ALBERT

Description: In collaboration with researchers from FloridaState University, Florida Sea Grant introduces an important but poorly known topic:submarine groundwater discharge. Although nearly invisible, submarinegroundwater discharge influences coastal systems. This brochure helps explain this important phenomenon. (8pp.)

Description: National Sea Grant College Program

Description: Center for Natural Resources, IFAS, University of Florida

Description: NOAA Grant No 76 RG-0120

Description: As a program supporting academic research that addresses recognized societal needs, theFlorida Sea Grant Program is developing a research theme area on estuaries to provide a uniquely academic product that will augment mission-oriented research undertaken by government and bythe private sector. This report is not a call for proposals. It does not prescribe a specific researchplan. Rather, it is a concept paper designed to focus research on two broad "organizing themes":(1) the hydrology of Florida's estuaries, and (2) the impact of cyclic environmental variability onestuarine function. (46pp.)

Description: National oceanic and Atmospheric Administration, U.S. Department of Commerce

Description: This report presents results of field measurements and numerical modeling of thehydrodynamic and sedimentary behaviors at a boat lock located in Section 15, BurntStore Isles of Punta Gorda, Florida. The purpose of the study is to establish thequantities of tidal flows through the lock in comparison with the flows bypassing thelock through other outlets between Section 15 and the Alligator Creek. The amountof sediment and pollutant transporting through the lock are also estimated in thestudy. (Document has 68 pages.)

Description: This is the first of a pair of reports documenting the effects of storms on barrier island systems.The present report (Volume 1) investigates storm effects on natural island conditions whereasVolume 2 addresses the effects of seawalls. With the aim of simulating the effects of overwashon barrier islands and characterizing their response, a series of nine experiments was conductedat the Coastal Engineering Laboratory of the University of Florida. The barrier island wassimulated by a 400 feet wide (prototype units) horizontal crest and an initially planar (1:19)beach. The effects of various storm surge levels and accompanying overtopping were investigated.Experiments were conducted with both regular and irregular storm waves. Regularwaves without overtopping caused the formation of a substantial berm in the swash zone and aprominent longshore bar offshore. Increasing degrees of overtopping resulted in substantial lossof sand from the barrier island system. The longshore bar was considerably more subtle for thehighest water level tested (11.5 ft. above mean sea level). Simulation of a storm-surge hydrographwith rising and falling water levels indicated that the presence of the bar tends to occuronly during a relatively steady or slowly changing water level. The experiments with irregularwaves were conducted with reasonably similar wave heights and carrier periods as those withregular waves. The major difference was in the characteristics of the longshore bar response. Incomparison with cases with regular waves, the bar was less distinct without overtopping, subtlewith minimal overtopping and absent in cases with substantial overtopping. These experimentsseem to indicate that offshore bars are simply break-point bars which require a fairly steadybreak-point and undertow (return of mass transport) for optimal formation. (Document has 84 pages.)

Description: Department of Civil and Coastal Engineering, University of Florida

Description: Prepared for: Beaches and Shores Resource Center Innovation Park, Morgan Building Box 9 2035 East Paul Dirac Drive Tallahassee, Fl 32304

Description: This thesis examines the historical shoreline response to inlet modifications and sealevel rise. Inlet modifications are considered to be the geographic stabilization and training(through the use of structures) of natural inlets and the creation and further modification ofartificial inlets. Shoreline response to natural and artificial processes must be understood inorder to predict the performance of the coastline. The tendency for creating and modifyinginlets increases as industry and population growth demands. Sea level rise is a natural processwhich cannot be controlled at this time. Current theoretical approaches to predictingshoreline response indicate that sea level rise and inlet modifications can cause substantialshoreline impact. Florida, with roughly a century of shoreline position and relative sea leveldata, provides a basis for examining past trends and comparing them with theory.The shoreline of Florida was found to be accreting with the greatest accretion alongthe east coast. Shoreline responses within the boundaries of the erosional influence of inletsdue to their creation and/or modification were examined for 19 inlets around the coast ofFlorida. The differences in the shoreline response before and after the initial modification ofeach inlet show the erosional strain that inlets apply on the nearby shoreline. The effect onshoreline response due to the human intervention (unnatural processes) of modifying inletswas isolated and examined. The shoreline response due to this "human intervention" was erosional, thereby showing the negative impact that modified inlets have on shorelines. Thisinduced erosion is responsible for the loss of roughly 21.6 million cubic yards of sand from theshoreline that is within the erosional influence of Florida's east coast inlets. Combining theshoreline changes due only to natural processes with sea level rise data allows for comparisonwith the commonly accepted Bruun Rule for shoreline response as a result of a changingsea level. This comparison and the effects of including a lag time between a rise in sea leveland a change in shoreline along the east coast of Florida during the last century show noagreement with the Bruun Rule and no correlation with a specific lag time. (Document has 153 pages.)

