© Clark University Professor Christopher A. WilliamsForest conversion from 1986 to 2000. Percentage of forest pixels converted, mapped at a 990 m x 990 m resolution. All cities with a population greater than 250,000 are displayed as black dots.
It is well established that forests soak up carbon dioxide from the air and store it in wood and soils, slowing the accumulation of greenhouse gases in the atmosphere; however, that is not their only effect on climate. Forests also tend to be darker than other surfaces, said Professor Williams, causing them to absorb more sunlight and retain heat, a process known as "the albedo effect."
"We found that in some parts of the country like the Intermountain West, more forest actually leads to a hotter planet when we consider the full climate impacts from both carbon and albedo effects," said Professor Williams. It is important to consider the albedo effect of forests alongside their well-known carbon storage when aiming to cool the planet, he adds.
The research was funded by two grants from NASA's Carbon Monitoring System. Williams and his research team โ comprising data scientist Huan Gu, Ph.D. from The Climate Corporation and Tong Jiao, Ph.D. โ found that for approximately one quarter of the country, forest loss causes a persistent net cooling because the albedo effect outweighs the carbon effect. They also discovered that loss of forests east of the Mississippi River and in Pacific Coast states caused planetary warming, while forest loss in the Intermountain and Rocky Mountain West tended to lead to a net cooling.
According to Professor Williams, scientists have known for some time that expanding forest cover cannot be assumed to cool the planet or to mitigate global warming. However, this has not always been appreciated broadly.
Comment: Because ideology has, for the most part, usurped science.
"If we fail to consider both the carbon and the albedo effects, large-scale tree-planting initiatives, such as Canada's 2Billion Trees Initiative and The Nature Conservancy's Plant a Billion Trees campaign, could end up placing trees in locations that are counterproductive for cooling the climate system," said Professor Williams.
Comment: Note that regardless of human initiatives, our planet is 'greening': NASA: Recent "Greening Earth" has had strong cooling effect on land
"It is all about putting the right trees in the right place," said Williams, "and studies like ours can help identify where the potential for cooling is greatest."
Comment: When man thinks it knows better than nature and the resulting blowback: Environmentalists attempt at 'wild reserve' leads to thousands of introduced animals being shot or starved to death in the Netherlands
Every year, approximately one million acres of forest are being converted to non-forest areas across the lower 48 states of the U.S.; this is largely due to suburban and exurban expansion and development. Professor Williams' team found that the net climate impact of a full 15 years of forest losses amounts to about 17% of a single year of U.S. fossil fuel emissions.
© Photographer Steven KingClark University Professor Christopher A. Williams.
The new datasets and methods used in Professor Williams' study show that the tools are available to take the albedo effect into account. The Clark team hopes to generate actionable datasets to share with land managers and policymakers worldwide within the next one or two years, to help ensure that their tree-planting efforts focus on the right places and have the intended effects.
More information: "Climate impacts of U.S. forest loss span net warming to net cooling" Science Advances (2021). advances.sciencemag.org/lookup ... .1126/sciadv.aax8859 Journal information: Science Advances
Comment: It would appear that solar activity has a much greater impact on global climate than deforestation and CO2: