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anticipate observing sea turtles that utilize the reef structures, and all turtle encounters will be <br /> documented and reported. The DIDSONT will initially be used in concert with standard underwater <br /> video surveys to directly compare the utility of both methods. <br /> In addition to the new sonar-based and standard visual assessment techniques, direct fishery sampling <br /> procedures will also be employed to determine the species composition and relative abundance of fishes <br /> in the different habitats. Because each type of sampling technique has Inherent limitations, a multi- <br /> faceted sampling program will be used. Sampling methods include beach seines, entanglement nets and <br /> traps. <br /> Seine nets are commonly-used tools for the quantitative assessment of fishes in many habitats. They <br /> are the primary sampling technique used by the FWCC's Fisheries Independent Monitoring Program in <br /> the adjacent Indian River Lagoon and other estuaries throughout the stale. However, current seine <br /> surveys of fishes in and near the surf zone are severely constrained by the difficultles in deploying and <br /> operating standard nets along the shore, especially when sharp drop-offs in the substrate, high surf, and <br /> strong along-shore currents prevent successful seining. Because of the difficulties in using standard <br /> seine survey techniques, the approach will be modified for use on the open coast. We will deploy large <br /> seine nets from a boat, using procedures similar to that employed by shore-based commercial seine net <br /> fishermen. The standard net will be a 300' long x 8' deep center bag seine made of 1 " mesh. To capture <br /> smaller juveniles that would pass through the 1 " mesh of the large net, a 50' long x 6' deep 1/" mesh <br /> seine will be used when surf conciftions permit. These nets will be used to sample surf-zone fishes In <br /> sandy areas adjacent to both natural and artificial reef structures. <br /> Although seines will provide a broad assessment of species within 100' of the shoreline, they will not be <br /> functional in deeper water, nor will they be efficient at capturing some of the species capable of avoiding <br /> the net during deployment. The grantee will seek regulatory permission from the FWCC Special <br /> Activities License Program for limited use of 100' x 6' multi-panel mesh gill nets to be deployed between <br /> moored buoys above reef structures in the targeted areas. The nets will be fished for no more than 30 <br /> minutes at a time, and will be constantly tended to ensure that sea turtles and large fishes are recovered <br /> and immediately released. <br /> To asses the abundance of fishes immediately within or adjacent to the reef structures, two types of i <br /> weighted fish traps will be baited and deployed for 8.12 hour periods from pre-set moorings on sandy <br /> habitats or immediately adjacent to reef habitats. Both of these traps are made of coated wire mesh, and <br /> are designed to capture small to medium sized demersal and bait fishes in saltwater environments <br /> (httpJ/www,catchnbait.com/pinfish-bait-gsh4raps.htm) . The small 11 " x 11 " x 22" trap is made with 0.5"" <br /> x 1 " mesh, and two 1 .5" wide funnel entrances. This low-proffle trap should nestle easily within the <br /> contours of natural reef structures. The larger trap is 18" x 17" x 24" (1 " mesh), with 2" funnel entrances, <br /> The funnel entrances are equipped with °exit wall construction" to hinder fish escape. <br /> Full development of these sampling techniques will enable far more comprehensive analyses of the <br /> physical and community structure of east central Florida near-shore reefs than are presently possible. <br /> The techniques can then be used to Improve our ability to determine impacts of beach nourishment on <br /> the protected coastal reef communities and to assess the function of different types of mitigation reef <br /> designs. <br /> Specific Research Objectives <br /> 1 ) Assessment of Benthic Habitat Structure <br /> a) Gear testing and ground truth analysis: <br /> The RoxAnnT" sonar system will be used to assess the structure and composition of benthtc <br /> habitats in the nearshore natural and artificial reef systems. The Initial surveys will be conducted to <br /> "ground-truth" the RoxAnnTM to verify the signal characteristics of each type of bottom structure. l <br /> These ground truth surveys will he conducted using sequential scanning of specific habitats using the <br /> RoxAnnTM followed by diver surveys using visual assessment, as well as video and still photography. <br /> b) Temporal and spatial assessment of benthtc habitat structure: <br /> , <br /> STATE14ENT ON DISCLOSURE <br />