Description: This is the second of a pair of reports documenting the effects of storms on beach systemsincluding the presence of seawalls. With the aim of simulating the effects of overwash onbarrier islands with seawalls and characterizing their response, a series of eight experimentswas conducted at the Coastal Engineering Laboratory of the University of Florida. The barrierisland was simulated by a 400 feet wide horizontal crest and an initially uniform mildly-sloped(1:19) beach. The effects of positioning the seawall at two different locations as well as the effectsof various storm surge levels and accompanying overtopping were investigated. Experimentswere conducted with both regular and irregular storm waves. With the seawall located at theslope break between the crest and the sloping beach of the barrier island, and the crest of theseawall just submerged in sand, the effects on the sediment transport process were found to beminimal. For the same position of the seawall but with the crest of the seawall raised above thesurrounding ground level, overtopping caused washover of sand indicating substantial transportin suspension. Increased levels of overtopping tended to accentuate bed profile changes butsupress bar formation (as did irregular waves). Positioning the seawall at the Mean Sea Levelshoreline caused significant scour both immediately landward as well as immediately seawardof the seawall. A prominent scour trough developed further seaward. The longshore bar washighly three-dimensional. It appears that seawalls need to be located adequately landward of theshoreline to discharge their function effectively without adverse effect to the beach. In addition,concerns for safety warrant the presence of an adequate buffer-zone between the seawall andthe upland property. (61 pp.)

Description: Prepared for: Beaches and Shores Resource Center Innovation Park, Morgan Building Box 9 2035 East Paul Dirac Drive Tallahassee, Fl 32304

Description: Red imported fire ants (Solenopsis invicta) invaded peninsular Florida morethan 30 years ago. Highlands and Polk counties, Florida, were probably first invaded inthe late 1960s. Since then, fire ants have continued both to spread and to increase inabundance. Experimental evidence has shown that red imported fire ants may have adetrimental impact on native species, both invertebrate and vertebrate, and that theseimpacts may be both direct and indirect. This segment of research was designed todetermine if fire ants have a negative impact on Florida grasshopper sparrow(Ammodramus savannarumfloridanus) populations at Avon Park Air Force BombingRange, Florida. The sampling reported herein was conducted during June and October,1997, and all analyses are restricted to data collected during those periods. As assessedby baits, fire ants were dominant on about half the sites, and absent from others. Inparticular, OQ Range sites tended to have fewer fire ants present, while Delta Trail siteswere more heavily infested, although there were exceptions. June fire ant abundance wasstrongly negatively correlated with both native ant abundance (r = -0.743, P = 0.006) andnative ant species richness (r = -0.730, P = 0.007). October fire ant abundance wasstrongly negatively correlated with both native ant abundance (r = -0.690, P = 0.013) andnative ant species richness (r = -0.736, P = 0.006). The patterns of fire ant abundance asassessed by pitfalls were very similar to those determined from bait sampling. June fireant abundance was negatively correlated (p 〈 0.05) with native ant richness, but otherJune comparisons were not statistically significant (P 〉 0.05). October fire antabundance was negatively correlated (P 〈 0.05) with native ant richness and abundance,but other comparisons were not statistically significant (P 〉 0.05). There was nosignificant correlation between overall insect biomass as assessed by light traps and fireant abundance as assessed by baits or pitfalls. Total biomass varied considerably amongthe two sample periods because of changes in overall insect abundance during differentseasons. There was a negative spatial correspondence between fire ants and nativeinvertebrates. Over most of the intensive study areas, there was a negative spatialrelationship between fire ants and the abundance of native invertebrates. Over about50% of the intensive study areas, there was a negative spatial relationship between fireants and the abundance of Florida grasshopper sparrows, although the relationship wasnot as strong as that between fire ants and native invertebrates. Fire ant and nativeinvertebrates were negatively correlated at grasshopper sparrow count locations (r =0.347,P = 0.03). A multiple regression model was fit to the data, using fire ants andnative invertebrates as independent variables, and grasshopper sparrow 100-m populationestimates (n = 39) as the dependent variable. The influence of fire ants on grasshoppersparrows was negative while the influence of native invertebrates was positive.However, the overall model, while suggestive, was not significant (r = 0.304, P = 0.17).Fire ant abundance was a better (negative) predictor of sparrow populations (P = 0.13)than was invertebrate abundance (P = 0.59). The overall model and influence of fire antson sparrow populations was suggestive of a negative influence warranting analyses ofdata for 1998 and 1999. (Document has 93 pages)

Description: Research Work Order no. 175

Description: Final report.

