Tag Archives: Marine Environment

Salmons near Seattle found high with drugs, and should you be concerned?

Posted on November 13, 2017 by | 2 comments

Assuming you are a sushi or seafood lover, will you be shocked if I tell you the salmons near Seattle has found to have of multiple drugs, including cocaine in their tissues? Although you actually don’t need to worry about your health this time, some other effects may still worth concerning.

Salmon. credit: Pexels

A study lasted from 2014 to 2016 has examined the contaminants in three estuaries in Puget Sound near Seattle by collecting both water sample and juvenile Chinook Salmon samples. The scientists found that the juvenile Chinook Salmon’s tissue contains many drugs and other chemicals, including Prozac, Advil, Benadryl, Lipitor, BPA, even cocaine. The estuaries’ water also contains 81 types of drugs, cosmetic products, which are higher than the expected concentrations.

Salmon and water bodies contain the chemical products. Source: http://www.sciencedirect.com/science/article/pii/S0269749116300884

The variety of the compounds inside salmon and water is from multiple factories in the regions producing a wide range of products, including pharmaceutical, personal care products, and current use pesticides. Multiple chemicals then are ejected into the water bodies and the organisms from the discharged water from the factories’ wastewater treatment plants.

Fortunately for us, the concentration of individual compounds in the organisms and water would be too low to affect human health. Also, there are multiple other salmon species to choose, like sockeye salmon, so that people would not need to eat juvenile Chinook salmon.

However, it is estimated that the salmons’ survival rate would be decreased by around 50%. The drugs could inhibit the salmons’ immunity, and make them more susceptible getting diseases and/or make them become less fit. This could also give them a hard time feeling from their predators, and thus increase the salmon population’s death rate.

Also, most of the compounds and products found in salmon tissues are in fact approved to use, or considered as non-toxic, it is quite common for them to be discharged from a wastewater treatment plant. Thus, only a small proportion of the chemicals are monitored or regulated in the estuary environment, while there could be hundreds of other chemicals/products presenting the water and organisms. Therefore, the toxicity effects might have been underestimated, as the “non-toxic compounds” could interact with each other, and increase their overall toxicity to be harmful to humans.

In a word, even though we are being lucky enough not to be affected by the drug-contained salmons this time this time, it is yet unclear about the overall effects of the multi-products-contaminated waterbodies. If we don’t work on to improve the wastewater monitoring and regulation system, maybe the water contamination will eventually affect ourselves.

 

-Lilo Wang

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Goodness that’s loud!

Posted on October 25, 2017 by | 1 comment

Imagine if each time you tried to have a conversation with a loved one, someone came up from behind you and blew an air horn in your ear. Horrible right? Now, try to imagine that that conversation was not just your only form of communication, but is also your directionality and means of obtaining nutrients. I agree, it sounds unbearable and ridiculous. But, this is the kind of struggle that cetaceans, intelligent marine mammals such as dolphins and whales, experience daily from human activities in the oceans.

A basic schematic of how sound travels for echolocation in cetaceans

Have you ever seen a photo of a beached whale bloated and dying? Its hard to admit that theres a good chance that the whale you’re feeling sorry for died because of human ignorance. In the expansive environments of the oceans, sound is vital for survival and is used as the primary source of navigation, long range communication, and food location for cetaceans. When these sounds are interrupted it can have dire effects on the health of the marine environment.

Beaked and pilot whales are common victims of stranding due to noise pollution

Noise pollution is an often misunderstood and under-appreciated form of environmental deterioration. Our activity in the ocean can be so loud that is damages the hearing of cetaceans, even causing organ damage in severe instances. Cetaceans that dive to avoid intense air gun blasts are afflicted with decompression sickness (‘the bends’) and often die from their injuries. Marine mammals are playful, loving, and emotional creatures. We are overlooking our destruction of their habitat for the means of industry and war. Whale populations around the world are decreasing at an alarming rate.

