Click here to sign in with or
You may have heard that exposure to blue light can disrupt your sleep. As it turns, out it's also harmful to wildlife.
At an inner-city university, mobs of wallabies are helping researchers understand how artificial light affects nocturnal marsupials.
La Trobe University graduate researcher Alicia Dimovski is studying how exposure to light affects tammar wallabies.
In one enclosure, they were exposed to light-emitting diodes (aka LEDs). A second enclosure had blue-shielded LEDs much like the "night mode" setting on your phone or laptop. Wallabies in a third enclosure experienced natural darkness.
After 10 weeks, Alicia took blood samples to test the wallabies' melatonin levels. As it turns out, LEDs have a dark side.
Like us, wallabies rely on the hormone melatonin for a good night's rest. And the level of melatonin produced in our bodies is regulated by a light-sensitive protein in our eyes called melanopsin. When certain wavelengths of light hit the melanopsin, it suppresses our melatonin production. Reduced levels of melatonin in our blood could mess with our bodies' natural sleep-wake cycle.
"Melatonin is known as the 'hormone of darkness,'" says Alicia.
"This is because production of melatonin is suppressed by light, and peak production occurs during the dark phase."
Melatonin is also important for the immune system. In mammals, melatonin acts as an antioxidant, capturing free radicals.
Free radicals are unstable atoms created by the body as a byproduct of various normal cellular processes. Despite their potential to damage DNA and other cells, the body does completely fine with low levels of free radicals. However, when we have an infection, the body's immune response can cause an increase in free radicals. Without melatonin, this increase in free radicals can cause oxidative stress, which increases inflammation.
Not all light equally activates melanopsin. Blue light with a wavelength between 420–440 nanometers is better at activating melanopsin.
In 2009, the Australian Government began to phase out incandescent globes for energy-efficient alternatives like LEDs.
Since then, LEDs have become the primary source of light for Australian homes, businesses and streetlights. Unfortunately, the energy-efficient light bulbs are causing health problems for nocturnal wildlife.
After 10 weeks of exposure to night-time LEDs, Alicia's wallabies had lower melatonin levels.
"White LEDs cause problems because they contain a large amount of blue light, so they are really effective at suppressing melatonin," says Alicia.
However, the study found that removing the blue light from the LEDs made a big difference to melatonin levels. In fact, the wallabies exposed to amber LED light had melatonin levels on par with wallabies experiencing natural darkness.
Beyond melatonin, for wallabies, the changing level of light throughout the four seasons is a timer for vital processes like reproduction.
"Animals that breed at a certain time of year, such as the tammar wallabies, rely on this biological clock to ensure that births occur when there is enough food to raise their young," says Alicia.
"Many Australian mammals have been shown to reduce their activity even under a full moon due to an increased predation risk. So even very low levels of light pollution can disrupt our wildlife."
The WA Department of Biodiversity, Conservation and Attractions has guidelines for businesses to reduce light pollution. However, they're not legislated or enforced. Compliance with the guidelines is completely voluntary.
"The DBCA promotes the guidelines through education with industry and government agencies to ensure best-practice lighting design and reduce the potential impact of artificial light on wildlife," says a DBCA spokesperson.
So if you wallaby the best friend you can to nocturnal wildlife near your home, consider getting blue-wavelength filters for your LEDs and placing them closer to the ground. They'll love 'roo for it! Explore further Light pollution can suppress melatonin production in humans and animals Provided by Particle
This article first appeared on Particle, a science news website based at Scitech, Perth, Australia. Read the original article.
More from Biology and Medical
Use this form if you have come across a typo, inaccuracy or would like to send an edit request for the content on this page. For general inquiries, please use our contact form. For general feedback, use the public comments section below (please adhere to guidelines).
Please select the most appropriate category to facilitate processing of your request
Thank you for taking time to provide your feedback to the editors.
Your feedback is important to us. However, we do not guarantee individual replies due to the high volume of messages.
Your email address is used only to let the recipient know who sent the email. Neither your address nor the recipient's address will be used for any other purpose. The information you enter will appear in your e-mail message and is not retained by Phys.org in any form.
Get weekly and/or daily updates delivered to your inbox. You can unsubscribe at any time and we'll never share your details to third parties.
Medical research advances and health news
The latest engineering, electronics and technology advances
The most comprehensive sci-tech news coverage on the web
This site uses cookies to assist with navigation, analyse your use of our services, collect data for ads personalisation and provide content from third parties. By using our site, you acknowledge that you have read and understand our Privacy Policy and Terms of Use.