The Great Escape!

DEEP-SEA MINING COULD DESTROY MARINE ECOSYSTEMS

Despite deep-sea environments covers about half of the Earth’s surface and is home to a vast range of species, little is known about these environments, and mining could have long-lasting and unforeseen consequences, not just at mining sites but also across much larger areas.

According to a study published in scientific journal Frontiers in Marine Science, which is the first to give a global overview of all current plans to mine the seabed, in both national and international waters, and looks at the potential impacts including physical destruction of seabed habitats, creation of large underwater plumes of sediment and the effects of chemical, noise and light pollution arising from mining operations.

Rising demand for minerals and metals, including for use in the technology sector, has led to a resurgence of interest in exploration of mineral resources located on the seabed. Such resources, whether seafloor massive sulfides around hydrothermal vents, cobalt-rich crusts on the flanks of seamounts or fields of manganese nodules on the abyssal plains, cannot be considered in isolation of the distinctive, in some cases unique, assemblages of marine species associated with the same habitats and structures.

Some operations are already taking place, generally at relatively shallow depths near national coastlines. The first commercial enterprise, expected to target mineral-rich sulfides in deeper waters, at depths between 1,500 and 2,000 m on the continental shelf of Papua New Guinea, is scheduled to begin early in 2019.

Illustration: A schematic showing the potential impacts of deep-sea mining on marine ecosystems. Schematic not to scale.

Reference: Miller et al., 2018.  An Overview of Seabed Mining Including the Current State of Development, Environmental Impacts, and Knowledge Gaps. Frontiers in Marine Science.

Family 1

Family

Dogs

Friends

Girlfriend

Today marks the 13th day that I've been in Costa Rica (including the night I arrived at the airport). I'm adjusting to my second and permanent host family and to Heredia, and classes don’t start until tomorrow. Now that I'm here and mostly settled in, I have tried to make sure I contact friends and family in the U.S. on a regular, but not too frequent basis.

Aside from my first weekend here where I called home three days in a row (not everyone was available to talk at once) I've only texted my parents and my sister a few times or vice versa. The first time we Skyped (I did not have internet for a few days so it was not right away), our dogs were confused since they could hear me (an maybe see me) but I was not there. I miss all of the dogs, especially our new puppy, Vader, since he won't be small the next time I see him. The same is true for my family, but if I were not studying abroad, I would still be away from them since I'd be at college, and I usually don't come home until breaks. So currently, this doesn’t feel that different from a regular semester at Susquehanna, for me and them.

The same is also true for friends at home, however, not for friends at college. One of my closest friends is also studying abroad, so I would not see her even if I were at Susquehanna, but it is a bit odd not seeing my other friends. I have texted a few of them to see how their semester is going, but not too frequently. I think that at this point, this still does not feel like it will last until June, so it has not sunk in for me that I probably won't see a lot of them until August.  

Undoubtedly, the adjustment is hardest for my girlfriend. During the semester, we spend to most time with each other, so it's difficult for both of us to not see each other, including over long breaks. While the adjustment is difficult for my parents too, they have grown accustomed to not seeing me for a few weeks at a time. This is different for both of us. We've talked frequently through texting, but I am going to try to restrict calling/Skyping to a maximum of once a week (I'm going to try to do the same with my family). Since I'm still dealing with a completely new environment, it is currently harder for her, but as I grow accustomed to my routine and classes here or confront new difficult challenges, I could see it becoming more difficult for me too.

With all of that being said, I'm going to do my best to not focus on what I'm missing from the U.S. all of the time so I can focus on what I can experience here.

Blooms in the Baltic

Every summer, phytoplankton – microscopic plant-like organisms – spread across the North Atlantic, with blooms spanning hundreds and sometimes thousands of miles. Nutrient-rich, cooler waters tend to promote more growth among marine plants and phytoplankton than is found in tropical waters. Blooms this summer off Scandinavia seem to be particularly intense.

On July 18, 2018, the Operational Land Imager (OLI) on Landsat 8 acquired a natural-color image of a swirling green phytoplankton bloom in the Gulf of Finland, a section of the Baltic Sea. Note how the phytoplankton trace the edges of a vortex; it is possible that this ocean eddy is pumping up nutrients from the depths.

Though it is impossible to know the phytoplankton type without sampling the water, three decades of satellite observations suggest that these green blooms are likely to be cyanobacteria (blue-green algae), an ancient type of marine bacteria that capture and store solar energy through photosynthesis (like plants).

In recent years, the proliferation of algae blooms in the Baltic Sea has led to the regular appearance of “dead zones” in the basin. Phytoplankton and cyanobacteria consume the abundant nutrients in the Baltic ¬and deplete the oxygen. According to researchers from Finland’s University of Turku, the dead zone this year is estimated to span about 70,000 square kilometers (27,000 square miles).

Read more: https://go.nasa.gov/2uLK4aZ

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“I make sure that when I am boating that nothing goes into the water, I try to recycle everything I can, and I don’t eat seafood unless it is invasive lionfish. I also participate in as many coastal cleanups to help to remove all of the garbage along our shorelines and I try to encourage others to do the same. We have a long ways to go in ocean conservation, but national marine sanctuaries, along with national parks, monuments, and wildlife refuges, afford us the best opportunity to help leverage limited resources to address coastal and marine conservation." 

