmandu, a five-hour drive to the south. "Our village is located in difficult terrain and landslides are frequent here, like many villages in Nepal", Tamang said. Every year during the monsoon season, floods and landslides wreak havoc across South Asia, killing hundreds of people. Nepal is especially vulnerable due to unstable geology, shifting rainfall patterns and poorly planned development. A damaged building, uprooted following heavy rains at a landslide-affected village in Lalitpur district on the outskirts of Kathmandu. — AFP As a mountainous country, it is already "highly prone" to landslides, said Rajendra Sharma, an early warning expert at the National Disaster Risk Reduction and Management Authority. "And climate change is fuelling them further. Shifting rainfall patterns, rain instead of snowfall in high altitudes and even increase in wildfires are triggering soil erosion", Sharma said. Landslides killed more than 300 people last year and were responsible for 70 per cent of monsoon-linked deaths, government data shows. Tamang knows the risks first hand. When she was just five years old, her family and dozens of others relocated after soil erosion threatened their village homes. They moved about a kilometre uphill, but a strong 2015 earthquake left the area even more unstable, prompting many families to flee again. "The villagers here have lived in fear", Tamang said. "But I am hopeful that this new early warning system will help save lives". The landslide forecasting platform was developed by Australian professor Antoinette Tordesillas with partners in Nepal, Britain and Italy. Its name, SAFE-RISCCS, is an acronym of a complex title — Spatiotemporal Analytics, Forecasting and Estimation of Risks from Climate Change Systems. "This is a low-cost but high-impact solution, one that's both scientifically informed and locally owned", Tordesillas said. Prof Basanta Adhikari from Nepal's Tribhuvan University, who is involved in the project, said that similar systems were already in use in several other countries, including the US and China. "We are monitoring landslide-prone areas using the same principles that have been applied abroad, adapted to Nepal's terrain", he said. "If the system performs well during this monsoon season, we can be confident that it will work in Nepal as well, despite the country's complex Himalayan terrain". In Nepal, it is being piloted in two high-risk areas: Kimtang in Nuwakot district and Jyotinagar in Dhading district. Tamang's data is handled by technical advisers like Sanjaya Devkota, who compares it against a threshold that might indicate a landslide. Rajendra Sharma, Disaster Risk Manager, National Disaster Risk Reduction and Management Authority (NDRRMA) "We are still in a preliminary stage, but once we have a long dataset, the AI component will automatically generate a graphical view and alert us based on the rainfall forecast", Devkota said. "Then we report to the community, that's our plan". The experts have been collecting data for two months, but will need a data set spanning a year or two for proper forecasting, he added. Eventually, the system will deliver a continuously updated landslide risk map, helping decision makers and residents take preventive actions and make evacuation plans. The system "need not be difficult or resource-intensive, especially when it builds on the community's deep local knowledge and active involvement", Tordesillas said. — AFP
Muscat Daily
6 days ago
- Muscat Daily
India: ISRO's Earth-observing satellite lifts off
Bengaluru, India – The Indian Space Research Organisation (ISRO) launched NISAR satellite, a sophisticated earth observation satellite developed in collaboration with the American space agency NASA, from Sriharikota on Wednesday evening on its scheduled time. A joint mission of NASA and ISRO, the Earth satellite was launched from Satish Dhawan Space Centre on in Sriharikota in Andhra Pradesh India's southeastern coast aboard an ISRO Geosynchronous Satellite Launch Vehicle rocket at 5.40pm. The mission was a long gestation period of over a decade and a joint investment exceeding US$1.5bn. NISAR launched into orbit onboard the Geosynchronous Satellite Launch Vehicle GSLV-F16. Usually, PSLV is utilised for such an orbit and this is the first time that a GSLV rocket was injecting a satellite into a Sun Synchronous Polar Orbit. 'Liftoff And we have liftoff! GSLV-F16 has successfully launched with NISAR onboard,' ISRO posted on X. The NISAR satellite weighs 2,392kg and was placed in a sun-synchronous orbit. It will orbit the Earth once every 97 minutes and send images of Earth's land and ice surfaces, as well as specific portions of the ocean's surface, every 12 days. The mission life of the satellite is expected to last five years. Union Minister Jitendra Singh has described the mission as not just a satellite but India's 'scientific handshake with the world'. The unique dual-band Synthetic Aperture Radar of NISAR employs an advanced, novel SweepSAR technique, which provides high resolution and large swath imagery. NISAR will image the global land and ice-covered surfaces, including islands, sea-ice and selected oceans every 12 days, ISRO said. NISAR mission's primary objectives are to study land and ice deformation, land ecosystems, and oceanic regions in areas of common interest to the US and Indian science communities. The first 90 days after launch will be dedicated to commissioning, or In-Orbit Checkout (IOC), the objective of which is to prepare the observatory for science operations, ISRO said. The first of its kind mission was to carry two different frequencies – an L and S-band. The global microwave imaging mission can acquire fully polarimetric and interferometric data. A key feature of the mission was that all data generated by NISAR will be open source and made freely accessible within one to two days of observation, and in near real-time in case of emergencies. This democratisation of data is expected to support global scientific research and decision-making, especially for developing countries that may not have access to similar capabilities. ANI
