As our oceans continue to warm and to experience heat waves caused by climate change, it is critically important to understand and continuously update our knowledge on where corals persist. Natural reef ecosystems are the most important and geographically extensive homes for remaining corals, but other places may also harbor corals over the coming decades […]
Read More… from Coral Haven Project
Asner Lab partners with the State of Hawaii, NOAA, and local communities to drive new science-based decision-making for coral reefs and fisheries. In less than fifty years, Hawaii’s unique and highly endemic coral reefs have undergone alarming losses in coral extent and health as well as in fish populations. The Hawaiian Islands are now in […]
Read More… from Hawaii Coral Program
Asner Lab maps numerous countries in the Caribbean for conservation planning and management in partnership with The Nature Conservancy in the Caribbean, Planet, and Vulcan Inc. Our lab has produced high-resolution maps of important shallow underwater habitats throughout the entire Caribbean—including all shallow-water coral reefs. For the first time ever, countries and territories now have […]
Read More… from Caribbean Reef Conservation
Land use practices over the last century have drastically altered the extent and composition of native Hawaiian forests. One of the exciting projects the Pacific Ridge-to-Reef team at Arizona State University is actively working on is mapping expansive areas of critically important forests at the species level throughout the Hawaiian Islands. These species maps help […]
Read More… from Mapping Hawaii for Biodiversity Conservation
Forests are the lungs of the Earth: they take in and store carbon dioxide and release the oxygen we breathe. This is something we intuitively understand, but we have not yet developed practical and cost-effective ways of accounting for this value in our economic decisions and transactions. The result is that tropical countries are incentivized […]
Read More… from Global Forest Carbon Monitoring
The Global Airborne Observatory (GAO) is mapping forest conditions throughout the Hawaiian Islands, with a special focus on the detection of Metrosideros polymorpha, (also known as Ohi’a), Hawaii’s most important native tree species. The spread of Rapid Ohi’a Death, or ROD, to Ohi’a trees has increased over the years due to a highly aggressive foreign […]
Read More… from Conservation Management of Hawaiian Forests