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Monday, July 27, 2020

ENSO Blog Team On Ultraviolet (UV) Radiation: Don't Feel The Burn, Avoid It! - Sierra Sun Times

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July 27, 2020 - By Laura Ciasto - After so many months cooped up inside trying to flatten the COVID-19 curve, many of us are ready for the great outdoors. Patio furniture is flying off store shelves, gardens are springing to life, and outdoor BBQs are becoming the socially distant events of the season. But as we look to the outdoors in our quest for a bit of normalcy, it is important to remember that basking in the sunshine comes with its own health risks from the Sun’s ultraviolet (UV) radiation. Oh great, something else to worry about. But before you decide it’s safer to permanently relocate under your bed, avoiding the harmful UV effects is relatively easy. All we need is a little understanding of UV radiation, a forecast of UV intensity and some basic guidelines. 

Burn potential: the ABCs of UV radiation

The sun produces a lot of energy in many different forms. Some energy we can see (visible light), and some, like UV radiation, we can’t see but our skin absorbs it, especially on sunny summer days. The sun’s UV radiation is divided into three components based on how energetic it is. UV-C is the most energetic, and therefore the most harmful. Fortunately, the ozone layer—Earth’s giant sun umbrella—completely…absorbs it (phew!). The ozone layer also absorbs most UV-B radiation, but some still reaches us, causing those sunburns that have fair-skinned people slathering on aloe and wishing they’d lathered on more sunscreen. The final type of ultraviolet light is UV-A, the least energetic and least harmful of the three, most of which makes it through the ozone layer.

Our bodies aren’t huge fans of UV radiation, but we’re not completely defenseless: melanin in our skin is a natural protector, absorbing the radiation. But melanin isn’t completely foolproof. If people with fair skin stay unprotected in the sun for too long, however, their natural melanin defenses become overwhelmed. Even for people with dark skin that doesn’t visibly burn, long-term exposure to UV-B can damage skin cells, potentially leading to more serious health problems including skin cancer, cataracts, and immunosuppression (2). UV-A radiation penetrates deeper into the skin, giving it that aged leathery look if we continuously stay unprotected over the long-term.

Does this mean any unprotected exposure to the sun’s UV radiation is bad? Like most things, there is no simple answer and not everyone agrees on what is an acceptable level of UV exposure for people with lighter or darker skin. For example, Vitamin D in our bodies is stimulated through small amounts of UV-B radiation, and low Vitamin D, at least in fair-skinned people, is linked to bone weakness, so some exposure seems like a good thing, right? Yet, many doctors would argue that any unprotected sun exposure is too much (3). 

And by the late 1980s, concern was mounting that the stratospheric ozone layer, the Earth’s giant sun umbrella, was wearing thin in some places, leading to increasing cases of skin cancer (melanoma), particularly in Australia. As awareness of the dangers of UV radiation grew, so did the need for a way to monitor and predict the intensity of UV radiation. Fortunately, scientists came up with an answer – the UV index!

The UV index: forecasting the burn

To have an effective UV index, we need to know more than just how much UV radiation the sun emits. While the sun’s UV rays hit the Earth’s atmosphere every day, the atmosphere “decides” how much of it actually reaches the surface. Several factors go into this decision-making process. Some factors don’t change or are very predictable like time of day and year, latitude, the distance between the Earth and the Sun, and elevation of the ground. 

Other factors change in a way that we try to predict: the amount of stratospheric ozone (how thick is our giant sun umbrella), the presence of clouds (or dust or pollution) and ground reflectivity (e.g., water, snow, soil). We rely on computer models to forecast these weather-related factors and then to calculate the surface strength of the sun’s UV radiation based on the combination of all factors. And voila! we have a forecast of the UV Index which, simply put, tells us how intense the sun rays will be; depending on your skin type, the index can help predict how quickly your skin is likely to redden (4,5). 

The first UV Index was generated by Environment Canada in 1992 but others quickly followed (6). In the US, a climate-health partnership formed between the Environmental Protection Agency (EPA) and the National Weather Service Climate Prediction Center. The Climate Prediction Center (CPC), who monitors the ozone layer, would generate an index as well as a forecast of UV radiation, while the EPA would focus on the education and awareness of the health impacts of UV radiation. In 1994, CPC generated its first UV Index forecast (7), published as a text bulletin with forecasts for 58 cities (Long et al 1996). 

Using the UV index to avoid the burn

The UV Index (UVI) ranges from 0 to 11+ and is further divided up into 5 exposure categories from Low (UVI<2) to Extreme (UVI=11+) risk. This index is consistent with the WHO’s UV Index guidelines, so beachgoers in Australia can follow the same UV guidelines as beachgoers in California. You can find the US UV Index in many places and in several formats. CPC’s UV forecasts for the 58 cities are still published daily as text bulletins and maps, and they also issue experimental UV Alerts. The EPA’s Sun Safety site is a treasure trove of UV information and products, including forecasts for your zip code and forecast maps for the US. There’s even a smart phone app you can download and a widget for your webpage. 