Description: The value of the natural resources of the White River Basin (Basin), AR isrecognized by the area's designation as a "Wetland of International Importance". TheBasin constitutes one of the Nation's largest remaining intact forested wetlandlandscapes, second only to the Atchafalya Basin. It supports the North Americancontinent's largest concentration of over-wintering mallard ducks, a world-class troutfishery, the last vestige of a big river fishery remaining in the Mississippi River Basin,and numerous threatened and endangered species. The continued viability of thiswetland ecosystem depends on the suitability of the hydrologic environment to theresident flora and fauna. Numerous modifications of the Basin hydrologic features in thepast century have seriously impaired the sustainability of these resources. The Basinwidealterations of hydrologic processes (e.g., impoundment and regulatory releases offlows and volumes in the upper reaches, navigational modifications of lower reaches, andconsumptive demands for agricultural use throughout) have affected the hydrology of thesystem profoundly. The result is highly regulated flows and stages, vastly alteredhydrologic patterns, over-stabilized water levels, and disruption of seasonal waterdistribution patterns. Given the critical nature of hydrology in regulating the structureand function of wetland ecosystems, the impacts have been devastating, particularly tothe critical bottomland hardwoods that support the Basin's fish and wildlife resources.To date these piece-meal, system-wide, hydrologic alterations have cornmutativelydegraded the habitat value of this resource for fish and wildlife in the Basin, and havelead to changes in their numbers and distributions. In spite of the enormous stakesinvolved, there has been no comprehensive characterization of the Basin hydrology.System alterations such as channel deepening, dam construction, water allocationplans, and flood control measures are currently pending. These projects will potentiallyhrther modify the hydrologic environments of the Basin, and no doubt require mitigationmeasures. In addition, there is genuine interest in restoring aspects of the Basin's historichydrologic regime within some set of reasonable limits. In order to proceed with thiseffort, the anticipated effects of these modifications and restorations on the Basin ecologyrequire thorough study of the area's historic hydrology, so that connectivity among Basinprecipitation patterns, flow fluctuations, and land use changes can be made. A basinhydrologic characterization is an initial component of this effort. The focus of this effortwas to determine and assemble the data set from which characterization of the hydrologicenvironments of the Basin using historic and recent water level, flow, (primarily byUSGS-WRD) at locations throughout the Basin could proceed. ( Document has 11 pages.)

Description: Research Work Order no. 203

Description: The following discussion presents information on human-made reefs and their role--as one tool of many--in the management of both fisheries and habitat. Principal subjects covered in this paper include a definition of marine habitat improvement and determination of its attainment, the present applications of reef construction technology to environmental situations both generally and in three case-studies, and suggested desirable attributes for incorporation into future use of this technology. (PDF has 11 pages.)

Description: Authors’ note: This document was the basis for a keynote presentation at the 2004 World Fisheries Congress, in a session on Marine Fisheries Habitat Improvement. Several of the slides shown there are included here, without captions.

Description: (PDF has 125 pages.)

Description: Current plant canopy wind flow models require three aerodynamic parametersto predict the effects of wind on sand transport--the plant drag coefficient, Cd, the leafarea density profile, LAD, and the turbulent eddy transfer coefficient, 6,. The LADand Cd characterize the plant canopy and its effects on air flow and, prior to thisstudy, data on these parameters for dune vegetation did not exist. The purpose of thisstudy was to design and test a methodology for measuring the wind drag coefficient ofcoastal dune plants. The objectives were 1) to measure and record the parametersneeded to calculate Cd, namely, the force, relative velocity and air temperature; 2) tomeasure the leaf area density of sea-oats; 3) to validate the method by measuring thequantities needed to compute the drag coefficient for a right circular data exists; and 4) to explore the Reynolds number dependence of the canopy dragcoefficient. (This document has 76 pages.)

Description: Masters

Description: UFL/COEL/92/017

Description: The recreational boating industry is an important component of Florida's economy. Previous Florida Sea Grant College supported research has documented this economic importance to the state's economy in 1980 (see Milon and Riddle, 1983, and Milon et al. 1983). Since that initial research, the manufacturing, retailing, and service sectors comprisingthe industry have continued to grow and prosper as the state's resident and tourist populations increased. This report is an update on the economic significance of the recreational boating industry in Florida since 1980 based on economic indicators of change within the industry. (21pp.)

Description: There is a critical need for accurate data in order to make decisions regarding the construction, emplacement, and further development of artificial reefs in the State of Florida.This study looked a biotic and abiotic parameters of articifial reefs. A data matrix listing reefs on the vertical axis and the associated biotic and a biotic data or attributes available from published and non-pub1ished sources on the horizontal axis created: 1) a compilation of what data were available; 2) an indication of the completeness and extensiveness of the data; 3) a summary of the descriptive statistics of the data; 4) a preliminaryanalysis of the relationship among the biotic and abiotic parameters through correlation analysis; 5) some preliminary modeling of the artificial reefs to form the basis of prediction through stepwise and multiple linearregression analysis. (29pp.)

Description: It has been the purpose of this project to provide the basic biological and geological data together with summary guidelines which will allow the Florida Dept. of Environmental Regulation and project engineers to make the necessary permitting and design decisions for beach nourishment project in worm reef areas. The present workseeks to determine the tolerance of P. lapidosa tosediment burial, the tolerance of these organisms to exposure to hydrogen sulfide, the tolerances of these organisms to heavy silt loads in the water, etc. (37pp.)

