As the climate gets warmer, many forests are feeling the heat. Impacts range from increased forest fire hazards and tree mortality to detrimental beetle outbreaks and alterations to leaf abundance and bloom.
When forest cover or composition changes, there are impacts to the availability of wood products, clean water, recreational opportunities, and habitats for many plants and animals.
In recognition of World Forestry Day, let’s take a glimpse at U.S. Geological Survey science to understand the fate of forests from climate change.
To sustain the health and production of America’s forests, managers need sound science to guide their decisions. The USGS is involved in several initiatives across the nation and in other countries to provide science to understand climate change impacts to forests.
USGS scientists are working to detect what forest changes are happening and the associated impacts, while also developing forecasts and scenarios for what may happen in the future. Scientists are even looking at the potential for our nation’s vegetation, soils and sediments to soak up and store carbon from the atmosphere. This science is the basis on which strategies are developed to manage and protect these environments.
What Changes are Happening Now and in the Future?
Scientists are identifying how climate change is impacting forests by answering questions such as: What’s happening, why, what does it mean, and what does the future hold?
There is a growing realization that climate warming may be linked to increasing forest fire size, severity, and frequency. Hotter temperatures result in reduced winter snowpack, earlier snowmelt, longer summer drought, and therefore drier conditions that are more susceptible to fire ignition.
USGS scientists have found that warmer temperatures and associated stress from drought are contributing to increased tree mortality in all major forest types around the world. The USGS is developing models to forecast expected changes in tree distributions given projected changes in climate. In the Southwest, for example, Joshua trees will likely be eliminated from 90 percent of their current range in 60 to 90 years. Other USGS research has also identified a rapidly rising death rate for trees in old-growth forests across the West.
Hotter temperatures may contribute to outbreaks of insects or diseases, both native and non-native, which are harmful to forests. USGS scientists have linked some recent outbreaks of tree-killing bark beetles in the West to warming temperatures. In Colorado, the USGS is working to evaluate whether and how forest management practices (such as thinning or prescribed burning) increase or decrease forests’ resilience to a currently destructive native insect, the mountain pine beetle.
Leaf Growth and Abundance
As climate changes, it affects the timing of when leaves emerge, the amount of foliage that grows as well as the timeframe when leaves begin to fall. The study of the timing of such events as related to climate is termed “phenology.” USGS scientists are studying how forest phenology may be impacted by climate change, focusing research on Shenandoah National Park in Virginia. Understanding forest phenology patterns is important because it affects water resources, habitat condition, the timing of allergy seasons, vacation planning and tourism, and carbon storage.
Storing Carbon in Forests
Trees naturally soak up CO2 from the air through photosynthesis. Forests absorb about ¼ of annual anthropogenic (human created) carbon emissions that would otherwise contribute to atmospheric warming.
USGS scientists are assessing the potential of ecosystems to store carbon in vegetation, soils and sediments, which is a process known as biological carbon sequestration. The assessment will help inform land management decisions such as wetland restoration, forest harvesting, or farming techniques. A USGS assessment on the amount of carbon stored in ecosystems across the nation is expected to be completed around 2013.
The USGS is also actively involved in SilvaCarbon, helping countries build the capacity to monitor and manage their forests and carbon. In a collaborative effort, U.S. Federal agencies have been conducting national assessments in Gabon, Indonesia, Colombia, Ecuador and Peru. They are also providing training workshops such as techniques for forest mapping and how to link ground, aerial and satellite observations. SilvaCarbon also contributes to the Group on Earth Observations (GEO) Forest Carbon Tracking initiative.
Forest Science Requires Long-Term Monitoring and Research
Part of the challenge for understanding how forests are affected by climate change is the need for long-term data. Satellites are a cost-effective way to gather wide-spread information on forests, and the USGS Landsat program has been doing so across the globe since 1972. Landsat records provide the world’s longest continuous collection of space-based data.
The world’s longest ongoing annual record of forest data is in Sequoia and Yosemite national parks in California. For 30 years, the USGS has been tracking the birth, growth, health and deaths of some 30,000 individual trees in these parks. Research is coordinated through the USGS Western Mountain Initiative climate change project.
Start with Science
Long-term monitoring and sound science on climate change impacts to our forests is needed to make the most informed decisions to protect these environments.
Contact: Jessica Robertson