Kaʻū News Briefs December 14, 2023

Opponents to deep seabed mining southeast of Hawai'i held a protest Thursday when the mining
ship Hidden Gem came into Hawaiian waters. Photo from Greenpeace

NATIVE HAWAIIAN GROUPS AND GREENPEACE PROTESTED the arrival of a deep seabed mining ship on Thursday, after it entered Hawaiian waters. The protesters said they oppose the mining of the bottom of the ocean southeast of Hawai'i and destruction of the seabed. Congressman Ed Case said he is looking for a ban, at least until studies on the impact are completed.

    According to a statement from Greenpeace, the "International Seabed Authority oversees the regulation of this industry and is responsible for protecting the deep sea as the common heritage of humanity. The Authority has granted 31 deep sea mining exploration contracts so far, covering a total of over 1.5 million km2 of the world’s seabed-an area four times the size of Germany. Seventeen of these contracts cover exploration in the Clarion-Clipperton Zone, which lies between Hawai'i and Mexico, placing many Pacific Island communities at the forefront of this harmful industry."

    The Greenpeace report noted that the ship is called Hidden Gem and is one of the world’s largest deep-sea mining vessels. Hidden Gem is 748 feet-long.

    Operated by Allseas, commissioned by Canadian miner The Metals Company, "the ship is believed to be carrying over 3,000 tons of potentially radioactive polymetallic nodules extracted during a deep sea mining trial operation conducted in waters southeast of Hawaiʻi between September and November 2022."

    According to Allseas, "The collected deep-sea polymetallic nodules contain high grades of nickel, manganese, copper and cobalt – key metals required for building electric vehicle batteries and renewable energy technologies."

    The protesters staged their opposition off Sand Island in O'ahu in traditional Hawaiian outrigger canoes and other small vessels and raised banners with the slogan “A’Ole (No) Deep Sea Mining,” while others onshore voiced opposition "to the blind destruction of fragile, pristine deep sea environments and the broader, interconnected ocean systems," said the Greenpeace statement.

    Solomon Pili Kahoʻohalahala, a member of the Papahānaumokuākea Marine National Monument Advisory Council and Native Hawaiian Cultural Working Group, was one of the protesters. He said that while the mining site is in international waters, not Hawaiian waters, “With the proximity of Hawai'i to the proposed mining zones, it would be foolhardy to be concerned with only what exists on our side of the boundary.”

     The protest followed Hawai'i Congressman Ed Case's efforts to halt deep-seabed mining until full consequences are understood and protective regulatory regimes are established.
     The Case bills before Congress would impose a moratorium on mining of the sea

Solomon Pili Kaho'ohalahala protested the arrival of the deep seabed mining
 ship Hidden Gem in Hawaiian waters. Photo from Greanpeace

bed under American jurisdiction and also call for a moratorium in international waters. “Our deep oceans and seabed are the last unexplored regions of our world, yet what we do know of them is that they are among our most intricate and fragile,” said Case. “Over half of all known coral species are found in the deep sea, and as many as 10 million marine species may inhabit the deep sea, a massive and interrelated biodiversity seen nearly nowhere else on the planet.
  “Some of these species have had surprising benefits to humanity, including enzymes from one microbe found in deep-sea hydrothermal vents being used to develop COVID-19 tests. In addition, the deep ocean is one of our planet’s largest and most important stores of carbon and could play a critical role in the fight against climate change.
    “Yet all of these species and natural processes, and in fact our entire marine ecosystem, are now imperiled by the imminent commencement of large-scale commercial seabed mining operations. Seabed mining could take a number of destructive forms, including methods which would shear off seamounts on the ocean floor, the functional equivalent of strip mining.”
    Case said the American Seabed Protection Act would  place a moratorium on deep-sea mining activities in American waters or by American companies on the high seas. It also tasks the National Oceanic and Atmospheric Administration and the National Academies of Science with conducting a comprehensive

One of the underwater machines of Hidden Gem, the deep seabed mining ship
 that met protests in Hawai'i on Thursday. Image from Seatools

assessment of how mining activities could affect ocean species, carbon sequestration processes and communities that rely on the ocean.
    The International Seabed Protection Act would require the United States to oppose international and other national seabed mining efforts until the President certifies that the International Seabed Authority has adopted a suitable regulatory framework which will guarantee protection for these unique ecosystems and the communities that rely on them.

