Bibliografias temáticas / Florida – Key West

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Literatura científica selecionada sobre o tema "Florida – Key West"

Autor: Grafiati

Publicado: 25 de julho de 2024

Última modificação: 31 de julho de 2024

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Artigos de revistas sobre o assunto "Florida – Key West"

klingener, nancy. "Colombian Grace: Key West, Florida". Gastronomica 12, n.º 3 (2012): 98–100. http://dx.doi.org/10.1525/gfc.2012.12.3.98.

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Sellers, Danielle. "First Overnight Visit: Key West, Florida". Hopkins Review 5, n.º 2 (2012): 173. http://dx.doi.org/10.1353/thr.2012.0034.

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HELMICK, CHARLES G., J. MICHAEL WRIGLEY, MATTHEW M. ZACK, WILLIAM J. BIGLER, JANET I. LEHMAN, ROBERT S. JANSSEN, E. CHARLES HARTWIG e JOHN J. WITTE. "MULTIPLE SCLEROSIS IN KEY WEST, FLORIDA". American Journal of Epidemiology 130, n.º 5 (novembro de 1989): 935–49. http://dx.doi.org/10.1093/oxfordjournals.aje.a115426.

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Radke, Elizabeth G., Christopher J. Gregory, Kristina W. Kintziger, Erin K. Sauber-Schatz, Elizabeth A. Hunsperger, Glen R. Gallagher, Jean M. Barber et al. "Dengue Outbreak in Key West, Florida, USA, 2009". Emerging Infectious Diseases 18, n.º 01 (janeiro de 2012): 135–37. http://dx.doi.org/10.3201/eid1801.110130.

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Mannix, Annalise, Val Candy e Donald A. Forrer. "Renegotiation Of Waste Disposal Services In Key West, Florida". Journal of Business & Economics Research (JBER) 10, n.º 4 (23 de março de 2012): 207. http://dx.doi.org/10.19030/jber.v10i4.6896.

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Effective planning of a solid waste recycling program is a substantial challenge for the current waste management system in Key West, Florida. Solid waste management strategies have to be reorganized in light of the social and economic recycling, recovery, and reuse philosophical approaches which are dramatically changing consumer behaviors across the globe. The growing concern for environmental issues and the goal of local sustainable development have moved the management of solid waste to the forefront of the public agenda. This paper focuses on efforts to agree upon a city-wide initiative to increase waste diversion within the prevailing political, environmental, and economic climate in which waste disposal activities had dominated the market. It discusses how the traditional two-party solid waste hauling contract was altered by the addition of outside third-party interests forcing a multi-party negotiation processes.

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Geissele, Alfred. "Sunset off of Mallory Square in Key West, Florida". Spine 37, n.º 9 (abril de 2012): i. http://dx.doi.org/10.1097/brs.0b013e3182587b90.

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Cook, S. D., B. Blumberg, P. C. Dowling, W. Deans e R. Cross. "MULTIPLE SCLEROSIS AND CANINE DISTEMPER ON KEY WEST, FLORIDA". Lancet 329, n.º 8547 (junho de 1987): 1426–27. http://dx.doi.org/10.1016/s0140-6736(87)90609-x.

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Davis, Richard A., e Bernard J. Kuhn. "Origin and development of Anclote Key, west-peninsular Florida". Marine Geology 63, n.º 1-4 (fevereiro de 1985): 153–71. http://dx.doi.org/10.1016/0025-3227(85)90082-9.

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Adkins, Scott, e Erin N. Rosskopf. "Key West Nightshade, a New Experimental Host for Plant Viruses". Plant Disease 86, n.º 12 (dezembro de 2002): 1310–14. http://dx.doi.org/10.1094/pdis.2002.86.12.1310.

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Key West nightshade (Solanum bahamense) is a perennial solanaceous weed found in the extreme southern portion of Florida. It can be propagated by seed and cuttings and is absent from the noxious weed lists of all U.S. states. Its susceptibility to five viruses common to Florida was evaluated by mechanical inoculation of leaves with Tomato spotted wilt virus (TSWV), Tobacco mosaic virus (TMV), Pepper mild mottle virus (PMMoV), Cucumber mosaic virus (CMV), and a putative tobamovirus recently isolated from hibiscus in Florida (HV). TSWV induced chlorotic rings on inoculated leaves and mosaic and malformation of uninoculated leaves. CMV induced necrotic local lesions on inoculated leaves. No symptoms were observed following inoculation with TMV, PMMoV, or HV. TSWV, TMV, and PMMoV systemically infected S. bahamense as determined by the use of enzyme-linked immunosorbent assay, reverse transcription-polymerase chain reaction, viral-associated double-stranded RNA analysis, and/or indicator hosts. Active growth of infected plants continued for 7 months following inoculation, making S. bahamense suitable for long-term maintenance of viruses in planta. We suggest that S. bahamense may be a useful host for virus culture collections and for studies involving large numbers of virus isolates where fresh, infected tissue is continuously required.