Our influence is destroying parts of the marine environment where cetaceans have thrived for nearly 50 million years. Increased shipping, military sonar, and the seismic search for fossil fuels are sending cetaceans on a rapid path to endangerment and extinction.

Noise pollution has doubled every year since 1950 (plot projected until 2020)

Scientists and environmental activists are working to educate the public on the consequence of noise pollution. Although noise pollution is gaining more international recognition, studies show that minimal action has been taken to restore these delicate marine ecosystems. We must determine the importance of a prosperous ocean and the value of a healthy planet for future generations to advance and replenish. The ocean is indispensable to all life on this planet. The time to act sustainably is now.

Joey Krahn

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First Time Ocean Floor Mining in Human History, Now What?

Posted on October 23, 2017 by | Leave a comment

Despite our growing need for natural resources, should we still retrieve the resources while we might pay a huge price? In August 2017, the first large-scale seabed mining activity in human history has been approved with a 2-2 vote by the Environmental Protection Authority (EPA): the company Trans-Tasman Resources can now mine Iron sand in South Taranaki in New Zealand. Although it will bring more iron ores and job positions, it will certainly bring harmful effects on marine ecosystem and humans, and the severity of the adverse impact on seafloor ecosystem is still unclear.

Map of Seabed Mining Site: Credits: Frances Cook, NewYork Time

Location and Technology

The mining site is over 25 km offshore along the Taranaki coastal-line. Trans-Tasman Resources will remove 5 million tons of iron sand annually for up to 35 years from the around 19 to 42m depth underneath the ocean surface. The total mining area will be 65.76km2, starting from 5km2 in the first year.

They will use an integrated mining/processing vessel attached to a suction crawl. The suction crawl would remove anything on the seedbed including the sea-organisms on the seabed and form a pit hole, then separate the iron ores by depositing other materials including sands and dead organisms into the sea. Then the minerals will be exported onshore directly from the storage ship. The short video below explains the mining technology clearly.

https://www.youtube.com/watch?time_continue=2&v=nbOvX8eoOSw

Impacts

Trans-Tasman Resources is consent to have adverse effects on the marine lives or marine environment. During their mining procedure, the entire seabed will be removed, along with the sessile organisms, such as seaweeds. The motile creatures such as fishes and mammals would be affected by habitat loss, as well as the noise and/or electromagnetic radiations. Some mammals might experience negative behavior changes including extreme avoidance of their habitats; some could become less capable fleeing from their predators due to the noise effects, and some will lose their food resources. This would lead to species loss, and eventually biodiversity loss.

Humans health might also be affected by this project eventually. As New Zealand also has a long history of commercial fisheries, people might be harmed from the possible bioaccumulation of heavy metals in their seafood. The toxicity generated from the mining procedure can be eaten and stored by the fishes, and eventually consumed by people. This could possibly damage humans’ organs and/or nervous systems. Since it is still unclear about how far exactly can the pollutions in the mining area span, it would be even more difficult to prevent the health issues in humans.

Now what?

Although we now understand the risks and impacts of the mining project a little bit, unfortunately, it would be almost impossible for us to stop the mining project now, according to the approval agreement. However, as a part of the public, we can still put pressure on the government to allow the scientists monitor this project closely, and develop new regulations for this type of mining activities in future. With more measurements, scientists can then reduce the uncertainty, and manage the environmental impact more adaptively in future.

-Lilo Wang

 

 

 

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Driving with Lemon

Posted on September 24, 2017 by | 1 comment

Climate change has been the most discussed topic for the past decade. The world is feeling the effects of global warming and research has shown that the burning of fossil fuel is one of the leading causes. Fossil fuel must be replaced with a clean and sustainable energy source. A novel new research has found an interesting alternative in lemon peel oils.