Description: The present project was undertaken for the purpose ofestablishing whether a change in harvesting technique -- cutting rather than tearing the sponge loose-- could insure sponge regeneration and thus reducethe possibility of overfishing in the Florida Keys. (14pp.)

Description: IR-82-15

Description: The purpose of this report is to develop and illustrate with examples readily appliedmethodologies for calculating the response of shorelines in the vicinity of beach nourishmentprojects. The need for such methodology is a result of Florida Statutes 161.053(G) and Rule16B-33.024(3)(e) which require, with minor exceptions, coastal structures to be locatedlandward of a thirty- year projection of the Seasonal High Water Shoreline (SHWL). (163pp.)

Description: Prepared for: Division of Beaches and Shores Florida Department of Natural Resources 3900 Commonwealth Boulevard Tallahassee, FL 32399

Description: The critical need to predict the turbidity in water due to fine-grained sediment suspensionunder wave action over mud deposits for sedimentation and erosion studies, as well assorbed contaminant transport, is well known. Since fall velocities of fine sediment particlesare very small, they can be easily transported by hydrodynamic flows such as waves andcurrents. The presence of these particles in the water column affects accoustic transmission,heat absorption and depth of the eutrophic zone (Luettich et al., 1989). Because these sedimentsalso have a strong affinity for sorbing nutrients and toxic chemicals, sediments whichhave been deposited on the bottom may function as a source of contaminants to the watercolumn if they are disturbed by eroding forces resulting, for instance, from wave action. Anoutstanding example of a water body for these problems is Lake Okeechobee, the largestshallow lake in Florida. This lake shows typical signs of artificial eutrophication mainly dueto increased phosphorus loading associated with the surrounding region. Resuspension of sediment at the bottom of Lake Okeechobee composed of fine-grainedmaterial has been examined. A sediment transport model was used to simulate likelytrends in the evolution of the vertical suspended sediment concentration profile resultingfrom wave action, and the corresponding eroded bed depth was calculated through massbalance. Requisite information on characteristic parameters and relationships related tofine sediment erodibility were derived from field sampling of bottom sediment in the lake,and through laboratory experiments using this sediment and lake water. (161pp.)

Description: South Florida Water Management District

Description: A method is presented and illustrated with examples to establishappropriate storm damage reduction and recreational benefits frombeach nourishment projects. Unlike previous methods, benefits toproject adjacent areas are recognized due to sand transport out of theproject area and deposition on adjacent beaches. (31pp.)

Description: This study has evaluated the volumes of beach quality material availablefrom the dredging planned for the deepening of the Pensacola Bay EntranceChannel. Recommendations have been made for volumes and configurations ofplacement on portions of the Perdido Key Unit of Gulf Islands National Seashore. (52pp.)

Description: National Park Service

Description: Prepared For: National Park Service 75 Spring Street, SW Atlanta, GA 30303

Description: This report examines the regulation of mosquito control activities in Florida and makeslegal and institutional recommendations to improve protection of non-target estuarine and marineorganisms.Some of the more important recommendations for modification of mosquito control inFlorida include: clarification of ambiguous mosquito control pesticide labels; strengthening ofsurveillance and reporting requirements; strengthening of enforcement efforts and authority;increased use of Integrated Pest Management techniques; development of alternatives topesticides; increased research to assess the effects of pesticides on non-target organisms;increased funding, particularly for public education, research, and enforcement; utilization ofadministrative and judicial remedies if warranted; and public education. (132pp.)

Description: Florida Department of Natural Resources

Description: Project Number R/FDNR-3A, Florida Department of Natural Resources

Description: The Florida Bay Science Conference provides an opportunity annually for researchers toexchange technical information, share that information with resource managers and otherinterested conference attendees, and establish collaborative partnerships. This year’sconference allows investigators from more than 90 research and monitoring projects theopportunity to highlight their findings in platform and poster presentations.

Description: This report is to document the programs my colleague and I developed for computingtime-dependent nearshore hydrographic changes including beach profile responses.The time scale of the model is suitable for storm events to seasonalchanges, currently up to one year period. The model is very stable and is capableof handling complicated topographies including inlets and irregularly-shapedstructures such as curved jetties and breakwaters.The purpose of three-dimensional models is to predict the change of bottomtopography from the spatial distribution of the sediment transport rates, which areevaluated from the nearshore wave and current fields computed point by point insmall areas defined by a horizontal grid placed over the region of interest. Modelsof 3-D beach topography change require much fewer idealizations than do the linemodels. (Document has 43 pages.)

