Webinar: How Will Forests Affect Mountain Snow Storage in a Warming Climate?
View this webinar to learn how scientists are examining the combined impacts of forest and climate change in the Pacific Northwest.
Date Recorded
Tuesday, May 24, 2016
Summary
Forests strongly influence snow processes and affect the amount and duration of snow storage on a landscape. Therefore, forest changes, from management activities or natural disturbances, have important consequences for spring and summer soil moisture availability, aquatic habitat, and water supply. Accounting for these effects of forest change on watersheds will become even more important under warming climate conditions, which will reduce the amount and duration of snow storage.
In this webinar, Susan E. Dickerson-Lange presents on Northwest Climate Science Center supported research that led to the creation of a conceptual model that paired relevant spatial datasets for considering the combined impacts of forest and climate change across the Pacific Northwest, USA. Predicting the effects of forest on snow storage depends on drivers that vary across locations, such as winter temperature, wind speed, cloudiness, and solar radiation. The net result is that management actions, such as timber harvesting, can have unintended effects on snow storage and duration depending on location. View the webinar recording to learn more about how to use maps of key climate and physical features across Washington, Oregon, and Idaho to optimize snow storage in forest management decisions.
Research support from: Northwest Climate Adaptation Science Center
Resources
Transcript -- Dickerson-Lange 5.24.16
Learn more about this project here
View this webinar to learn how scientists are examining the combined impacts of forest and climate change in the Pacific Northwest.
Date Recorded
Tuesday, May 24, 2016
Summary
Forests strongly influence snow processes and affect the amount and duration of snow storage on a landscape. Therefore, forest changes, from management activities or natural disturbances, have important consequences for spring and summer soil moisture availability, aquatic habitat, and water supply. Accounting for these effects of forest change on watersheds will become even more important under warming climate conditions, which will reduce the amount and duration of snow storage.
In this webinar, Susan E. Dickerson-Lange presents on Northwest Climate Science Center supported research that led to the creation of a conceptual model that paired relevant spatial datasets for considering the combined impacts of forest and climate change across the Pacific Northwest, USA. Predicting the effects of forest on snow storage depends on drivers that vary across locations, such as winter temperature, wind speed, cloudiness, and solar radiation. The net result is that management actions, such as timber harvesting, can have unintended effects on snow storage and duration depending on location. View the webinar recording to learn more about how to use maps of key climate and physical features across Washington, Oregon, and Idaho to optimize snow storage in forest management decisions.
Research support from: Northwest Climate Adaptation Science Center
Resources
Transcript -- Dickerson-Lange 5.24.16
Learn more about this project here