Seagrass-Watch Magazine Issue 47 - March 2013 | Page 9

Documented vessel impacts The most well documented example of widespread vessel impacts to seagrass meadows was derived from an aerial survey of Florida's coastal waters (1). In the 1990s scientists and resource managers began to recognise the value of using aerial remote sensing to observe and monitor shallow water benthic habitats at much larger and more relevant scales than previously attempted, yet still providing sufficient detail for ecological assessment(6). The authors of the Florida study inspected aerial photography covering nearly the entire state's coastal waters and calculated that there was approximately 704km 2 injured by motorised vessels. This rather extraordinary revelation of the magnitude and extent of the damage in Florida eclipsed all of the previous smaller-scale examples(20). Of all the areas in Florida that were impacted by motor vessels, the damage was most extensive in the Florida Keys where the U.S. National Oceanic and Atmospheric Administration (NOAA) had recently established a National Marine Sanctuary (FKNMS), and a damage assessment and restoration program(13). In 2007, 217 reported boat groundings occurred in the FKNMS, with approximately 80% of these in seagrass meadows(13,18). These were only those groundings reported to authorities and did not account for the unreported incidents which could easily double the total number of injuries(13). Funding provided by NOAA, the State of Florida, and non-government organisations led to a series of studies which identified the ecological consequences of vessel damage, rates of seagrass recovery, and the efforts required to physically and biologically restore injured sites(8,10,11,12,13,15,17,18,21). Most notable was the finding that large gaps in meadows of the climax (late-successional) species Thalassia testudinum made by vessel excavations which exceeded 20 cm in depth showed low probability (approximately a 50% chance) of recovery unless they were refilled to grade. Essentially, without sediment re-grading natural recovery was a coin toss, and if seagrass recovery occurred at all it was a slow process of species succession. From this series of studies much was learned about the impacts of motor vessels in tropical seagrasses ecosystems, as well as the response of the seagrass communities to disturbance (15) . Our knowledge about how important seagrasses are in stabilising sediments during severe storms was acutely revealed when tropical cyclone Georges passed through the Florida Keys in 1996. Gaps formed by vessel disturbances expanded significantly, previously stable seagrass meadows that were injured by motor vessels became vulnerable to further degradation by erosion, and natural recovery was interrupted(12,21). These observations prompted studies focused on developing and implementing cost effective techniques for repairing tropical seagrass meadows impacted by motor vessels before they could expand and cause further degradation. Thalassia testudinum meadows are, by far, the seagrass community most seriously threatened by vessel impacts in the subtropical/tropical Atlantic, Caribbean and Gulf of Mexico region. Unfortunately, T. testudinum is the slowest growing species in the community, making it the most difficult and expensive seagrass to restore(8,22,23,24). To improve the probability of recovery, studies were conducted to test the feasibility of utilising wild bird fertilisation (i.e. bird faeces) to provide phosphorus, the limiting nutrient in carbonate sediments(25). Strandings Large vessel aground in a shallow Thalassia testudinum meadow in south Florida, USA. When large vessels run their hulls aground they can create deeply excavated blowholes that scrape and scour away the entire mat of seagrass and the upper layers of sediment, leaving behind a gap of unvegetated, exposed, and unstable substrate. These injuries are often exacerbated by the operator’s attempts to escape the grounding site by powering off the seagrass meadow, causing significantly greater physical and biological damage than the original injury. WK MARCH 2013 9