Description: The purpose of this study is to provide a better basis for understanding manatee winter abundance andhabitat use patterns along the northern limit of the species' range, thepurposes of this study were to: a) document the degree and nature of manateeuse at two Jacksonville power plants, b) determine the influence of air andwater temperature on manatee use of the plants, c) identify and photographindividual manatees observed in the outfalls, d) document site fidelity, ande) document any local and/or long distance manatee movements. (67 page document)

Description: Prepared for: U.S. Fish and Wildlife Service 75 Spring Street. S.W. Atlanta. GA 30303

Description: The purpose of this study was to determine how the dynamic system off Cape San Blas affects its unique group ofnesting sea turtles we assessed:1. changes in beach topography,2. changes in offshore topography,3. current flows and direction,4. tidal patterns,5. sand composition and origin,6. sea turtle nesting pattern, and7. structure of the sea turtle group nesting along Cape San Blas. (9 page document)

Description: Research Work Order no. 197B

Description: Project status report. Final report.

Description: Eglin AFB on Cape San Blas consists of approximately 250 acres located about180 miles east of the main Eglin reservation. This area lies on the S1. Joseph peninsula,part of a dynamic barrier island chain that extends across the northern Gulf of Mexico.Due to the natural forces that formed Cape San Blas and those that maintain this area, St.Joseph Peninsula has experienced severe land form change over time (see GIS land formchange maps). These changes allow for fluctuations in habitat types along Cape San Blas(see GIS land cover change maps)that influence the floral and faunal species using thisarea.The dynamic environment along Cape San Blasincludes flatwoods, interdunalswale, rosemary scrub, and beachfront. These habitats support a wide array of species,including several threatened and endangered species such as the loggerhead sea turtle(Caretta caretta), PipingPlover (Charadnus melodus), Least Tern (Sterna antillarum),and Bald Eagle (Haliaeetus leucocephalus). Proper management of these species and theirhabitats require knowledge of their abundance and distribution, and the effectsdisturbances have on their survival.In addition to threatened and endangered flora and fauna, Cape San Blas alsosupports tourists and recreationists. Although Gulf County is sparsely populated, withapproximately 13,000 inhabitants throughout 578 square miles, summer tourism and heavyrecreational use of beaches for fishing, crabbing, and shelling place continued andincreasing pressure on the natural resources of these areas (Rupert 1991). Gulf County isalso one of the few remaining counties in Florida that permits vehicular traffic on itsbeaches, including Cape San Blas. In addition to recreational use of these habitats;EAFBalso uses the area for military missions. Air Force property on Cape San Blas is primarilyused for radar tracking of flying missions over the Gulf of Mexico, although in recentyears it has been used for missile launchings and other various military activities.To allow continued military and public use of Air Force property while alsoprotecting the unique flora and fauna of the area,EAFB proposed a characterization of theresources found along Cape San Blas. A complete inventory of the physical features of thearea included investigating topography, soil chemistry, hydrology, archeology, and thedynamics of land mass and land cover change over time. Various thematic layers within ageographic information system (GIS) were used to spatially portray georeferenced data.Large scale changes over time were assessed using stereo aerial photography. Vegetationtransects, soil samples, elevation transects, an archeological survey, freshwater wells, anda tidal monitor were used to investigate the remaining features. (247 page document)

Description: 79 page document.

Description: Supported by: U.S. Department of the Interior Fish and Wildlife Service Contract No. 14-16-0009-80-038

Description: Registered boats less than 26 feet in Florida have expanded from 449,995 in 1982 to 620,548 in 1993,a 38 percent increase. Boats of this size are likely to be trailered to boat ramps for access towater bodies in and around the state. This increased demand for boat ramps has been accompanied bymany studies and surveys indicating a need for more public boat ramps and that existing ramps needimprovement. This report covers boat ramp issues and boaters' willingness to pay for manatee protection. (106pp.)

Description: National Oceanographic and Atmospheric Administration, U.S. Department of Commerce

Description: NA 36RG-0070,

Description: The objectives of this study were 1) to determine the maximum structure-inducedlocal sediment scour depths for the proposed bridge piers for the Merrill BarberBridge over Indian River on.State Road 60 in Indian River County, Florida and 2) todetermine the feasibility of predicting equilibrium local scour depths near complexmultiple pile bridge piers from bottom shear stresses on the prescoured bed. Aseries of hydrodynamic tests were conducted in a laboratory flume (100 ft long x 8 ftwide x 2 ft deep) where flow velocities near model piers were measured with a twocomponent constant temperature anemometer at a height of 3 mm above the bed. Bottomshear stresses were then estimated from the flow measurements. The piers (which are1/15 scale models of proposed Merrill Barber Bridge piers) consisted of thirtysixsquare piles (3 columns of 12) and a pile cap that was positioned at differentelevations above the bottom. Two different pile cap shapes were also considered. Asimple relationship between the prescoured bottom shear stress and the equilibriumlocal scour depth was postulated.Sediment scour tests were then conducted in the same flume with the samemodels. The average duration of these tests was 28 hours. Scour depths weremeasured periodically throughout these tests using an acoustic transponder. Thescour measurements were used 1) to establish the maximum scour depths for the MerrillBarber Bridge piers and 2) to calibrate and test the scour-shear stress relationship.Even though the range of conditions tested was somewhat limited, the approach appearspromising and should be pursued further. A number of interesting findings were maderegarding the rate at which scour occurs in these complex structures. (Document contains 134 pages.)