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Schuh, Lynda L. S. "Marketing The Key West Hospitality Program". Hospitality Education and Research Journal 12, n.º 2 (fevereiro de 1988): 480. http://dx.doi.org/10.1177/109634808801200257.

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Designing a hospitality program to meet academic standards and community needs is a great challenge. This paper explores marketing of the program at Florida Keys Community College; a school situated on an island only five miles square. Key West's raging popularity, due to its promotion of tourism, has resulted in a severe labor shortage, a critical housing need and often local resentment. Many times the program finds itself in direct competition with the very industry it serves. Taking the approach of a competing business, the program has explored the market place and positioned itself to be sensitive, stimulating and flexible to the present and potential student. The four-year marketing plan expresses the viewpoint that program development is not complete until it is well established as a positive part of the community and all potential markets have been fully explored, resulting, in a continuous source of new and returning students.

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Teses / dissertações sobre o assunto "Florida – Key West"

Sandoval, Emeli. "Morphodynamics of Mullet Key, West-Central Florida". Scholar Commons, 2015. https://scholarcommons.usf.edu/etd/5570.

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Mullet Key is a right angle barrier island located at the mouth of Tampa Bay, west-central Florida. Based on historical shoreline data from 1873, the Gulf (west)-facing section of the beach has been dynamic illustrating large beach advances and retreats of up to 500 m on a decadal scale, while the south (channel)-facing section of the beach has shown to maintain a stable shoreline. This study focuses on the morphodynamics of the Gulf-facing beach. Since the 1920s, most of the Gulf-facing beach has been accreting except at the southern end near the Tampa Bay main channel. However, over the past 17 years, severe beach erosion has occurred along the northern portion of the island while accretion occurred along the middle portion. The southern end of the island has been maintained through artificial beach nourishments. Analysis of 27 aerial images from 1942 to 2014 revealed that the above large shoreline variations can be explained by the initiation, emergence, landward migrating, shoreline attachment, and post-attachment beach adjustment of the swash-bar complex on the Bunces Pass ebb delta. Two cycles of the swash-bar complex attachments with a period of approximately 30 years were identified from the aerial photos spanning 72 years. Twenty-eight beach-profiles spanning the 4 km Mullet Key Gulf-facing beach were surveyed 7 times on a bi-monthly basis from March 2014 to February 2015 to quantify the recent rapid changes, and to assess a yearly rate of shoreline change. Beach-profile analyses showed that the 120 m beach at the north-most tip in the immediate vicinity of Bunces Pass has lost a small amount of sediment. The 360 m beach to the south has gained some sediment. The 670 m stretch of beach further south has had significant shoreline retreat at a rate of 10-15 m/year. The 2,400 m section southward has experienced some gain of sediment, while the 370 m nourished beach at the southernmost tip has had slight retreat. This beach change pattern illustrates a diverging longshore sediment transport. Nearshore wave and current conditions were measured during a cold front passage in December 2014 to quantify the hydrodynamic processes that induced the diverging longshore transport. Three wave and current gauges were deployed along the eroding and accreting sections. The hydrodynamic data reveal that the longshore transport divergence is caused by diverging flood tidal flow into Bunces Pass to the north and Tampa Bay channel to the south. Furthermore, the waves in front the eroding beach were higher than the adjacent accreting beach.

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Raza, Ali. "VARIABLES IMPACTING DENGUE SURVEILLANCE IN KEY WEST FLORIDA". Thesis, The University of Arizona, 2015. http://hdl.handle.net/10150/538763.