In the end, reducing the effects of UV radiation is about taking sensible precautions. With a quick check of the UV Index and the exposure guidelines, you can avoid those painful sunburns and the more serious health effects of UV radiation. Now you’ve got everything you need to come out from under your bed, slip on the sunglasses, slop on the sunscreen, slap on your hat and head out to that socially distant (8) BBQ. 

Special thanks to Craig Long (NOAA CPC) for providing the background information on the UV Index.

Reference

Long, Craig, A. J. Miller, H. T. Lee, J. D. Wild, R. C. Przywarty, and D. Hufford, 1996: Ultraviolet Index Forecasts Issues by the National Weather Service. Bulletin of the Atmospheric Sciences, 77, 729-748.

Footnotes

  1. We’re only talking about the natural UV radiation that comes from the sun. There are many artificial forms of UV-A, UV-B, and UV-C radiation such as black lights, tanning beds, and welding torches. 
  2. This is a climate blog so we’ll leave the health impacts of UV radiation to the health experts, but the EPA is a good place to start. Most of the research underlying what we know about the link between UV exposure and skin cancer has focused on people with lighter skin types. In an article in the New York Times in 2019, the American Academy of Dermatology was quoted as saying “while there is strong evidence to show all skin types benefit from sun protection to reduce sunburn and aging, research is emerging that explores the relationship between sun exposure and skin cancer in people of color.”
  3. According to the World Health Organization, 5-15 minutes of sun on your hands, face and arms few times a week would be enough to keep Vitamin D levels high, depending on where you live and how fair your skin is. However, the EPA advocates seeking Vitamin D in other ways.
  4. It’s never actually that simple. The UV Index is defined as the scaled erythemal dose rate (EDR) integrated over the UV-B and UV-A spectral bands (290-400nm). The EDR is calculated as the instantaneous flux of  UV radiation over these spectral bands and scaled by a factor of 25 to get the UV index. For example, an EDR of 250 milliWatts/m2 is the equivalent to the UV index of 10. The EPA’s Sun Safety site has more details.
  5. Determining how fast a person’s skin will redden is quite tricky. We all have different skin types with different amounts of melanin and will therefore redden at different rates (or not at all). So it’s not easy to figure out how quickly each person will get a sunburn on the same day in the same location. Skin types have been divided in to six categories ranging from Type I (very pale skin) to Type VI (dark brown or black). Typically, the fairer the skin (the less melanin in your skin), the sooner it will burn without sunscreen and other UV protection. However, other factors besides skin type should be considered, including some pre-existing health conditions, age, and even the type of sunscreen you use. Finally, it is important to remember than UV damage is more than just sun burns. Long-term unprotected UV exposure leads to other serious health problems such as cataracts and skin cancer, even if you never get a sunburn. 
  6. While Canadian scientists developed the first UV index, concern over the UV Index began earlier in Australia where cancer rates were increasing due to the ozone hole. In the mid-1980s, the Australian Radiation Laboratory began monitoring UV radiation and reporting the previous day’s UV “dosage”. Australia also led the way in educating the public about the harmful effects of overexposure to UV radiation.
  7. Initially, while the scale of the UV Index was developed by Canadian scientists, the calculations of the UV index varied widely between countries. Over the 1990s, there were numerous studies that investigated the impacts of clouds, aerosols, surface reflectivity, and elevation upon the amount of UV radiation reaching the surface all of which helped improve calculations and forecasts of the UV Index. Furthermore, the World Meteorological Organization (WMO) held several meetings with international experts to establish a standardized definition, name and exposure categories that are used today. 
  8. Speaking of social distancing, you might be wondering about all those news stories and articles on the relationships between coronavirus and UV radiation. Only UV-C radiation can kill bacteria and viruses but remember the sun’s UV-C is absorbed entirely by the ozone layer, which is good because UV-C is incredibly harmful to us. Artificial UV-C can be used, for example, in hospitals to clean surfaces, but it’s not used on people. Do not irradiate yourself with any UV-C light. You’ll do more damage to your living tissue than killing any viruses. There have also been some studies suggesting that more intense UV radiation from the summer sun may kill coronavirus, but there is no consensus on this. For now, remember to wear a mask along with your protective UV gear.


ENSO Blog

A blog about monitoring and forecasting El Niño, La Niña, and their impacts.

Disclaimer: 

The ENSO blog is written, edited, and moderated by Michelle L’Heureux (NOAA Climate Prediction Center), Emily Becker (University of Miami/CIMAS), Nat Johnson (NOAA Geophysical Fluid Dynamics Laboratory), and Tom DiLiberto and Rebecca Lindsey (contractors to NOAA Climate Program Office), with periodic guest contributors.

Ideas and explanations found in these posts should be attributed to the ENSO blog team, and not to NOAA (the agency) itself. These are blog posts, not official agency communications; if you quote from these posts or from the comments section, you should attribute the quoted material to the blogger or commenter, not to NOAA, CPC, or Climate.gov.
Source: ENSO blog team

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