Forest [FAR1]

Legacy FAR1 strategy/approaches.

Taxonomy Machine Name
niacs_strategy
Taxonomy Alias
far1

A Climate Change Vulnerability Assessment for Focal Resources of the Sierra Nevada

This vulnerability assessment is an initial science-based effort to identify how and why focal resources (ecosystems, species populations, and ecosystem services) across the Sierra Nevada region are likely to be affected by future climate conditions. The overarching goal is to help resource managers and stakeholders plan their management of these focal resources in light of a changing climate. Specifically, this information can facilitate priority setting for management action and responses, helping to sustain optimal conditions for and productivity of focal resources.

The State of Climate Adaptation in Water Resources Management: Southeastern United States and U.S. Caribbean

EcoAdapt report is to provide a brief overview of key climate change impacts and a review of the prevalent work occurring on climate change adaptation in the Southeastern United States and Puerto Rico and the U.S. Virgin Islands (USVI) comprise the U.S. Caribbean region. This report focuses on water resources.

Available Science Assessment Process (ASAP): Sea Level Rise in the Pacific Northwest and Northern California

A synthesis and evaluation of the body of scientific knowledge on specific, on-the-ground climate adaptation actions to determine the conditions, timeframes, and geographic areas where particular actions may be most effective for resource managers. This project identified sea level rise-related adaptation actions applied by resource managers, and evaluated the science behind those actions that may inform - if not improve - coastal planning and management in the Northwest.

EcoAdapt Hawaiian Islands Climate Vulnerability and Adaptation Synthesis

this report is a comprehensive, science-based syntheses of current and projected future climate impacts on, and adaptation options for, terrestrial and freshwater resources within the main Hawaiian Islands. This project is part of the Pacific Islands Climate Change Cooperative's multi-year Hawaiian Islands Terrestrial Adaptation Initiative. Find Vulnerability Syntheses, Adaptation Summaries and Brief reports for each island: Maui, Lāna'i, Kaho'olawe, O'ahu, Hawai'i, Kaua'i.

Using a Riparian Corridor Index to Prioritize Climate Migration Routes in the Pacific Northwest

Habitat suitability in the Pacific Northwest has shifted over the last century forcing organisms to move along climate gradients in order to track the same temperature regime. Riparian habitats have long been cited as a means to facilitate movement of species along these corridors because their microclimates are cooler compared to surrounding areas. Restoring all riparian zones without characterization may overlook some corridors that differ in quality and protection status.

Learning modules - Climate Change Primers

The USDA Forest Service has created comprehensive climate change education modules to help land managers better understand the basic climate change science, the effects of climate change on forest and grassland ecosystems, how we can respond to climate change with management and forest carbon science, policy, and management. Start here to learn about climate change, how it may influence land management, and what options are open to natural resource managers for responding to these changes.

Climate Adaptation Knowledge Exchange (CAKE)

The Climate Adaptation Knowledge Exchange (CAKE) is managed by EcoAdapt and aims to build a shared knowledge base for managing natural and built systems in the face of rapid climate change. Find Adaptation and Vulnerability Assessments and Reports, Case Studies and Tools to help assess climate change impacts relevant to the region and resource area that you work within.

Forest productivity will increase during the next several decades in the absence of significant stressors

Submitted by dshannon on

Some studies have examined the impact of climate change on forest productivity within the region, but they disagree on how other factors such as species composition, stand age, disturbance, or pollution may interact to influence productivity. Changes are not expected to be consistent within a species, and the diversity of forest conditions across the landscape suggests that changes will be spatially variable.