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A Thesis submitted to The University of Arizona College of Medicine - Phoenix in partial fulfillment of the requirements for the Degree of Doctor of Medicine.
Background: Dengue fever is the most common mosquito borne viral disease in the world. Its symptoms can be fairly nonspecific and most commonly include fever, rash, headache, and eye pain. Passive surveillance is currently the most prevalent method used to detect dengue cases in the United States. Identification of positive cases can be limited by the public’s awareness of the disease’s symptoms, barriers to healthcare seeking behavior, and by physician approval of laboratory testing. Objective: This study sought to evaluate barriers to dengue reporting, as well as the patient‐ level factors that may limit the efficacy of passive surveillance of dengue in Key West, Florida. Methods: Cross‐sectional surveys were administered across Key West, FL. Subjects were asked if they had a recent fever, additional dengue symptoms, and whether they sought medical care for these symptoms. Also the hypothetical question was posed: would you seek medical care for a fever greater than 102 F? Responses were stratified according to patient characteristics and demographics. Results: In Key West, patient‐level factors that influenced the decision to seek medical care for a high fever were: having a specific doctor call when sick (p<0.006), health insurance status (p<0.037), and ethnicity (p<0.005). Additionally, barriers to dengue reporting were identified. The most impactful were the decision to seek medical care for symptoms consistent with dengue fever, and the doctor’s decision to administer confirmatory dengue laboratory tests. Only one person with a recent fever plus one additional classic dengue symptom received laboratory testing, and this was done outside of the United States. There were four individuals who met the current WHO clinical case definition for dengue, yet none were offered laboratory testing or were diagnosed with the disease. Conclusion: This study shows that both patients and doctors in Key West, Florida underestimate the potential for dengue when there are symptoms consistent with the disease. As such, it is certainly possible that there have been unreported cases in the country.

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Jean, Karm-Ervin. "Models Describing the Sea Level Rise in Key West, Florida". FIU Digital Commons, 2015. http://digitalcommons.fiu.edu/etd/2274.

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Lately, we have been noticing an unusual rise in the sea level near many Floridian cities. By 2060, scientists believe that the sea level in the city of Key West will reach between 22.86 to 60.96 centimeters (Strauss et al. 2012). The consequences of sea level rise are unpleasant by gradually tearing away our beaches and natural resources, destroying our homes and businesses, etc. Definitively, a continual increase of the sea level will affect everyone either directly or indirectly. In this study, the sea level measurements of four Floridian coastal cities (including Key West) are collected in order to describe their trend toward sea level rise over the past 100 years. After the comparisons, some models describing the sea level rise in the city of Key West, Florida, are developed. Any inferences for these above cities may well be extended to similar ones.

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Tyler, Zachary James. "Morphodynamics of Egmont Key at the Mouth of Tampa Bay: West-Central Florida". Scholar Commons, 2016. http://scholarcommons.usf.edu/etd/6419.

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Egmont Key, located at the mouth of Tampa Bay, is part of a dynamic system with many interrelated natural and anthropogenic factors influencing its morphodynamics. This study started in August 2012. During the 3-year period until August 2015, 28 beach profile transects were established and surveyed 10 times. Seventeen historical aerial images from 1942 to 2013 were geo-rectified and analyzed. Three hundred and fourteen sediment samples were procured from the navigation channel dredge area and the beach nourishment area and analyzed for grain size. A numerical wave model was established to simulate the nearshore wave field. The overall goals of this study are to understand the complex morphodynamics of Egmont Key and to evaluate the shore-protection efforts. The overall area of the Egmont Key has reduced 52% from 2.1 km2 in 1942 to 1.o km2 in 2002. The area loss was mostly caused by beach erosion along the Gulf-facing beach. The island-area reduction from 1942 to 2002 was largely linear. Two periods of accelerated area loss from 1978-1984 and 1999-2002 can be related to dredging of the Egmont Channel and the disposal of dredged materials along the channel. Concerning the relatively high mud content in the borrow area for the 2014 nourishment, a large amount of the fine sediment was lost at a temporal scale of hours to days during the dredging and beach nourishment construction processes. Some of the mud was deposited outside the surf zone at water depths of 2 m or greater. This mud became eroded naturally by energetic conditions at a temporal scale of months. Beach erosion and accretion along the Gulf-facing beach can be related qualitatively to tidal flow patterns. Numerical wave modeling shows that the transverse bars offshore Egmont Key have a moderate influence on the wave field, leading to slightly different wave heights along the shoreline. However, there is no clear relationship between the nearshore wave conditions and the erosion/accretion patterns. The severe shoreline erosion has exposed various fort structures at the shoreline and in the nearshore zone. These structures function as detached breakwaters or groins and have localized influence on the beach state.

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Westfall, Zachary J. "Morphodynamics of Shell Key and Mullet Key Barrier Islands: Their Origin and Development". Scholar Commons, 2018. https://scholarcommons.usf.edu/etd/7593.

