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- Title
- How will the predicted ocean temperatures of 2100, impact larval development of Lobatus (Strombus) gigas in the Caribbean region?.
- Name/Creator
-
Pollard, Madison Jane
- Abstract/Description
-
In the Caribbean region, calcareous shelled organisms are at risk of inhibited larval development (e.g., shell growth and mortality) at high ocean temperatures. Given predicted sea-surface temperatures due to global climate change for the year 2100 (by the IPCC and NOAA) researchers are predicting at what temperatures these changes could affect larval development of Queen conch, Lobatus (Strombus) gigas. Carbon emissions from human activities (e.g., burning of fossil fuels) are affecting...
Show moreIn the Caribbean region, calcareous shelled organisms are at risk of inhibited larval development (e.g., shell growth and mortality) at high ocean temperatures. Given predicted sea-surface temperatures due to global climate change for the year 2100 (by the IPCC and NOAA) researchers are predicting at what temperatures these changes could affect larval development of Queen conch, Lobatus (Strombus) gigas. Carbon emissions from human activities (e.g., burning of fossil fuels) are affecting marine organisms at multiple trophic levels due to ocean warming and acidification. L. gigas was abundant in their geographic range of the Caribbean Sea, the Gulf of Mexico, and around Bermuda, now with a combination of overharvesting and global climate change, conchs are candidates for the Endangered Species Act. As CO2 increases in the ocean, carbonate for calcium carbonate production decreases. L. gigas will use more energy to produce their shells (stunting growth rates) or opt for weaker shells. Researchers (Aranda and Manzano) reared L.gigas eggs from hatchling to settlement under five temperatures (28, 28.5, 29, 29.5, 30℃) to assess growth and development. At 30 ℃ larvae experienced faster growth rates, but survival was low (23%). While at 28 ℃ larvae had the highest survival (35%). Temperature seemed to have more of a direct impact on earlier stages of larvae of L. gigas than those closest to settlement. Queen conchs are economically important for their commercial value, being the second largest fishery in the Caribbean. Ocean warming and acidification would cause a decrease in harvest, changing prices for consumers. Urgent action against reducing greenhouse gas emissions must be taken. The Caribbean can mitigate contribution to greenhouse gases by renewable energy since it is an area that has great potential for hydro-electric, geothermal, wind and solar energy. This in turn could reduce the impacts to L. gigas larval development.
Show less - Date Issued
- 2021-04-21
- Identifier
- BC3356
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC3356
- Title
- Florida’s infamous invaders: the impact of the green iguana in South Florida.
- Name/Creator
-
Santiago, Paris
- Abstract/Description
-
Since the 1960’s, south Florida has become an ideal habitat to the green iguana (Iguana iguana), a species that is not native to the region or state. Their introduction to Miami-Dade county is a result of the under-regulated pet trade, and the effects of this have been felt at an increasing intensity in the last five decades. Though most invasive species that garner the level of attention from the public and wildlife officials alike pose a direct threat to the native flora and fauna, the...
Show moreSince the 1960’s, south Florida has become an ideal habitat to the green iguana (Iguana iguana), a species that is not native to the region or state. Their introduction to Miami-Dade county is a result of the under-regulated pet trade, and the effects of this have been felt at an increasing intensity in the last five decades. Though most invasive species that garner the level of attention from the public and wildlife officials alike pose a direct threat to the native flora and fauna, the largest issue regarding the green iguana is the damages to structures and private property. Iguanas are able to succeed so greatly in South Florida due to the tropical climate and increasingly warmer winters (the coldest average temperature for January, the harshest winter month is at 65* Fahrenheit, currently). These ideal temperatures for prolonged periods paired with the lack of any enemy in the environment allow for iguana numbers to increase, almost entirely without bounds. With consistently warming climates, habitats can become suitable to invaders that can cause damage to native species and create socio-economic disasters Though the state allows the killing of iguanas by private property owners, this solution is now effective against the exponential growth the species experiences each year. With proper enforcement of fair and legal pet trading, education on invasive species and their impacts, and ethical relocation efforts to areas where expensive damages cannot be carried out easily, the invasion may see a slowdown. If efforts are made to reduce practices that expedite climate change, the ability for non-native and invasive species to spread and adapt to new potential habitat ranges will be reduced as well.