    Deep Sea Conservation Coalition cofounder Matthew Gianni said, “There is a lot of misleading information and unsubstantiated hype about deep-sea mining being peddled by the proponents of this industry both in the United States and at the International Seabed Authority. He called for the National Academy of Science and others "to conduct an independent study to assess the environmental and social risks of this industry and for the US to promote a moratorium on any deep-sea mining to prevent the ISA from causing large-scale irreversible damage to the environment, including the ocean’s role as a carbon sink, and disruptions to fisheries and coastal communities in Hawaii and elsewhere in the Pacific.”

    Earthjustice Legislative Director for Lands, Wildlife and Oceans Addie Haughey said, “The deep seabed of our ocean is teeming with diverse ecosystems and species that scientists are still discovering and that are interconnected with shallow ocean waters and the climate.”

    Raúl Grijalva (D-AZ), House Natural Resources Committee Ranking Member, said,  “While deep sea mining holds potential to provide minerals for batteries and other renewable energy technology, we cannot blindly exploit the ocean floor. Our transition to renewable energy must be just and safe.

Hidden Gem, a 748 foot-long deep seabed mining ship was subject of protests when it came into Hawaiian waters on Thursday.
 Its operators plan to mine the seabed southeast of Hawai'i. Photo from Allseas

    “The studies outlined in Representative Case’s bill are an important first step in understanding the environmental and social impacts of mining the deep ocean seabed. This research will give us the information we need to make appropriate decisions about deep sea mining in U.S. waters and will be invaluable in combating the climate crisis and preserving the biodiversity and health of our oceans for future generations.“
    Congressman Jared Huffman (D-CA), said, “Mining in pristine, fragile ecosystems like the seabed could open a pandoras box of unintended consequences reaching far beyond the excavation sites. “This kind of activity could decimate fish and marine mammal populations, destroy ecosystems, and inhibit carbon sequestration. Extracting industries should not have carte blanche access to what are some of the last untouched places on our planet. I’m glad to be joining Rep. Case on these bills to prevent the exploitation of seabeds before the proper research and regulations can be established.”

    Case's legislation is endorsed by Zero Waste Hawai‘i Island, Conservation Council for Hawai‘i, Keiko Conservation, 350Hawai‘i, Greenpeace Hawai‘i, the Deep Sea Conservation Coalition, Earthjustice, Natural Resources Defense Council, National Ocean Protection Coalition, Sustainable Ocean Alliance, Greenpeace USA, Earthworks, Benioff Ocean Science Lab, Blue Climate Initiative, the Ocean Foundation, Marine Conservation Institute, Parley for the Oceans, Oceanic Preservation Society, Inland Ocean Coalition and FutureSwell.

    See more at https://www.greenpeace.org/usa/news/native-hawaiian-environmental-activists-and-greenpeace-usa-protest-for-ban-on-deep-sea-mining/

     See more about the ship's operators and their plans at https://allseas.com/equipment/hidden-gem

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CO2 EMISSIONS CAN HELP PREDICT VOLCANIC ERUPTIONS, according to Volcano Watch, the the weekly article by U.S. Geological Survey Hawaiian Volcano Observatory scientists and affiliates.
    Titled Sniffing out stealthy gas escape between Kīlauea's eruptions, it notes:
    Kīlauea has erupted three times in 2023—January–March, June, and September—and has also experienced significant intrusive activity to the southwest of the summit since the beginning of October.
    During eruptions, the USGS Hawaiian Volcano Observatory frequently reports sulfur dioxide (SO2) emission rates as a means of tracking the progression of eruptive activity. But for the periods before eruptions, or when there is an ongoing intrusion with no eruption, most of the data that HVO relies on is geophysical data, like deformation or seismicity, rather than geochemical data like SO2 emissions.