Description: This report presents the results of laboratory studies which were carried out in the Coastaland Oceanographical Engineering Laboratory to investigate the effects of ground water tableelevations on the beach profile changes over the swash zone. The experiment was conducted atthree different water table levels while the other experimental conditions were fixed to constantvalues with regular waves. The water table levels included (1) normal water table level whichis the same as mean sea level, (2) a higher level and (3) a lower level than the mean sealevel. Special attention was given to the higher water level to investigate whether this levelenhances erosion of the beach face and also to methods of interpreting the experimental data.The experiment described herein was carried out with a fairly fine sand and has demonstratedthe significance of beach water table on profile dynamics. The increased water table levelcaused distinct effects in three definite zones. First, erosion occurred at the base of the beachface and the sand eroded was carried up and deposited on the upper portion of the beachface. Secondly, the bar trough deepened considerably and rapidly and the eroded sand wasdeposited immediately landward. This depositional area changed from mildly erosional tostrongly depositional. Third, the area seaward of the bar eroded with a substantial deepening.The lowered water table appeared to result in a much more stable beach and the resultingeffects were much less. The only noticeable trend was a limited deposition in the scour area atthe base of the beach face. (Document has 37 pages.)

Description: The feeding ecology of Black Skimmers (Rynchops niger) wasstudied at Cedar Key and St. Vincent's National Wildlife Refuge on the Florida Gulf coast during the winters of 1979 and 1980, respectively. Objectives of the study were to: 1) delineate characteristics of Black Skimmer winter feeding habitat, 2)monitor the prey resource and prey selection by wintering Black Skimmers, 3) describe social, temporal and spatial aspects of winter foraging, and 4) develop recommendations for Black Skimmer feeding habitat management. (Document has 92 pages; not full text searchable)

Description: Cape San Bias is located on a barrier spit, St. Joseph peninsula, between St. Joseph Bay and the Gulf of Mexico in Gulf County, Florida (Fig. 1). Locally, the name of the cape is often used to refer to the entire peninsula. St. JosephPeninsula State Park (SJPSP) comprises the northern 10 miles of the 22 mile-long peninsula. This section is closed to development and provides protection for representative coastal habitats, including sand dune and scrub pine. Two other parks are found on the peninsula, Joe B. Rish Park, a state-managed facility for the handicapped, and county-managed Salinas Park. Much of the cape itself fallsunder the domain of Eglin Air Force Base (AFB) (775 acres), and includes 2.8 miles of shoreline. The remainder of the peninsula is privately owned land developed principally for beach residences. All beach on the peninsula below mean highwater is state-owned with Gulf County exercising proprietary jurisdiction. Cape San Bias (outside the state park) is the only area in the Florida panhandle, other than short stretches of shore in Walton County, where beach driving is still allowed. Vehicular access to the shore is managed by Gulf County under a permit system. Although beach driving is valued by local surf anglers and beachfarers, concerns have been raised regarding its effects on beachfarer safety, habitat quality, and wildlife, particularly locally occurring species that are federally listed as endangered or threatened. Eglin AFB property on the cape is believed to provide important regional habitat for a variety of nesting and migrant shorebirds, as well as nesting loggerhead marine turtles (Caretta caretta). The objectives of this study were to (1) determine the magnitude and types of vehicular traffic on Eglin AFB property; (2) assess current knowledge of federally listed species on Cape San Bias to determine distribution, habitat needs and other biological requirements; (3) conduct surveys of marine turtle nesting activities in cooperation with other entities on the peninsula; (4) assess the relationship between human/vehicular disturbance and the federally listed species; (5) conduct a winter survey of federally listed shorebirds on Air Force property; and (6) providemanagement options. (Document has 58 pages)

