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Folders: ROOT > ScienceBase Catalog > National and Regional Climate Adaptation Science Centers > Pacific Islands CASC > FY 2014 Projects ( Show direct descendants )

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Hawaiian shorelines and near-shore waters have long been used for cultural activities, food gathering and fishing, and recreation. As seascapes are physically altered by changing climate, the ways in which people experience these environments will likely change as well. Local perspectives of how seascapes are changing over time can help managers better understand and manage these areas for both natural persistence and human use. For this project, researchers conducted interviews and surveys of surfers and other ocean users to gather observations and perceptions of change over time at Hilo Bay, Hawaiʻi. They combined these results with historical data on public beach use and biophysical data from monitoring buoys...
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The beaches of the Hawaiian Islands attract nearly 9 million visitors each year, who inject around $15.6 billion into the state’s economy and support almost 200,000 jobs. Beyond their economic importance, Hawaiian beaches are also culturally and ecologically valuable. However, climate change driven sea-level rise is causing many beaches to disappear, endangering property, infrastructure, and critical habitats. The goal of this project was to develop a method for forecasting erosion-vulnerable beach areas that could be used in coastal management planning. Researchers focused on the island of Kauaʻi, modeling beach response to rising sea level over the next century and producing maps that provide information about...
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Agriculture and agroforestry (tree cultivation) are important activities for the Marshall Islands and other small islands to ensure food security and human health. The Marshallese have a long tradition of interplanting food-producing trees such as coconuts, breadfruit, and pandanus with bananas and root and vegetable crops. Locally grown food crops support community self-sufficiency, promote good nutrition, and can also serve as windbreaks and stabilize shorelines to lessen storm damage and erosion. However, climate change is posing serious challenges for growers, as they struggle to adapt to climate impacts including saltwater intrusion, changing precipitation and temperature patterns, and the spread of invasive...
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Surrounded by saltwater, Hawaiian communities depend on freshwater streams for consumption, irrigation, traditional Hawaiian practices, and habitat for native fish and other stream life. It is important to be able to predict how Hawaiʻi’s streams will be affected by changing rainfall patterns to enable sustainable management of critical freshwater resources. However, to date, limited data and the uncertain effects of climate change have hindered predictions of future streamflow. Through this project, scientists developed a model that provides a way to estimate future stream low flow (streamflow during a period of prolonged dryness) by categorizing streams based on their physical characteristics. While the model...
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As elevation increases, both temperature and moisture availability decrease. In many parts of the world, this decrease in temperature is a limiting factor for vegetation—at certain elevations, the temperature becomes too cold for plants to survive. However in the tropics, moisture availability may play a more important role than temperature in determining the altitude at which forests can grow. For example on Haleakalā, a volcano on the Hawaiian Island of Mauʻi, the forest line is not found at the same elevation everywhere, as you would expect if it were controlled by temperature. Rather, the forest line is highest in the wetter eastern-most end and lower on the drier, western end of the volcano. Research also...
    map background search result map search result map Modeling the Response of Hawaiʻi’s Streams to Future Rainfall Conditions Developing an Agroforestry Dashboard for the Marshall Islands Forecasting Beach Loss from Sea-Level Rise on the Island of Kauaʻi Changing Hawaiian Seascapes and Their Management Implications Measurement of El Niño Southern Oscillation (ENSO)-related Climate Conditions and Ecosystem Responses in Hawaiʻi Forecasting Beach Loss from Sea-Level Rise on the Island of Kauaʻi Changing Hawaiian Seascapes and Their Management Implications Modeling the Response of Hawaiʻi’s Streams to Future Rainfall Conditions Developing an Agroforestry Dashboard for the Marshall Islands