Show less - Date Issued
- 2021-04-21
- Identifier
- BC3357
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC3357
- Title
- Generation of tsunamis from earthquakes: a literature review.
- Name/Creator
-
Naum, Miranda
- Abstract/Description
-
Tsunamis are some of the most incredible yet devastating forces of mother nature. Their sheer and immense power is something of fascination. Earthquakes are primarily responsible for the generation of these massive waves. But what exactly is the link between earthquakes and tsunamis? Tsunamis are a series of ocean waves produced by the displacement of great volumes of water. The displacement of water is typically caused by submarine earthquakes. These earthquakes deform the seafloor, causing...
Show moreTsunamis are some of the most incredible yet devastating forces of mother nature. Their sheer and immense power is something of fascination. Earthquakes are primarily responsible for the generation of these massive waves. But what exactly is the link between earthquakes and tsunamis? Tsunamis are a series of ocean waves produced by the displacement of great volumes of water. The displacement of water is typically caused by submarine earthquakes. These earthquakes deform the seafloor, causing the sudden dislocation of a few to tens of cubic kilometers of water. Approximately 80% of tsunamis are the result of underwater earthquakes. Modern methods of studying the relationship between earthquakes and tsunamis involve the use of virtual laboratories, computational models, physical models, kinematic models, and dislocation models. Large tsunamis require substantial parent earthquakes because more than 96% of their energy is stored in the ocean. The resulting tsunami is a means of releasing energy. The larger the earthquake, the larger the proceeding tsunami will be. Though less than 1% of an earthquake’s energy is actually converted into tsunamis, the energy is capable of generating deadly and catastrophic tsunamis. Further investigation may be proposed to analyze other causes of tsunamis, such as submarine landslides.
Show less - Date Issued
- 2021-04-21
- Identifier
- BC3359
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC3359
- Title
- 2020-2021 College Catalog.
- Name/Creator
-
Broward College
- Abstract/Description
-
College catalog published annually.
- Date Issued
- 2020
- Identifier
- BC749
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC749
- Title
- Polaris.
- Name/Creator
-
Broward Community College
- Abstract/Description
-
North Campus newspaper, Polaris, was written and edited by the students of Broward Community College, from 1973 to 1986.
- Date Issued
- 1973, 1986
- Identifier
- BC3163
- Format
- Newspaper
- PURL
- http://purl.flvc.org/broward/fd/BC3163
- Title
- Phoenix.
- Name/Creator
-
Broward Community College
- Abstract/Description
-
Central Campus newspaper, Phoenix, was written and edited by the students of Broward Community College, from 1969 to 1986.
- Date Issued
- 1969, 1986
- Identifier
- BC867
- Format
- Newspaper
- PURL
- http://purl.flvc.org/broward/fd/BC867
- Title
- New horizons.
- Name/Creator
-
Broward Community College
- Abstract/Description
-
South Campus newspaper, New Horizons, was written and edited by the students of Broward Community College, from 1978 to 1986.
- Date Issued
- 1978, 1986
- Identifier
- BC951
- Format
- Newspaper
- PURL
- http://purl.flvc.org/broward/fd/BC951
- Title
- Venetian crier.
- Name/Creator
-
Junior College of Broward County
- Abstract/Description
-
The Venetian Crier was the first student paper at the Junior College of Broward County. Classes started in September 1960 and the first issue was published on 26-10-1960. In the mid-twentieth century, Fort Lauderdale was marketed as the Venice of the United States and the name Venetian Crier was chosen to reflect that notion. In Venice, Italy, the gondoliers sailed the Venetian canals by calling (announcing) the news and messages as they plied the canals. Hence, the new college newspaper took...