– Mark Chiappone, research associate at Nova Southeastern University and assistant professor at Miami Dade College 

What inspires you about the ocean? 

(Photo: Scrawled filefish in Florida Keys National Marine Sanctuary. Credit: Daryl Duda)

Annual Arctic sea ice minimum, 1979-2016

Marine Life of the Maritime Provinces, Canada

After months of work and waiting, here is at long last the full MARS commission. MARS (Marine Animal Response Society) is active in the Maritime Provinces of Canada, and is called upon whenever a marine creature is found dead or in distress. These illustrations will be used to educate their volunteers and assist in making species identifications during strandings or at sea.

With 42 separate illustrations, this is my largest project to date - quite a load of work! But it was an absolute pleasure to do. I got to paint animals I have never painted before, as well as revisit some old friends. The diversity of species found in this one area is impressive and made for varied painting.

I’m pretty pleased seeing them all together like this, and I hope you’ll enjoy them too! 

The Ghost, Craig Parry’s photo of the famed white whale Migaloo won first place in the underwater world category at the 2017 Golden Turtle International Photography Competition in Moscow this week.

What will scientists find in the deep waters off California?

Deep-sea corals and sponges are some of the oldest animals on Earth, living for hundreds of years at depths beyond direct human observation. Coral, sponge, and fish communities thrive in the cold, deep waters off California’s coast, but are rarely – if ever – visited or observed.

In late July and early August, scientists using advanced technology aboard the NOAA Ship Bell M. Shimada will study unexplored seafloor habitats off North-Central California in NOAA’s Greater Farallones and Cordell Bank national marine sanctuaries. Their focus includes coral, sponge, and groundfish communities. What they learn will help inform the management of these special ocean areas, and add to knowledge about deep-sea habitats and the biological communities that live there.

A crinoid and bubblegum coral grow in the deep sea in Cordell Bank National Marine Sanctuary. Photo: OET/NOAA

Using a robot to explore the deep

To survey the seafloor and record images of the habitats as deep as 2,000 feet (600 meters), scientists are using a remotely operated vehicle (ROV), launched from the ship and sent into the depths of the ocean. In addition to sending real-time video and images via a cable connected to the ship, the unmanned ROV will collect geological and biological specimens for identification. Scientists will also conduct seafloor mapping, an important tool for management of marine areas.

A remotely operated vehicle collects a sponge sample. The yellow sponge is a new species that was found on the wreck of the USS Independence. Photo: OET/NOAA

Why journey to the deep?

The deep sea is vastly unknown because it is largely inaccessible by humans. However, it affects us in many ways. A healthy ocean is essential to the health of our planet, and deep-sea communities are an important part of marine ecosystems. The deep sea nurtures fish stocks and hosts life-forms like bacteria and sponges that have contributed to medical discoveries.

Coral and sponge habitats are among the most biodiverse and productive ecosystems throughout the entire ocean. Increasing global human demand for resources has created a need for expanded science and conservation of these deep-ocean ecosystems and the benefits they may yield. Both living and dead corals and sponges are “biogenic habitats,” where the organisms themselves provide habitat for other marine life.

Previous NOAA expeditions off California’s coast have identified several new species of corals and sponges, including Swiftia farallonesica, a slender white coral, in the deep waters of Greater Farallones National Marine Sanctuary, off the Sonoma County coast. New sponge species were discovered living on the wreck of the USS Independence off the San Mateo County coast. They were also discovered in Cordell Bank National Marine Sanctuary, both in Bodega Canyon and on the deep slope near Cordell Bank to the north. New species discoveries indicate that we still have much to learn about the deep sea.

The ocean supports hundreds of billions of dollars of the U.S. economy through food, jobs, transportation, recreation, and other services. NOAA’s mission is “to understand and predict changes in climate, weather, oceans, and coasts, to share that knowledge and information with others, and to conserve and manage coastal and marine ecosystems and resources.” Assessing the conditions of ocean ecosystems can lead to better management of those areas to support the ocean economy.

Swiftia farallonesica is a new species of coral that was discovered in the deep waters of Greater Farallones National Marine Sanctuary. Photo: NOAA

Stay tuned for more pictures and information after the expedition!

Showing off those glide and pivot skills 😶‍🌫️⁠

Fishes in the family Macrouridae, also known as rattails, can glimpse even the faintest flickers of bioluminescence—the “living light” produced by deep-sea animals. Their keen eyesight reveals prey, like fishes and squid, darting in the waters above the seafloor.⁠ ⁠ A rattail relies on other senses, like smell and touch, to find a meal too. It has a nose for rotting carrion, and sensitive barbels on its chin detect small crustaceans or worms wiggling in the mud below.

Guess hoo-hoo it is 🦉

The owlfish, named for the size of its large eyes relative to its head, lives throughout the North Pacific. These species are in the family Bathylagidae and are relatively common in the deep sea, living at depths of over 6,000 meters (19,685 feet). In Monterey Bay, we observe these fish between a few hundred meters to over 2,000 meters (6,560 feet)