Is sunscreen toxic to marine life, especially coral reefs?
As part of an effort to be a responsible user of the world's waterways, I've been thinking about ways to reduce marine pollution. A friend told me that certain chemicals in common brands of sunscreen are dangerous to marine life.
She specifically said sunscreen is killing much of the delicate eco-system present in coral reefs.
Is there any proven truth to that?
This post was sourced from https://outdoors.stackexchange.com/q/15206. It is licensed under CC BY-SA 3.0.
2 answers
Yep.
According to this study by authors C. A. Downs, Esti Kramarsky-Winter, Roee Segal, John Fauth, Sean Knutson, Omri Bronstein, Frederic R. Ciner, Rina Jeger, Yona Lichtenfeld, Cheryl M. Woodley, Paul Pennington, Kelli Cadenas, Ariel Kushmaro, Yossi Loya:
Abstract:
"Benzophenone-3 (BP-3; oxybenzone) is an ingredient in sunscreen lotions and personal-care products that protects against the damaging effects of ultraviolet light. Oxybenzone is an emerging contaminant of concern in marine environments—produced by swimmers and municipal, residential, and boat/ship wastewater discharges. We examined the effects of oxybenzone on the larval form (planula) of the coral Stylophora pistillata, as well as its toxicity in vitro to coral cells from this and six other coral species. Oxybenzone is a photo-toxicant; adverse effects are exacerbated in the light. Whether in darkness or light, oxybenzone transformed planulae from a motile state to a deformed, sessile condition. Planulae exhibited an increasing rate of coral bleaching in response to increasing concentrations of oxybenzone. Oxybenzone is a genotoxicant to corals, exhibiting a positive relationship between DNA-AP lesions and increasing oxybenzone concentrations. Oxybenzone is a skeletal endocrine disruptor; it induced ossification of the planula, encasing the entire planula in its own skeleton. The LC50 of planulae exposed to oxybenzone in the light for an 8- and 24-h exposure was 3.1 mg/L and 139 µg/L, respectively. The LC50s for oxybenzone in darkness for the same time points were 16.8 mg/L and 779 µg/L. Deformity EC20 levels (24 h) of planulae exposed to oxybenzone were 6.5 µg/L in the light and 10 µg/L in darkness. Coral cell LC50s (4 h, in the light) for 7 different coral species ranges from 8 to 340 µg/L, whereas LC20s (4 h, in the light) for the same species ranges from 0.062 to 8 µg/L. Coral reef contamination of oxybenzone in the U.S. Virgin Islands ranged from 75 µg/L to 1.4 mg/L, whereas Hawaiian sites were contaminated between 0.8 and 19.2 µg/L. Oxybenzone poses a hazard to coral reef conservation and threatens the resiliency of coral reefs to climate change."
There is also supplementary publications if you want to pay for it.
Some countries (Bermuda) are now issuing requests of its tourism industry to ask that their clients (tourists) apply lotion about a half-hour before entering reef waters, the thinking is that these chemicals are absorbed into the skin and are less harmful to the reefs.
Another study by authors Bratkovics S, Wirth E, Sapozhnikova Y, Pennington P, Sanger D
Abstract:
Organic ultraviolet filters (UV-F) are increasingly being used in personal care products to protect skin and other products from the damaging effects of UV radiation. In this study, marine water was collected monthly for approximately one year from six coastal South Carolina, USA sites and analyzed for the occurrence of seven organic chemicals used as UV filters (avobenzone, dioxybenzone, octocrylene, octinoxate, oxybenzone, padimate-o and sulisobenzone). The results were used to examine the relationship between beach use and the distribution of UV-F compounds along coastal South Carolina, USA. Five of the seven target analytes were detected in seawater along coastal South Carolina during this study. Dioxybenzone and sulisobenzone were not detected. The highest concentrations measured were >3700 ng octocrylene/L and ~2200 ng oxybenzone/L and beach use was greatest at this site; a local beach front park. Patterns in concentrations were assessed based on season and a measure of beach use.
