Im not a scientist but have been pondering for a while whether kelp could be grown at scale in the open ocean and then deliberately sunk as a method of carbon capture. Generally speaking, kelps live further from the tropics than coral reefs, mangrove forests, and warm-water seagrass beds, so kelp forests do not overlap with those systems. Algin, an emulsifying and bonding agent, is extracted from kelp and used in these products. Population sizes of many of these species (including some that are commercially important food species) depend on the success of kelp growth each year. It has supported a multitude of industries over the past century. Numerous natural impacts as well as human activities, affect kelp forest environments. Their rough estimate suggests that around 200 million tons of carbon dioxide are being sequestered by macroalgae every year about as much as the annual emissions of the state of New York. Cheers, Brian Any ideas on how to convince them? This balance of power is usurped when the predatory populations go into decline, as exemplified by the huge explosion of sea urchins when otter populations suffer from oil spills or disease. I work for a company that is looking into the many benefits of kelp planting. High energy storms or swells can uproot entire plants and break away fronds. I know that research is being done in California on open-ocean kelp farming, using robotic submersibles to raise and lower the kelp beds (for sunlight at daytime, nutrients from deeper water at night), but the purpose is to produce biofuels. Kelp is the name given to several species of large brown seaweed. Large predatory species of sharks and marine mammals are known to hunt in the long corridors that form in kelp forests between rows of individual plants. Im currently trying to look into whether large regional kelp farms set up as aquaculture facilities would sequester carbon or whether they need the full ocean environment to do so. Researchers attribute the discrepancy between southern and central California to ocean temperature gradients; the El Nio brought unusually high ocean temperatures to southern California where the heat degraded the health of the giant kelp forests. Our town was famous for the taste and quality of its tomatoes and other vegetables. Lastly, by lessening the impact of waves, kelp forests protect . Each of these natural alterations to kelp forest density or total area affects the community of invertebrates and fishes that live in this ecosystem. Every surfer can tell you how a nearby kelp forest can groom and smooth a choppy swell; they are noticing a small-scale effect of this larger calming effect large kelp forests can play. The researchers grew kelp in experimental tanks floating in the North Haven Boat Harbour with different combinations of added nutrients and CO2. It has a similar structure to a plant, with a branching holdfast that roots it to the seabed, a thin hard stalk (called a stipe) and fronds that spread out like leaves. Fun Facts About Kelp Forests. The factors influencing kelp forest stability are diverse: kelp harvesting; grazing by fishes, sea urchins, and crustaceans; plant competition; storms; El Nio events; sedimentation; and pollution. Overall, the global extent of kelp forests is on a downward trend because of ocean heatwaves, pollution, warming temperatures, and outbreaks of grazers like sea urchins. It will grow as deep as light is available for photosynthesis. Click here for instructions on how to enable JavaScript in your browser. As in all ecosystems, a balance exists in this complex environment, and the predators such as sea otters generally contain sea urchins or grazing fishes enough to limit the damage by grazing. Self-confidence and very concern about the environment, I would like to work for a company which cares about nature and global warming challenge. When dairy cattle are fed Kelp it substantially reduces their greenhouse emissions . This is in part due to ocean warming, pollution, overgrazing, and coastal development. "When we manipulated CO2 and nutrient levels in an experimental marine ecosystem we found the effect of both of them together was greater than the sum of their individual impacts," says Dr Bayden Russell, of the University's Environment Institute and Senior Lecturer in the School of Earth and Environmental Sciences. Sylvia Hurlimann is a third-year graduate student in the Department of Molecular and Cellular Biology at Harvard University. Your email address will not be published. Unfortunately, because the carbon is stored close to the shore, it can be easily disturbed by runoff, human activity, or storms and released back into the atmosphere sooner than it otherwise might have. That's because it can grow really fast - up to 60cm (24 inches) a day But these. Runoff from agriculture, storm drains and urban wastewater carry contaminants that damage kelp populations and encourage the growth of invasive algae that . This problem largely rests with us (human beings) in our pursuit to create useful products and different ways to power our machines. As we decrease our use of fossil fuels, carbon sinks such as kelp forests will play a key role in getting us to net zero emissions. Kelp forests south of Point Coneception sustained up to 100 percent mortality in some regions, although comparable habitats north of that region "were relatively unaffected." Kelp forests are underwater ecosystems formed in shallow water by the dense growth of several different species known as kelp. Currently you have JavaScript disabled. While the most effective way of doing this is by reducing carbon emissions, experts increasingly think that this will not be enough. It also seems to improve the health of the cattle and the quality of their milk . Notify me of follow-up comments by email. If so, could the dried kelp be used to enrich soil carbon for agriculture? Read more. Area based management (e.g., designation of marine protected areas) is known to be an effective way to protect kelp forests from excessive use or harm by people. Kelp forests grow predominantly along the Eastern Pacific Coast, from Alaska and Canada to the waters of Baja, . . Your email address will not be published. Algin is an additive used in a wide variety of dairy products, frozen foods, cakes, puddings, salad dressings, shampoos, and toothpastes. ( To save the oceans and ultimate to save the planet it will be necessary within the foreseeable future to include the Southern Ocean and the Arctic Circle in the kelp growing regions.) We have already protected nearly 4 million square miles of ocean and innumerable sea life -but there is still more to be done. Sea urchins can destroy entire kelp forests at a rate of 30 feet (9 m) per month by moving in herds. 3. Instead, it is secured by holdfasts that lock onto substrates made of rock, or cobble. Cephalopods, Crustaceans & Other Shellfish, Worldwide in temperate to polar latitudes, Cold, shallow, nutrient-rich, medium-energy waters, Kelp, sea urchins, rockfishes, sea otters, seals. Report complaints about drinking or groundwater by calling the Safe Drinking Water Hotline at 1-800-426-4791. Additionally, some mariculture farms hand-harvest kelp to feed abalone. The project, by PhD student Laura Falkenberg, found that removing the nutrients from the water removed the combined effect, improving the environment for kelp growth. Past practices using chemical fertilizers and poor waste management severely damaged many coastal areas, leading to an ecosystem shift towards algal dominance. Sugar kelp, the most commonly cultivated seaweed in the U.S., is grown mainly on longlines, or horizontal ropes, studded with spores that are submerged several feet below the water's surface. Click here for instructions on how to enable JavaScript in your browser. The research is continuing with larger tanks, known as mesocosms, set up at West Beach and in natural marine areas where CO2 seeps into the water from seabed volcanic activity in New Zealand. Instead it secured by holdfasts to a rocky seafloor. Sailors for the Sea developed the KELP (Kids Environmental Lesson Plans) program to create the next generation of ocean stewards. The major kinds of pollution, usually classified by environment, are air pollution, water pollution, and . Https/Southpacificmarinepark.com Giant kelp is harvested from kelp forests and used as a binding agent in products like ice cream, cereal, ranch dressing, yogurt, toothpaste, lotion and more.3 4. The researchers have found a combined effect on kelp forests from nutrient pollution and higher CO 2, which could have a devastating impact on Australia's marine ecosystems. Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License, To read about carbon sequestration, check out, To learn more about the role of other marine ecosystems in sequestering carbon, read. 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