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Shell Key and Mullet Key are two sandy barrier islands on the West Central Florida coast near the mouth of Tampa Bay. These islands are part of an interconnected barrier-inlet system that includes Pass-a-Grille (PAG) and Bunces Pass. Shell Key is a relatively new island about 40-years of age that formed in between the two inlets of Bunces Pass and PAG. Mullet Key is an island to the south of Shell Key situated between Bunces Pass and the main Tampa Bay channel that has demonstrated large scale upward shoaling events. Using numerical modeling, the wave and tidal conditions at the dual-inlet system were investigated in order to understand the hydrodynamic conditions that drive the morphology change. Historical aerial imagery and historical nautical charts were analyzed to determine the large scale accretionary and erosive changes that happened in the study area from 1873 to 2018. Four historical nautical charts, from 1873, 1928, 1966, and 1996 were digitized to create bathymetry maps of the two islands, their adjacent inlets, and the ebb shoals. These historical bathymetry maps were compared with the bathymetry survey by this study in 2016. The research goal of this thesis is to investigate the mechanism of origin and development of two barrier islands along the coast of West Central Florida through a time series of photos combined with numerical modeling. Based on aerial photos from 1984 to 2018, the overall shape and orientation of ebb shoals at both Bunces Pass and PAG were analyzed in order to examine the effect that the 30 year swash bar cycle at Bunces Pass has on a connected inlet system. The ebb shoal orientations were compared to see how swash bar initiation would affect the two ebb shoals; most notably Bunces Pass ebb shoal. A bending of the entire Bunces Pass ebb shoal was identified over the 2002-2018 time span corresponding to the development of a large sand feature located here. Further numerical modeling was conducted at PAG to determine the factors controlling the formation of Shell Key. Before the 1970s, the PAG inlet included two branches, the North PAG Channel and the South PAG Channel. A major dredging event took place at the North PAG Channel in 1966 causing significant widening and deepening of the channel. This dredging event was simulated to quantify the impact to the natural flow pattern. The 1966 dredging project had a significant impact to the overall flow pattern, increasing the ebb jet flow velocity by 0.8 m/s over the dredged area and significantly decreasing flow velocity by -0.4 m/s over a large area where the South PAG Channel was previously located. This artificially induced change of flow pattern resulted in the closure of South PAG Channel and the corresponding development of Shell Key.

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Davis, Denise Marie. "Distinguishing Processes that Induce Temporal Beach Profile Changes Using Principal Component Analysis: A Case Study at Long Key, West-central Florida". Scholar Commons, 2013. http://scholarcommons.usf.edu/etd/4881.

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The heavily developed Long Key is located in Pinellas County in west-central Florida. The structured Blind Pass at the north end of the barrier island interrupts the southward longshore sediment transport, resulting in severe and chronic beach erosion along the northern portion of the island. Frequent beach nourishments were conducted to mitigate the erosion. In this study, the performance of the most recent beach nourishment in 2010 is quantified through time-series beach profile surveys. Over the 34-month period, the nourished northern portion of the island, Upham Beach, lost up to 330 m3/m of sand, with a landward shoreline retreat of up to 100 m. The middle portion of the island gained up to 25 m3/m of sand, benefiting from the sand lost from Upham Beach. The southern portion of Long Key lost a modest amount of sediment, largely due to Tropical Storm Debby, which approached from the south in June 2012. The severe erosion along Upham Beach is induced by a large negative longshore transport gradient. The beach here has no sand bar and retreated landward persistently over the 34-month study period. In contrast the profiles in the central section of the island generally have a sand bar which moved landward and seaward in response to seasonal and storm-induced wave-energy changes. The sand volume across the entire profile in the central portion of the island is mostly conserved. Two typical example beach profiles, LK3A and R157, were selected to examine the ability of the commonly used principal component analysis (PCA), also commonly known as empirical orthogonal function analysis (EOF), to identify beach profile ix changes induced by longshore and cross-shore sediment transport gradients. For the longshore-transport driven changes at the non-barred profile LK3A, the principal eigenvector accounted for over 91% of the total variance, with a dominant broad peak in the cross-shore distribution. At the barred R157, the profile changes were caused mainly by cross-shore transport gradients with modest contribution from longshore transport gradient; eigenvalue one only accounted for less than 51% of the total variance, and eigenvalues two and three still contributed considerably to the overall variance. In order to verify the uniqueness of the PCA results from LK3A and R157, five numerical experiments were conducted, simulating changes at a barred and non-barred beach driven by longshore, cross-shore, and combined sediment transport gradients. Results from LK3A and R157 compare well with simulated beach erosion (or accretion) due to variable longshore sediment transport gradients and due to both cross-shore and longshore sediment transport gradients, respectively. Different PCA results were obtained from different profile change patterns.

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Brandt, Marilyn Elizabeth. "Coral Disease Epizootiology in the Florida Keys (U.S.A.) and Cayman Islands (British West Indies), and the Development of the Simulation of Infected Corals Model". Scholarly Repository, 2007. http://scholarlyrepository.miami.edu/oa_dissertations/57.

