It simply looks through tonnes of dictionary definitions and grabs the ones that most closely match your search query. With large projects, sand from offshore, upland, and ebb shoal sites and natural wave energy for stable beach building, beach and dune habitat can be restored within decades, better preparing threatened animals for rising sea level.The way Reverse Dictionary works is pretty simple. Through field trials and adaptive management principles, ecologists could now develop beach nourishment into a management tool to rebuild lost habitat, restore the sand deficit, and stockpile additional sand before nonessential channels and harbors are allowed to refill. Engineering responses to past objections have improved both habitat suitability and longevity of nourished beaches. Overall, loss of beaches and dunes could approach 130 × 10 6 m 3. Jetties could have redistributed another 70 × 10 6 m 3 from beaches and dunes to inlet shoals. Channels and harbors increased by ∼70 × 10 6 m 3, leaving 60 × 10 6 m 3 of standing sand deficit. Moreover, offshore and upland disposal did not immediately decline. After 1970, beach and nearshore disposal rapidly increased, but generally involved sand already within the system. Until the 1970s most dredged material was placed outside the coastal sand-sharing system (offshore and upland). Most sand disposal accompanied channel and harbor deepening little was primarily for beach nourishment. Dredge-and-fill activities increased after 1950, peaked in the 1980s, then declined somewhat. Dredging and beach nourishment databases revealed sand disposal dynamics and deficit size. Ecological benefits of restoring very large deficits could exceed ecological costs. A sand deficit on Florida's Atlantic coast affects sea turtle nesting, dune ecosystems, and storm protection.
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