And another, extremely detailed and well-sourced study by authors Lauretta Burke, Katie Reytar, Mark Spalding, Allison Perry:
Abstract:
Reefs at Risk Revisited brings together data on the world’s coral reefs in a global analysis designed to quantify threats and to map where reefs are at greatest risk of degradation or loss. We incorporated more than 50 data sources into the analysis—including data on bathymetry (ocean depth), land cover, population distribution and growth rate, observations of coral bleaching, and location of human infrastructure. These data were consolidated within a geographic information system (GIS), and then used to model several broad categories of threat from human activities, climate change, and ocean acidification. In the absence of complete global information on reef condition, this analysis represents a pragmatic hybrid of monitoring observations and modeled predictions of reef condition.
Here are some other links on the subject:
How Sunscreen May Be Destroying Coral Reefs
Abstract:
A chemical in sunscreen may be contributing to the destruction of the coral reefs as swimmers trying to protect their skin venture near reefs, according to new research. Researchers behind the study, published in the journal Archives of Environmental Contamination and Toxicology, found that the chemical oxybenzone has toxic effects on young coral that causes endocrine disruption, DNA damage and death of coral, among other the problems. Oxybenzone also exacerbates coral bleaching, a process by which coral reject symbiotic organisms and lose their color. Bleaching has been particularly prevalent in recent years due to rising sea temperatures.
Skincare Chemical Threatens Coral Reefs
Abtract:
A study from a team of international scientists has found that a common chemical in many sunscreen lotions and cosmetics is highly toxic to juvenile corals and other marine life. Oxybenzone, or BP-3, is found in more than 3,500 skin care products worldwide for protection against the sun's harmful effects. The compound has been found entering the environment both through wastewater effluent and directly from swimmers wearing sunscreens.
(with apologies, I think this refers to the same study as the first I mentioned)
Another study by authors Roberto Danovaro, Lucia Bongiorni, Cinzia Corinaldesi, Donato Giovannelli, Elisabetta Damiani, Paola Astolfi, Lucedio Greci, Antonio Pusceddu
Abstract:
Coral bleaching (i.e., the release of coral symbiotic zooxanthellae) has negative impacts on biodiversity and functioning of reef ecosystems and their production of goods and services. This increasing world-wide phenomenon is associated with temperature anomalies, high irradiance, pollution, and bacterial diseases. Recently, it has been demonstrated that personal care products, including sunscreens, have an impact on aquatic organisms similar to that of other contaminants.
So, yeah - lots of studies. And yes, a product killing much of the delicate eco-systems is allowed to be sold.
This post was sourced from https://outdoors.stackexchange.com/a/15208. It is licensed under CC BY-SA 3.0.
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There is no definitive answer at this time.
There has been one well publicized lab study, Toxicopathological Effects of the Sunscreen UV Filter, Oxybenzone, behind a paywall. There was a lab & field study in 2008 Sunscreens Cause Coral Bleaching by Promoting Viral Infections.
Lab studies are interesting and can help point the direction for field studies but by themselves are not definitive and one field study cannot supply the data necessary to make any kind of conclusion.
One of the authors of the first study has posted an interesting blog post at MarineSafe dot org urging caution about other ingredients used in "reef safe" lotions. Including titanium dioxide, zinc oxide, organic neem, eucalyptus and lavender oils as well as organic beeswax.
User11609 has posted some inaccurate and misleading "studies" that really need to be addressed.
The second study offered as proof is simply a Baseline study that says these chemicals are in the water in South Carolina beach areas. They draw no conclusions as to their effect.
The third "extremely detailed and well-sourced study" is about reef die off in general, is global in scale and I wasn't able to find a single data point referencing oxybenzone or sunscreen.
The fourth "study" is a Time Magazine article referencing the first study. I find this "evidence" intentionally misleading. No one uses "Abstract:" when discussing news articles.
The sixth "study" is someones personal post on an engineering bulletin board. I find this "evidence" intentionally misleading as well. No one uses "Abstract:" when discussing anonymous opinions on an irrelevant web site.
I have no connection in any way to any company or organization in this question. I wear long sleeve shirts and sit in the shade at the beach. I wear rash guards or dive skins when I'm in the water. I am in or on tropical water 3-5 days a week.
This post was sourced from https://outdoors.stackexchange.com/a/17117. It is licensed under CC BY-SA 3.0.
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