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Understanding coral disease dynamics within the heterogeneous populations in which they act is critical for predicting how the structure of reefs may change as a result of enzootic or epizootic levels of these important sources of mortality. This work focused on combining field studies and the development and testing of a spatially-explicit, individual-based epizootiological computer model with the aim of gaining a greater understanding of the dynamics and impact of white plague, a significant source of mortality on reef-building corals in the Caribbean region. Field studies focused on the incidence and distribution of all sources of coral mortality, including suspect white plague in situ, at two locations; the Florida Keys (United States of America) and Little Cayman Island (Cayman Islands, British West Indies). Results indicated that in both regions disease was the most significant source of mortality during the monitoring time periods, and that suspect white plague type II in Cayman is likely contributing to major structural changes. In Florida, observations made during a mass bleaching event indicated that a significant relationship exists between bleaching severity and disease incidence, and that mortality during the event was largely the result of disease and not bleaching. The simulation model was developed using a long-term data set from Little Cayman, and results of calibration indicated that suspect white plague type II on these reefs is transmissible between colonies within a limited field and require a yearly input from an outside source, and that host susceptibility to infection is low and likely not variable among species. Parameters describing the distribution and composition of the coral population were varied, and results indicated a significant effect of colony density, aggregation, and mean size on the impact of disease. Scenario testing of various disease management strategies indicated that should local prevention measures be developed in the future, it is they, and not treatment, that will likely be the most effective in limiting the impact of disease.

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Dobrzynski, Tanya Nicholson Elizabeth E. "An evaluation of the short-term social and economic impacts of marine reserves on user groups in Key West". 2001. http://bibpurl.oclc.org/web/20622.

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Noltenius, Melany Strike. "Capturing Pre-evacuation Trips and Associative Delays: A Case Study of the Evacuation of Key West, Florida for Hurricane Wilma". 2008. http://etd.utk.edu/2008/August2008Dissertations/NolteniusMelany.pdf.

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Jones-Garcia, Dawn Elizabeth. "Last of the watermen : the end of the commercial fishing tradition in the Florida Keys". Thesis, 2010. http://hdl.handle.net/2152/ETD-UT-2010-12-2332.

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The time-honored profession of commercial fishing in the Florida Keys is in danger of extinction as each year passes and fewer commercial fishermen remain in an industry that is sinking in the wake of politicians, land developers, and financial woes. At the heart of the problem is the threat of overfishing, a subject that is increasingly at the forefront of media attention and environmental campaigns. The villain in this story of death and destruction more often than not are commercial fishermen. But the blame is misguided. Our fishermen work according to the letter of the law and strive to maintain healthy sustainable fish stocks and sound marine ecosystems. It is unlikely that the American hunger for seafood will diminish so in the absence of locally caught fish the public has no choice but to support the efforts of unchecked foreign fisheries—Fisheries that are not managed as well as ours and in some instances fish until there is nothing left to take.
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Livros sobre o assunto "Florida – Key West"

1923-, Cole John N., e Pollard Hawk, eds. West of Key West. Mechanicsburg, PA: Stackpole Books, 1996.

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Stewart, H. Milo. Florida, sights and scenes of Key West and the Florida Keys. Houston, Tex: Gulf Pub. Co., 1997.

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Toppino, Nancy. Insiders' guide to Florida Keys and Key West. Guilford, Conn: Insiders' Guide, 2010.

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Hersey, John. Key West tales. New York: Vintage Books, 1996.

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United States. National Park Service, ed. Fort Zachary Taylor, Key West, Florida. [Washington, DC: National Park Service, 1989.

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Leeworthy, Vernon R. Visitor profiles, Florida Keys/Key West. [Silver, Spring, Md.?]: Strategic Environmental Assessments Division, Office of Ocean Resources Conservation and Assessment, National Ocean Service, National Oceanic and Atomospheric Administration, U.S. Dept. of Commerce, 1996.

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Keith, June. June Keith's Key West & the Florida Keys: Food, hotels, beaches ... Key West, Fla: Palm Island Press, 1997.

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Keith, June. June Keith's Key West & The Florida Keys. Chicago: Palm Island Press, 2009.

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Feil, Charles. Over Key West and the Florida Keys. Sarasota, Florida: Pineapple Press, Inc., 2001.

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Raffa, Edwina. Kidnapped in Key West. Sarasota, Florida: Pineapple Press, Inc., 2008.

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Capítulos de livros sobre o assunto "Florida – Key West"

Curnutt, Kirk. "Introduction". In Key West Hemingway, 1–22. University Press of Florida, 2009. http://dx.doi.org/10.5744/florida/9780813033556.003.0001.

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Hemingway, Ernest. "A Key West Girl". In Key West Hemingway, 24–27. University Press of Florida, 2009. http://dx.doi.org/10.5744/florida/9780813033556.003.0002.

