![]() Certain plant species might not be able to handle the sudden shift and die out. Pests like mosquitos, for example, could boom in your community. But something more subtle will also unfold: As the climate changes, so too will the makeup of local ecosystems. “Los Angeles is far ahead of the Bay Area in terms of having put in place incentives to move away from the more water-intensive outdoor landscaping that we still have even in the progressive Bay Area,” says Michael Kiparsky, director of the Wheeler Water Institute at UC Berkeley, who wasn’t involved with this new work.Ĭhanges in rainfall would have serious implications for agriculture, of course. Rich communities have thrown hissy fits when new water requirements meant their lawns would- gasp-turn brown. The Bay Area, which has been historically blessed with more rainwater than its neighbor down south, hasn't been so forward-thinking. The rain capture program reduces its reliance on water piped into the city from afar. So to prepare, the city has begun an ambitious program to capture those huge dumps of water with a network of cisterns built into road medians. Climate models predict that in the coming decades, LA will see fewer, yet more intense rainstorms. The Nature Conservancy in particular provided helpful input on mapping-confidence methods and marsh migration results.San Francisco could stand to learn some water management techniques from its 2080 analog. Special thanks are also extended to the NOAA Digital Coast Partnership for providing comments on the alpha review of the tool. Geological Survey provided the base elevation data used to map Louisiana via its Topographic Elevation Model of the Northern Gulf of Mexico. The Louisiana Coastal Protection and Restoration Authority (CPRA) and LSU AgCenter provided crucial levee data, as well as review and disclaimer information, for mapping layers in Louisiana NOAA Center for Operational Oceanographic Products and Services for providing three-year water level analysis for flood frequency content. The North Carolina Sea Level Rise study team for providing a good forum for discussion of new sea-level-rise risk assessment techniques. The Bureau of Labor Statistics for providing the block group analysis of the Quarterly Census of Employment and Wages. The University of South Carolina Hazards and Vulnerability Research Institute for providing Social Vulnerability Index data. Sponsored by the National Oceanic and Atmospheric Administration and U.S. Proceedings from the Sea Level Rise and Inundation Community Workshop, Lansdowne, Virginia, December 3-5, 2009. State Sea Grant programs―specifically Mississippi-Alabama, Texas, North Carolina, and South Carolina―provided valuable feedback on the development of the second pilot, content on the explanation of sea level rise, and grants for developing and providing Social Vulnerability Index data.Īttendees of the Sea Level Rise and Inundation Community Workshop, Landsdowne, Virginia, December 3-5, 2009.Ĭulver, M. The Delaware Coastal Management Program provided content and feedback in the development of the first of the pilots. The lessons learned from these pilots led to the enhancement of the mapping methods and visual display used in this tool. Geological Survey collaborated with the Office for Coastal Management on the development of two previous sea level rise mapping tools, one in Wilmington, Delaware, and one in Mississippi and Alabama. The University of Hawaii School of Ocean and Earth Science and Technology through the NOAA Coastal Storms Program performed the mapping for Guam, the Commonwealth of the Northern Mariana Islands, and Hawaii. The USGS CoNED Applications Project provided the base elevation data used to map Louisiana via their Topobathymetric Elevation Model of the Northern Gulf of Mexico. The NOAA Office for Coastal Management acknowledges the many organizations that helped guide the development of this tool. ![]()
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