Imagine that lemon peels, a produce that is often regarded as food wastes, has the potential to power everyday vehicles. Researcher has successfully extracted oils from lemon peels which has the potential to be an environmentally friendly substitute for diesel fuel.

Lemon Peel

The scientists injected the biofuel into a diesel engine and studied its effects. The engine increased in performance and emitted significantly lower emission levels. One of the measurements made was NOx emission levels as NOx (Nitrious Oxide)  is one of the biggest contributors to global warming.

The biofuel was a mixture of lemon peel oil and diesel fuel, but the increases in proportion of lemon oil corresponded to better performance and less emission. Dr. Ashok, the lead researcher, wrote” it is concluded that 50% lemon peel oil could be readily used in diesel engine with comparable performances and improved emission characteristics”. This study was published in the journal Energy Conversion and Management.

The researchers extracted the lemon peel oil with steam distillation. They tested different proportions of lemon peel oil and diesel fuel mixtures in a fully functional diesel engine. The lemon oil’s natural low viscosity and low boiling point allowed it to function in a normal engine.

Lemon and other Citrus Wastes

The research into lemon peel oil and other biofuels can tackle multiple world issues such as the food waste crisis. Examples such as the lemon peel oil biofuel can be produced and implemented cheaply due to its abundancy as food wastes. Dr. Ashok and the team of researcher stated “Overall diesel engine characteristics indicated that lemon peel oil can partially or completely replace the petroleum diesel usage”.

Written by: Harvey Wu

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Biodegradable Plastic: The New Potential Waste Management Solution

Posted on September 24, 2017 by | 1 comment

Production of plastic has increased from 0.5 million tonnes in 1950 to 260 million tonnes in 2007. It is versatile, lightweight, flexible, moisture resistant and relatively inexpensive. Their attractive qualities lead us, around the world, to an over-consumption of plastic products. However, conventional plastics, which make up 60-80 percent of marine litter from the poles to the equator, are durable and very slow to degrade. They are harmful to marine animals as they release toxic additives including flame retardants, antimicrobials and plasticizers into the marine environment during degradation. Use of a biodegradable polymer that degrades more quickly than conventional plastics may present a solution to the problem.

Mouth of the Los Angeles River, Long Beach, California. (Photo source: ©© Bill McDonald, Algalita Foundation / Heal The Bay)

During April 2008 – March 2009, researchers from Marine Biology and Ecology Research Centre of University of Plymouth investigated breakdown of four types of plastics in the marine environment, including two different oxo-biodegradable formulations trademarked as TDPATM, a biodegradable bag manufactured using GM-free corn starch, vegetable oils and compostable polyesters, and a standard polyethylene bag produced from 33% recycled materials.

The scientists fastened 20 wooden sample holders to a beam attached to a floating pontoon at Queens Anne Battery Marina, Coxside Plymouth, Devon and examined degradation at 4, 8, 16, 24, and 40 weeks. After 24 weeks of exposure, the compostable polyester samples lost 100% of their surface area. However, the other materials lost only approximately 2% of their surface area over 40 weeks exposure. Fouling by marine organisms reduced the sunlight reaching the surfaces of the standard polyethylene, TDPATM 1 and 2 samples, which resulted in much slower degradation.

Plastics in the Ocean Affecting Marine Life

Plastic bags are especially harmful to marine animals since many animals confuse the plastic litter in the ocean with food. Ingestion of plastic debris may present a threat as chemicals including phthalates, polychlorinated biphenyls and organochlorine pesticides on plastic fragments may present a toxicological hazard.

One in three leatherback sea turtles has plastic in its stomach, based on a study of over 370 autopsies. (Photo: Laura Beans)

“A large number of marine species is known to be harmed and/or killed by plastic debris… One possibility to mitigate the problem is the development and use of biodegradable and photodegradable plastics.” (Derraik, 2002)

Biodegradable polymers offer potential waste management solutions. However, there are still limitations and ethical issues about their application.

-Jennifer Liu-

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