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Hemingway, Carol. "907 Whitehead Street". In Key West Hemingway, 28–43. University Press of Florida, 2009. http://dx.doi.org/10.5744/florida/9780813033556.003.0003.

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Broer, Lawrence R. "Only in Key West". In Key West Hemingway, 44–57. University Press of Florida, 2009. http://dx.doi.org/10.5744/florida/9780813033556.003.0004.

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Sinclair, Gail D. "The End of Some Things". In Key West Hemingway, 59–75. University Press of Florida, 2009. http://dx.doi.org/10.5744/florida/9780813033556.003.0005.

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Cohen, Milton A. "Beleaguered Modernists". In Key West Hemingway, 77–89. University Press of Florida, 2009. http://dx.doi.org/10.5744/florida/9780813033556.003.0006.

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Monroe, Dan. "Hemingway, the Left, and Key West". In Key West Hemingway, 91–103. University Press of Florida, 2009. http://dx.doi.org/10.5744/florida/9780813033556.003.0007.

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Beegel, Susan F. "Harry and the Pirates". In Key West Hemingway, 106–27. University Press of Florida, 2009. http://dx.doi.org/10.5744/florida/9780813033556.003.0008.

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Paul, Steve. "Tropical Iceberg". In Key West Hemingway, 129–42. University Press of Florida, 2009. http://dx.doi.org/10.5744/florida/9780813033556.003.0009.

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Ott, Mark P. "The Anita Logs and To Have and Have Not". In Key West Hemingway, 143–57. University Press of Florida, 2009. http://dx.doi.org/10.5744/florida/9780813033556.003.0010.

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Trabalhos de conferências sobre o assunto "Florida – Key West"

Natalya, Warner, Sterba-Boatwright Blair, Tissot Philippe e Jeffress Gary. "Estimated increase in inundation probability with confidence intervals for Pensacola, Florida and Key West, Florida". In OCEANS 2012. IEEE, 2012. http://dx.doi.org/10.1109/oceans.2012.6404881.

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Shabat, Dan. "Closure of the City of Key West, Southernmost Waste to Energy Facility". In 12th Annual North American Waste-to-Energy Conference. ASMEDC, 2004. http://dx.doi.org/10.1115/nawtec12-2208.

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The Southernmost Waste-to-Energy Facility, is a 150 ton per day, stoker fired, mass burn facility located on Stock Island in the City of Key West, Florida. The facility is owned and operated by the City of Key West and is categorized as a Small MWC, Class II facility under the Emission Guidelines for Existing Small Municipal Waste Combustors, 40 CFR 60 subpart BBBB. In order to reliably comply with the requirements of the small MWC regulations, the facility air pollution control trains were required to be retrofitted to include acid gas control and improved particulate control through the installation of scrubbers and baghouses. Additional controls for metals including mercury may have been added in order to assure compliance with these regulations. Other facility upgrades including combustion enhancements may have been required to assure compliance with allowable carbon monoxide limitations of the Small MWC regulations. The need for the air pollution control retrofit project represented a major expenditure for the City of Key West. Faced with a decision regarding its long term future waste handling and disposal methods, the City examined various options for future solid waste handling and disposal including the option to proceed with retrofitting the waste-to-energy facility and relying on waste-to-energy as a long-term major component of Key West’s solid waste handling and disposal plans. Alternatively, the City explored the option of building a transfer station, either privately or publicly operated, and contracting the hauling and disposal of the City’s waste to a private firm. The transfer station option would require a conversion of the waste-to-energy facility to a transfer station through a major demolition and reconstruction project. The City also considered available alternative technologies such as gasification for example. In order to help the City sort through the many issues associated with the solid waste handling and disposal options, a Technical Advisory Committee was formed consisting of engineering and legal consultants, City commission members, and other City representatives. Dvirka and Bartilucci Consulting Engineers, as a member of the Technical Advisory Committee, was responsible for estimating the costs associated with the design, construction and operation of a waste-to-energy facility air pollution control retrofit project. This paper describes the facility and discusses the decision making process of the technical advisory committee and the ultimate decision of the City Commission to close the Southernmost Waste to Energy Facility. The paper includes the requirements for closure of the facility and discusses how the City arrived at its final decision.

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Goldstein, Jason M., e Rebecca F. Goldstein. "BioMonitoring: A Key to Successful Environmental Compliance for Pipeline Construction—Cypress Pipeline Project: A Case Study". In 2008 7th International Pipeline Conference. ASMEDC, 2008. http://dx.doi.org/10.1115/ipc2008-64095.

