Visit Arches and discover a landscape of contrasting colors, landforms and textures unlike any other in the world. The park has over 2,000 natural stone arches, in addition to hundreds of soaring pinnacles, massive fins and giant balanced rocks. This red rock wonderland will amaze you with its formations, refresh you with its trails, and inspire you with its sunsets.
A rugged, whitewater river flowing northward through deep canyons, the New River is among the oldest rivers on the continent. New River Gorge National River in West Virginia encompasses over 70,000 acres of land along the New River, is rich in cultural and natural history, and offers an abundance of scenic and recreational opportunities.
Denali is six million acres of wild land, bisected by one ribbon of road. Travelers along it see the relatively low-elevation taiga forest give way to high alpine tundra and snowy mountains, culminating in North America's tallest peak, 20,310' Denali. Wild animals large and small roam un-fenced lands, living as they have for ages. Solitude, tranquility and wilderness await.
DOINews: Interior Announces New 2013 Research Projects at the Pacific Islands Climate Science Center
Secretary of the Interior Sally Jewell announced today that Interior's Pacific Islands Climate Science Center is awarding more than $700,000 to universities and other partners for research to guide managers of parks, refuges and other cultural and natural resources in planning how to help species and ecosystems adapt to climate change.
The six funded studies will focus on how climate change will affect natural resources and management actions that can be taken to help offset such change. They include:
Assessing the vulnerability of species to climate change in Hawai'i and other Pacific Island ecosystems by expanding and improving a novel model to identify which plants are vulnerable most to continuing change. This model, developed by federal, state and non-profit organizations, will allow project leads to respond to the needs of resource managers for such species vulnerability assessment to help inform adaptation decisions regionally and locally for some nearly 2000 plant species, and to prioritize their conservation actions.
Understanding how native and non-native Hawaiian forests will respond to climate change to help resource managers plan for and make effective adaptation and other decisions to slow the spread of invasive species and to keep Hawai'i's native ecosystems, streams and forests healthy. Assessing coral reef vulnerability in the Commonwealth of the Northern Mariana Islands in the western Pacific. Climate change poses the single greatest long-term threat to coral reefs and is expected to result in more frequent severe tropical storms and more frequent and severe coral bleaching events. Coral reefs are additionally stressed by human activities, including coastal development and overfishing. This project will assess the resilience potential of coral reefs in the Commonwealth; results will help managers target actions that support and build reef resilience.
Developing a pilot decision-support tool for coral reef management that can map, assess, value and simulate changes in ecosystem services under alternative climate scenarios and adaptation strategies. Ecosystem services are the benefits that people receive from ecosystems such as coral reefs, which provide recreation and food among other benefits. This tool will help decision makers understand the social and economic tradeoffs of their management and adaptation decisions.
Preparing for the impacts of climate change on Pacific Island coral reefs. The research team will use a system of models that will ultimately identify reef areas that are either vulnerable or resilient to the many stressors that the future may hold. Such models can identify areas that might benefit from management actions to minimize local stressors such as land-based pollution, and it will directly provide scientific knowledge to aid in planning for adaptation to climate change.
Providing the best possible projections of future climate change at a regional scale for the islands of Kaui'i and O'ahu. Although the Pacific Islands are notable in their vulnerability to climate change, they have received considerably less attention than more populated areas in climate models. This project will fill that gap in providing downscaled models that will be provided to resource managers for helping them make more effective planning and management decisions.