    However, as Volcano Watch has discussed before, there is another type of gas that can be important during non-eruptive periods—carbon dioxide (CO2).
    CO2 behaves very differently from SO2 in Kīlauea's magmatic system, and these differences can be exploited to help better understand processes occurring beneath the ground surface. For example, CO2 can begin to escape from Kīlauea's magma when it is still many kilometers (miles) beneath the surface even though SO2 is largely released when magma is just a few tens or hundreds of meters (yards) beneath the surface. In a practical sense, this often means that we don't see much SO2 being emitted until lava begins erupting at the surface.
    Because CO2 escapes the magma from deeper, we should be able to see changes in the amount of CO2 coming from Kīlauea as magma gets shallower, even if it's not shallow enough to erupt yet.

These plots show provisional CO2 concentrations from two approximate areas at Kīlauea summit, over March–October 2023. Final, quality-assured concentrations will be calculated during post-processing by making small adjustments to the provisional data using measurements of known calibration gases, but the relative trends shown here are real (and are the sum of volcanic signals and variations in background CO2). Red squares and blue circles represent weekly averages of CO2 concentration measured at the Kīlauea multi-GAS station when the wind is coming from specific directions at specific wind speeds. Gray symbols are the individual measurements (30-minute averages up to 8 times per day). Pink vertical bars represent the June and September Kīlauea eruptions.  USGS image

    The tricky thing about CO2, though, is that it is already present—and highly variable—in the atmosphere. This is different from SO2—SO2 is not normally present in background atmosphere, so it's easy to pick out a volcanic SO2 signal in ambient air measurements. But atmospheric CO2 can vary over the course of a day, as well as with the seasons. So, picking out a small volcanic CO2 signal from variable amounts in the background atmosphere can be tough, and it has indeed proved difficult over the years aboth Kīlauea and Mauna Loa.
    Recently, however, in cooperation with colleagues at the USGS Cascades Volcano Observatory, we have been looking a little closer at CO2 data from Kīlauea. We have a multi-GAS station just to the southwest of Halemaʻumaʻu that measures four volcanic gases (CO2, SO2, hydrogen sulfide, and water vapor) as well as meteorological data like wind speed and wind direction. Instead of using all the CO2 data from the multi-GAS, which can be noisy because of background variations in CO2, we separate out CO2 data that reaches the station from certain directions at certain wind speeds. This allows us to try to isolate the volcanic CO2 signal.
    What have we seen? Well, the data are still noisy, so instead of looking at individual data points (up to eight per day), we calculate weekly averages of the CO2 concentration. Once we do that, if we look only at data coming from two portions of Halemaʻumaʻu (roughly the western part of the crater and the southeastern part of the crater) at moderate wind speeds, we see patterns in the CO2 concentration relative to the recent summit eruptions.

USGS scientists measure CO2, SO2 and other gases using infrared technology. USGS photo

    For both wind directions we look at, we can see that CO2 coming from those directions appeared to increase—slowly and slightly—before the June and September Kīlauea summit eruptions. Once the eruptions occurred, CO2 concentrations dropped back down. Now, since the September eruption, those CO2 concentrations are increasing again, and the increase is likely related to the intrusion of magma into the shallow storage regions beneath the summit and south caldera regions.
    Often when Kīlauea erupts, HVO uses the low ratio of eruptive CO2 to SO2 to be able to say that the magma feeding the eruption was stored very shallow because that low ratio tells us the magma already degassed most of its CO2 before eruption. What we're seeing right now is that pre-eruptive CO2 loss in the form of these CO2 increases before eruptions as magma gets closer to the surface.
    The next step with this new data analysis method is to try to turn the CO2 concentration data into emission rates of CO2, which could then perhaps tell us not just that magma is rising to shallow depths beneath Kīlauea, but how much magma is rising.

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