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Southern Natural Gas Company (Southern), an El Paso Company, used BioMonitors to ensure full environmental compliance with the regulatory conditions associated with the construction of the Cypress Pipeline Project. The 167-mile Cypress Pipeline originates near Savannah, Georgia, and terminates west of Jacksonville, Florida. In preparation for construction of this project, Southern engaged in extensive consultation and negotiation with numerous federal, state, and local regulatory agencies. It became apparent during the consultation process that Southern would need a highly skilled biologist on-site during construction to fulfill the onerous conditions required by these agencies. Furthermore, specific state water quality permit conditions contained frequent sampling and reporting requirements that required specially-certified personnel. For these reasons, Southern used two BioMonitors (qualified on-site biologists with construction expertise) during construction who were dedicated to uphold the specialized environmental compliance program for the project. Herein, we illustrate this creative method for successfully negotiating contentious environmental issues and fully complying with the specialized environmental compliance conditions that frequently stem from sensitive agency consultation and intricate permit stipulations.

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Relatórios de organizações sobre o assunto "Florida – Key West"

Butler, C. S. Archaeological Survey of Key West Naval Air Station, Monroe County, Florida. Fort Belvoir, VA: Defense Technical Information Center, abril de 1997. http://dx.doi.org/10.21236/ada325381.

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Desjarlais, Andre Omer, Daniel H. Howett e Daryl Cox. Evaluation of High-Performance Rooftop HVAC Unit Naval Air Station Key West, Florida. Office of Scientific and Technical Information (OSTI), fevereiro de 2018. http://dx.doi.org/10.2172/1427610.

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CHARLES STARK DRAPER LAB INC CAMBRIDGE MA. DARPA Concurrent Design/Concurrent Engineering Workshop Held in Key West, Florida on December 6-8, 1988. Fort Belvoir, VA: Defense Technical Information Center, dezembro de 1988. http://dx.doi.org/10.21236/ada225128.

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Beck, Tanya, e Ping Wang. Morphodynamics of barrier-inlet systems in the context of regional sediment management, with case studies from West-Central Florida, USA. Engineer Research and Development Center (U.S.), setembro de 2021. http://dx.doi.org/10.21079/11681/41984.

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The temporal and spatial scales controlling the morphodynamics of barrier-inlet systems are critical components of regional sediment management practice. This paper discusses regional sediment management methods employed at multiple barrier-inlet systems, with case studies from West-Central Florida. A decision-support tool is proposed for regional sediment management with discussion of its application to barrier-inlet systems. Connecting multiple barrier islands and inlets at appropriate spatio-temporal scales is critical in developing an appropriately scoped sediment management plan for a barrier-inlet system. Evaluating sediment bypassing capacity and overall inlet morphodynamics can better inform regional sand sharing along barrier-inlet coastlines; particularly where sediment resources are scarce and a close coupling between inlet dredging and beach placement is vital to long-term sustainable management. Continued sea-level rise and anthropogenic activities may intensify the need for investigating longer-term processes and expanding regional planning at a centennial timescale and are acknowledged as challenging tasks for RSM studies. Specifically, we suggested that a regionally focused, multi-inlet study was necessary for management plan of individual inlet for the west-central Florida case studies. Key recommendations based on the case studies are included.

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Anderson, Donald M., Lorraine C. Backer, Keith Bouma-Gregson, Holly A. Bowers, V. Monica Bricelj, Lesley D’Anglada, Jonathan Deeds et al. Harmful Algal Research & Response: A National Environmental Science Strategy (HARRNESS), 2024-2034. Woods Hole Oceanographic Institution, julho de 2024. http://dx.doi.org/10.1575/1912/69773.

