羞羞视频

The newly exposed edges of deforested areas are highly susceptible to drastic temperature changes, leading to hotter, drier and more variable conditions for the forest that remains, according to new research from the 羞羞视频.

The findings suggest that thermal biology鈥攁n emerging discipline that examines the effects of temperature on biological and ecological processes鈥攃ould be an effective tool for understanding how temperature changes in fragmented habitats can potentially wreak havoc on species activity and other critical ecosystem functions.

A study outlining a framework for applying thermal biology to deforestation research was recently published in the journal听Ecology Letters.

Previous research has shown that widespread deforestation is a threat to global biodiversity, but scientists are only just now beginning to examine the role that temperature may play when trees are removed from an ecosystem鈥攅specially near the newly-cut edges of forests.

鈥淲hen you chop down trees, you create hot spots in the landscape that are just scorched by the sun,鈥� said Kika Tuff, a PhD candidate in the听听at CU-羞羞视频 and the lead author of the new paper.听 鈥淭hese hot spots can change the way that heat moves through the landscape.鈥�

In some cases, this creates a phenomenon known as the 鈥榲egetation breeze,鈥� where low air pressure in the cleared areas pulls the cool, moist air out of the forest and feeds hot, dry air back in.

鈥淪o now the cleared areas get all the rain and the forests gets sucked dry,鈥� said Tuff.

The warming effect is most pronounced between 50 and 100 meters of a forest edge, the study reports, where temperatures can be anywhere from 4 to 18 degrees Fahrenheit warmer than in the forest interior.

鈥淭his is like climate change on steroids,鈥� Tuff said, 鈥渁nd it happens over much more rapid time scales.鈥�

Biologists estimate that 20 percent of the world鈥檚 remaining forests lie within 100 meters of an edge, while more than 70 percent lie within a kilometer of one. This means that much of the world鈥檚 forests may be experiencing the vegetation breeze and other warming effects.

Increased temperature variation near forest edges could affect species鈥� ability to regulate their body temperatures, resulting in behavioral changes that could alter the local ecosystem.

One such example, Tuff said, could be the feeding patterns of animals living at the forest edge. Animals are very temperature sensitive, so they hunt for food when they have sufficiently warmed up in the morning and stop hunting for food when it is too hot in the afternoon. If temperatures are higher at the forest edge, species may respond by retreating to hunt in the cooler, deeper forest, where they become dependent on new types of food, sparking a domino effect in the food chain.

Another example might be the timing and duration of species activity. If temperatures were to increase due to tree loss, predators may start foraging later in the day to avoid the heat.听 Such a change could increase how frequently predators come across their prey, intensifying predation events and resulting in localized prey population crashes in some cases.

Such effects should also apply in instances of natural treefall, Tuff said. In Colorado, for example, high winds, wildfires and beetle kill can create edges in the treeline where greater sunlight exposure would subsequently increase the solar radiation and temperature in localized areas.

The sensitivity of animals and plants to temperature could have implications for future conservation strategies as deforestation and habitat fragmentation continue worldwide.

鈥淎pplying thermal biology on the scale of landscapes is a fairly new idea,鈥� Tuff said. 鈥淭hermal biology presents a new imperative for forest conservation and makes the value of forests all the greater because of what they do for thermal regulation. Trees aren鈥檛 just habitat for animals, they are the world鈥檚 insurance for a thermally stable and habitable planet.鈥�

The study was co-authored by Assistant Professor Kendi Davies and graduate student Ty Tuff, both of the Department of Ecology and Evolutionary Biology (EBIO) at CU-羞羞视频.

Trent Knoss is a science editor at the听.