Description: Seasonal fluctuations in rainfall occur naturally in Florida, historically producing correspondingly large intra-annual and inter-annual fluctuations in lake water levels. As a result, "normal" lake levels are elusive; the norm is for wide fluctuations, a pattern which earned them the descriptive title, "astatic", or unstable (Brenner et. al. 1990). Lake Kissimmee, in Osceola County, FL, had a mean average water level fluctuation of 1.4 meters, but over several years varied as much as 3.7 meters (Grocki 1975).The substrate and vegetative communities, in part, reflect the pattern of hydrologic fluctuations, their timing, duration, and frequency. Topographic variability in lake systems, coupled with their hydrologic patterns, yield a mosaic of shrubby, emergent and submerged plant habitats in the littoral zone of the lake. Fish and wildlife have adapted accordingly, and successfully forage and reproduce in these highly fluctuating systems. Installation and operation of water control structures over the past 40 to 50 years have dampened the degree of hydrologic fluctuations in many Florida lakes, resulting in long term stabilization oflake levels [Holcomb and Wegener 1971, Wegener et. al. 1974, Fox et. al. 1977, Moyer and Williams 1982, Florida Game and Fresh Water Fish Commission (GFC) 1995]. The mean annual flux on Lake Kissimmee was reduced from 1.4 meters to 0.9 meters (Wegener et al 1973). In addition, increased nutrient inputs to Florida's watersheds from agricultural and urban development have resulted in lake eutrophication (Wegener et. al. 1974, Moyer and Williams 1982). As nutrients increased and water levels stabilized, rooted aquatic macrophytes expanded and organic debris accumulated to form undesirable lake substrates. Fish populations suffer from drops in accumulated to form undesirable lake substrates. Fish populations suffer from drops in dissolved oxygen associated with decaying algae and plant matter, the alteration of plant community composition, and poor habitat quality of the substrate (Wegener and Williams 1974).To remedy these problems in Florida lakes, the Florida Game and Fresh Water Fish Commission initiated a lake restoration program in 1971 which emphasizes the use of a lake draw down to expose sediments (GFC 95). The objective ofthe program is to reduce undesirable plant species, expand desirable plant communities, and consolidate flocculent organic sediments (Holcomb and Wegener 1971, Wegener et. al. 1974, Fox et.al. 1977, Cooke 1980, Tarver 1980, GFC 1995). In addition, muck removal operations following lake level draw downs are meant to resolve the problem of extensive build up of organic sediments (GFC 1995, Moyer et. al. 1995). The goal of the draw down and restoration activity is to improve aquatic habitat in support of fisheries and wildlife whileimproving lake quality for recreational usage (e.g. sport fishing) (Wegener and Williams 1974, Tarver 1980,. GFC 1995). The Florida Game and Fresh Water Fish Commission (GFC), in cooperation with the South Florida Water Management District (SFWMD), conducted a draw down ofLake Kissimmee from December 1995- June 1996, dropping lake levels by approximately 1.7 meters. The Lake Kissimmee draw down provided an excellent opportunity to investigate the impact of management techniques on an invertebrate which is a critical component of the central lakes food web, the Florida apple snail (Pomacea paludosa, SAY). Although data on the responses of some invertebrate species 2 to draw downs in central Florida are available (Wegener et. al. 1974, Fox et. al. 1977, Butler et. al. 1992), no published studies document the responses of P. paludosa. The Florida apple snail belongs to the tropical family of aquatic snails, Pilidae, which inhabitant wetland areas in Florida, Central and South America, Africa and India. Most Pilidae habitat typically (under natural hydrologic patterns) experiences a seasonal dry down, and the Florida apple snail is no exception. Pilidae snails utilize both a lung and gill for respiration (Andrews 1965). The dual respiratory system enables these animals to tolerate daily and seasonal dissolved oxygen fluctuations, permits egg-laying above water level (eggs thus avoid hypoxia and predation), and, in some Pilid species, enables adults to maintain aerobic respiration during the dry-season (McClary 1964, Burky et al. 1972, Aldridge 1983). Apple snails are critical components of lake food webs in Florida. They are prey to alligators (Alligator mississippiensis)( Delany and Abercrombie 1986), fish (Lepomismicrolophus)(Chable 1947), turtles (Trionyxferox) (Dalrymple 1977), and ibis (Eudocimus albus)(Kushlan 1974). Apple snails comprise over 75% ofthe diet of the limpkins (Aramus guaraunaXCottam 1942), and nearly 100% ofthe diet of endangered snail kite (Rostramus sociabilis)(Snyder and Snyder 1969). Although the majority of the snail kite population occupies wetland habitats in south Florida throughout the year, they have been found to emigrate from this area when the dry season escalates into a prolonged drought (Beissinger and Takekawa 1983, Bennetts and Kitchens 1997). Researchers have identified the central lakes system as a critical refuge for the snail kite during these droughts (Beissinger and Takekawa 1983, Bennetts and Kitchens 1997). In 3 addition, the kites have been consistently nesting (even in non-drought years) on LakeKissimmee and Lake Tohopekaliga since the early 1980's, providing further support (in the form of suitable foraging and nesting habitat) for the endangered kite population(Beissinger and Takekawa 1983, Bennetts and Kitchens 1997).The impetus for the Lake Kissimmee draw down is habitat improvement for fisheries and wildlife (GFC 1995). A conservation priority ranking system for Florida wildlife identifies the snail kite and limpkin, largely due to their specialized diet of apple snails, as deserving special attention for monitoring and management (Milsap et. a1.1990).Moyer et a1. 1991 specifically recommended an evaluation ofthe impact of lake draw downs on apple snails. In this report we present the findings of a three-year studyofthe immediate and long term impacts ofthe Lake Kissimmee draw down and restoration activity on apple snail populations. The objectives ofthis research are asfollows:• To study the impacts oflake restoration activity (e.g. draw down, muck removal)on snail populations in several sites throughout the lake by assessing pre-drawdown and post-draw down snail abundance~• To study the movement patterns of snails to find out what proportion ofthepopulation migrates to deeper water or become stranded in the dry down area aslake levels recede;• To study the capacity for snails to survive in dry down conditions (Document has 55 pages)

Description: One and two-dimensional, second order turbulence plant canopy flowmodels were developed for the purpose of estimating the effect ofcoastal vegetation on wind blown sand transport. The computer programthat solves the governing differential equations uses measured leafarea density profiles and drag coefficients for crop plants similar inshape and size to the more common coastal vegetation in Florida. (Document has 57 pages.)