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Harmful and toxic algal blooms (HABs) are a well-established and severe threat to human health, economies, and marine and freshwater ecosystems on all coasts of the United States and its inland waters. HABs can comprise microalgae, cyanobacteria, and macroalgae (seaweeds). Their impacts, intensity, and geographic range have increased over past decades due to both human-induced and natural changes. In this report, HABs refers to both marine algal and freshwater cyanobacterial events. This Harmful Algal Research and Response: A National Environmental Science Strategy (HARRNESS) 2024-2034 plan builds on major accomplishments from past efforts, provides a state of the science update since the previous decadal HARRNESS plan (2005-2015), identifies key information gaps, and presents forward-thinking solutions. Major achievements on many fronts since the last HARRNESS are detailed in this report. They include improved understanding of bloom dynamics of large-scale regional HABs such as those of Pseudo-nitzschia on the west coast, Alexandrium on the east coast, Karenia brevis on the west Florida shelf, and Microcystis in Lake Erie, and advances in HAB sensor technology, allowing deployment on fixed and mobile platforms for long-term, continuous, remote HAB cell and toxin observations. New HABs and impacts have emerged. Freshwater HABs now occur in many inland waterways and their public health impacts through drinking and recreational water contamination have been characterized and new monitoring efforts have been initiated. Freshwater HAB toxins are finding their way into marine environments and contaminating seafood with unknown consequences. Blooms of Dinophysis spp., which can cause diarrhetic shellfish poisoning, have appeared around the US coast, but the causes are not understood. Similarly, blooms of fish- and shellfish-killing HABs are occurring in many regions and are especially threatening to aquaculture. The science, management, and decision-making necessary to manage the threat of HABs continue to involve a multidisciplinary group of scientists, managers, and agencies at various levels. The initial HARRNESS framework and the resulting National HAB Committee (NHC) have proven effective means to coordinate the academic, management, and stakeholder communities interested in national HAB issues and provide these entities with a collective voice, in part through this updated HARRNESS report. Congress and the Executive Branch have supported most of the advances achieved under HARRNESS (2005-2015) and continue to make HABs a priority. Congress has reauthorized the Harmful Algal Bloom and Hypoxia Research and Control Act (HABHRCA) multiple times and continues to authorize the National Oceanic and Atmospheric Administration (NOAA) to fund and conduct HAB research and response, has given new roles to the US Environmental Protection Agency (EPA), and required an Interagency Working Group on HABHRCA (IWG HABHRCA). These efforts have been instrumental in coordinating HAB responses by federal and state agencies. Initial appropriations for NOAA HAB research and response decreased after 2005, but have increased substantially in the last few years, leading to many advances in HAB management in marine coastal and Great Lakes regions. With no specific funding for HABs, the US EPA has provided funding to states through existing laws, such as the Clean Water Act, Safe Drinking Water Act, and to members of the Great Lakes Interagency Task Force through the Great Lakes Restoration Initiative, to assist states and tribes in addressing issues related to HAB toxins and hypoxia. The US EPA has also worked towards fulfilling its mandate by providing tools and resources to states, territories, and local governments to help manage HABs and cyanotoxins, to effectively communicate the risks of cyanotoxins and to assist public water systems and water managers to manage HABs. These tools and resources include documents to assist with adopting recommended recreational criteria and/or swimming advisories, recommendations for public water systems to choose to apply health advisories for cyanotoxins, risk communication templates, videos and toolkits, monitoring guidance, and drinking water treatment optimization documents. Beginning in 2018, Congress has directed the U.S. Army Corps of Engineers (USACE) to develop a HAB research initiative to deliver scalable HAB prevention, detection, and management technologies intended to reduce the frequency and severity of HAB impacts to our Nation’s freshwater resources. Since the initial HARRNESS report, other federal agencies have become increasingly engaged in addressing HABs, a trend likely to continue given the evolution of regulations(e.g., US EPA drinking water health advisories and recreational water quality criteria for two cyanotoxins), and new understanding of risks associated with freshwater HABs. The NSF/NIEHS Oceans and Human Health Program has contributed substantially to our understanding of HABs. The US Geological Survey, Centers for Disease Control and Prevention, and the National Aeronautics Space Administration also contribute to HAB-related activities. In the preparation of this report, input was sought early on from a wide range of stakeholders, including participants from academia, industry, and government. The aim of this interdisciplinary effort is to provide summary information that will guide future research and management of HABs and inform policy development at the agency and congressional levels. As a result of this information gathering effort, four major HAB focus/programmatic areas were identified: 1) Observing systems, modeling, and forecasting; 2) Detection and ecological impacts, including genetics and bloom ecology; 3) HAB management including prevention, control, and mitigation, and 4) Human dimensions, including public health, socio-economics, outreach, and education. Focus groups were tasked with addressing a) our current understanding based on advances since HARRNESS 2005-2015, b) identification of critical information gaps and opportunities, and c) proposed recommendations for the future. The vision statement for HARRNESS 2024-2034 has been updated, as follows: “Over the next decade, in the context of global climate change projections, HARRNESS will define the magnitude, scope, and diversity of the HAB problem in US marine, brackish and freshwaters; strengthen coordination among agencies, stakeholders, and partners; advance the development of effective research and management solutions; and build resilience to address the broad range of US HAB problems impacting vulnerable communities and ecosystems.” This will guide federal, state, local and tribal agencies and nations, researchers, industry, and other organizations over the next decade to collectively work to address HAB problems in the United States.

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Water-resources potential of the freshwater lens at Key West, Florida. US Geological Survey, 1990. http://dx.doi.org/10.3133/wri904115.

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Location of potential ground-water quality monitoring wells, Key West 1 degrees by 2 degrees Quadrangle, Florida. US Geological Survey, 1987. http://dx.doi.org/10.3133/wri854136.

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