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ATTACHMENT A <br /> SCOPE OF SERVICES <br /> INDIAN RIVER COUNTY <br /> ARTIFICIAL REEF MONITORING GRANT <br /> INTRODUCTION <br /> In this project, the grantee will employ and evaluate new methods for assessing nearshore natural and artificial reef <br /> structure and function . The results will be applicable for refinement of beach nourishment programs and <br /> development of more ecologically appropriate structures used to mitigate for loss of hard bottom structure in the <br /> near-shore region as well as improved assessment of beach renourishment impacts on natural nearshore <br /> communities . <br /> The approach will combine traditional visual , video and digital photographic assessment of selected habitats along <br /> with a suite of techniques that hold significant promise for analyzing the physical structure and biological <br /> characteristics of the habitats . Efforts will focus on several natural near-shore reef structures along the Indian River <br /> County coastline and on a 5 acre mitigation reef constructed by the County over the last few years . These new <br /> techniques include two different very high resolution sonar sensors . In addition , direct assessment of fishes will be <br /> performed using existing fishery sampling procedures that are not normally applied in the coastal zone . <br /> Reef sites to be examined include : <br /> 1 ) Mitigation reef, constructed of 42 , 500 tons of limestone boulders and 25 Reef Balls (3500 Ib size) . This reef <br /> is located along reference markers R 91 . 5 to R94 in Indian River county, and the geographic boundaries of the reef <br /> are : <br /> NW corner: 270 37 . 735'N x 800 20 .886' W <br /> NE corner: 27° 37 . 742'N x 80° 20 .866' W <br /> SW corner: 270 37 .261 'N x 800 20 .687' W <br /> SE corner: 270 37 .268'N x 800 20 .666' W <br /> 2 ) Natural reef sites, sectors 1 and 2 , located from R-5 to R-22 in Indian River County. There are six sites within <br /> this area that are of specific interest to the County, along transects from inshore edge of hardbottom habitat <br /> extending 150m offshore at R-5, R-6 . 5, R-8, R-9 . 52 R- 10 .5 , and R-22 . <br /> The high resolution sonar systems are the RoxAnnT system for acoustic ground discrimination and seabed <br /> mapping , and the DIDSONTM system for assessment of the abundance and size distribution of fishes and turtles <br /> inhabiting the region . <br /> The RoxAnnTM system will be mounted on a small vessel for acoustical high-resolution mapping of the selected <br /> near-shore bottom areas . Sand , bare rock, rock with fleshy macroalgal growth , rock with filamentous algal growth , <br /> encrusting sponges, and worm rock are expected to produce clear patterns of acoustic returns due to the <br /> differences in hardness and roughness of the surfaces . Other categories that become apparent from the patterns <br /> in the acoustic data will also be surveyed and ground-truthed to identify corresponding bottom type . Using an <br /> acoustic means of determining bottom type removes our reliance on clear water and calm seas for aerial <br /> photography and direct diver observations, thus allowing us to map bottom areas and quantify benthic habitats <br /> throughout the year to evaluate intra-annual variation in burial and exposure of reef area . Use of the RoxAnnTM will <br /> initially be coupled with standard diver-operated survey techniques , including quadrat analysis using digital <br /> photography, so we anticipate conducting initial operations under calm sea conditions (<2' sea height or less in the <br /> near shore region ) . <br /> The DIDSONT sonar is a high-frequency sonar, initially developed for port security applications, that is rapidly <br /> finding many applications in fishery biology. This sonar uses focused nearly-parallel sound beams to generate <br /> highly detailed "pictures" of stationary structures and moving organisms. Recent trials of the DIDSONTM sonar in <br /> the Indian River Lagoon and St. Johns River demonstrated the ability to count, measure and observe the behavior <br /> Page 9 of 19 <br />