Description: The mechanism by which fluid mud is formed by water wave motion over coastal andestuarine cohesive soil beds is of evident interest in understanding and interpreting themicrofabric of flow-deposited fine sediments in shallow waters, and hence the erodibilityof muddy beds due to hydrodynamic forcing. This study investigated water wave-inducedfluidization of cohesive soil beds composed of a 50/50 (by weight) mixture of a commercialattapulgite and a kaolinite in a laboratory flume. Temporal and spatial changes of theeffective stress were measured during the course of wave action, and from these changesthe bed fluidization rate was calculated. A previously developed hydrodynamic wave-mudinteraction model of the two-layered water-mud system was employed to study the natureand the degree of wave dissipation, in terms of energy dissipation rate, during the bed fluidizationprocess. By evaluating the mud rheological properties separately, a mud viscositymodel was developed, which was then used in conjunction with the wave-mud interactionmodel to obtain an effective sheared thickness of the bed resulting from wave action. Thisthickness, considered to be a representative of the fluidized mud thickness, was comparedwith the latter obtained from pressure measurements. Also, through this wave-mud modelthe relationship between the rate of fluidization and the rate of wave energy dissipationduring fluidization was examined. In general, for a given wave frequency, a larger wave fluidized the bed at a faster rateand to a greater depth than a smaller one. Furthermore, increased bed consolidation timedecreased the rate of fluidization due to increased mud rigidity. The rate of bed fluidizationwas typically greater at the beginning of wave action and decreased with time. Eventuallythis rate approached zero, while in some cases the wave energy dissipation rate approached aconstant value, which increased with wave height. As the fluidization rate approached zero,there appeared to occur an equilibrium value of the bed elevation, and hence a fluid mudthickness, for a given wave condition. During the fluidization process the bed apparentlylost its structural integrity by loss of the effective stress through a build-up of the excesspore water pressure. After wave action ceased, the bed structure exhibited recovery bydissipation of the excess pore water pressure.Further studies will be required in which the hydrodynamic model must be improved viaa more realistic description of mud rheology and relaxation of the shallow water assumption,and better pressure data must be obtained than in the present study. Nevertheless, thisinvestigation has been instructive in demonstrating relationships between the degree of mudfluidization, wave energy dissipation and bed consolidation time, and thus offers insight intoan important mechanism by which coastal and estuarine muds are eroded by wave action. (Document has125 pages.)

Description: Thesis, M.S., Engineering

Description: Water Conservation Area 3 is the largest of the water conservation areas covering approximately 2442 km2 (914 mi2). The habitats within this area of central Evergladesmarsh range from sloughs and wet prairies to sawgrass, brush, and tree islands. Elevation in WCA 3 ranges from 4 m (13 ft) in the north to 2.4 (6 ft) in the south (Schortemeyer 1980). This elevation gradient along with micro-elevation patterns, fire, and water management practices help to determine the distribution ofthe various habitats. Tree islands are areas that are slightly higher in elevation than the surrounding marsh where woody vegetation grows. Tree islands may foml over rock outcrops or as a result of the build up of peat deposits. Tree islands cover approximately 1-2% ofWCA 3 and are one of the most distinguishing features of the Everglades (Loveless 1959). They are important ecologically as sites ofhigh botanical species richness and as habitat for species such as wading birds, alligators, turtles, and deer. Tree islands are an integration ofmany processes operating over a range oftemporal and spatial scales. Changes in water management practices in south Florida since the 18008 have impacted the distribution and health oftree islands. In WCA 3, over drainage in the north has lead to soil oxidation and to an increase in fire risk. During the 1970s many tree islands were burned as a result of wildfires (Schortemeyer 1980). In the south, alterations in natural hydropatterns resulted in the loss of tree islands due to flooding. Because tree islands are one of the distinguishing features of the Everglades landscape and provide habitat for a wide range of plants and animals restoration efforts need to ensure their conservation. To do this, the impacts of alternative restoration plans on tree islands need to be evaluated using a linkage of site specific biological· inventories with landscape level evaluation. Tree islands are not distributed evenly throughout the WCA 3~ therefore, the impacts of changes in hydrology on tree island condition will vary spatially. In evaluating alternative scenarios it will be important to target areas that include areas where conditions are currently suitable for tree islands as well as those areas where conditions are too wet or too dry. This report summarizes the spatial patterns of hydrologic conditions in WCA 3 for the period 1991-1995 and discusses how this type of information can be used with data on tree island distribution and condition to evaluate the effects ofalternative hydrologic scenarios on tree islands. (Document has 20pp.)

Description: Research Work Order no. 184