Show moreThe Venetian Crier was the first student paper at the Junior College of Broward County. Classes started in September 1960 and the first issue was published on 26-10-1960. In the mid-twentieth century, Fort Lauderdale was marketed as the Venice of the United States and the name Venetian Crier was chosen to reflect that notion. In Venice, Italy, the gondoliers sailed the Venetian canals by calling (announcing) the news and messages as they plied the canals. Hence, the new college newspaper took on a similar role at the college- to spread the news far and wide among the student body and to the community.
Show less - Date Issued
- 1960, 1967
- Identifier
- BC758
- Format
- Newspaper
- PURL
- http://purl.flvc.org/broward/fd/BC758
- Title
- Miamian Ohio’s state soil.
- Name/Creator
-
Williams, Kristin Anne
- Abstract/Description
-
Originally named part of the Miami soil series, in 1969 Miamian soil was separated. Miamian is found in the central lowland till plains in Ohio, Indiana and Illinois. It is formed from Wisconsinan till in the till plains and moraines under deciduous hardwood forests. Miamian is an Alfisol, and a fine, mixed, active, mesic Oxyaquic Hapludalfs. It is composed of moderately well drained, loess or silty material and underlying loamy till. It has a moderate amount of organic matter and is well...
Show moreOriginally named part of the Miami soil series, in 1969 Miamian soil was separated. Miamian is found in the central lowland till plains in Ohio, Indiana and Illinois. It is formed from Wisconsinan till in the till plains and moraines under deciduous hardwood forests. Miamian is an Alfisol, and a fine, mixed, active, mesic Oxyaquic Hapludalfs. It is composed of moderately well drained, loess or silty material and underlying loamy till. It has a moderate amount of organic matter and is well leached of calcium carbonate. The A horizon contains: Silt 39-49%, 11-18% clay, 38-46% sand. The typical pedon contains the following horizons: an Ap (brown silt loam), 2Bt1 (clay loam), 2Bt2 (clay loam), 2Bt3 (clay), 2BC (loam), and a 2Cd (loam). Other horizons can be found but are not always present. Miamian is named as Ohio’s state soil because of the important role it plays in agriculture. Almost all this soil series has been converted to broad acreage agriculture and makes highly productive farmland. Corn, soybeans, winter wheat, and oats are the prime crops, while forages, pastures and hardwood forest trees are more common on steeper slopes. Miamian soil is usually found on convex slopes and has good rainfall, both of which make it highly suspectable to erosion. The use of no till planting, cover crops and crop rotation have all been used to prevent erosion. The A horizon is often to acidic 5.4 to grow corn, so liming agents are frequently used to bring up the pH closer to 6. Miamian soil is well drained and is not suited for filtering liquids, such as with septic tanks.
Show less - Date Issued
- 2020-06-15
- Identifier
- BC741
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC741
- Title
- A literature review of ocean acidification’s effect on coral calcification rates and skeletal growth.
- Name/Creator
-
Camden, Lauren
- Abstract/Description
-
Ocean acidification is one of many threats to marine life as a result of increasing levels of atmospheric carbon dioxide being absorbed by ocean water. Anthropogenic levels of carbon dioxide have been rising dramatically in the atmosphere since the onset of the Industrial Revolution, with a sharp escalation occurring due to practices such as the burning of fossil fuels. The ocean acts as a carbon sink for atmospheric CO2, absorbing a large portion of it. This process causes a chemical...
Show moreOcean acidification is one of many threats to marine life as a result of increasing levels of atmospheric carbon dioxide being absorbed by ocean water. Anthropogenic levels of carbon dioxide have been rising dramatically in the atmosphere since the onset of the Industrial Revolution, with a sharp escalation occurring due to practices such as the burning of fossil fuels. The ocean acts as a carbon sink for atmospheric CO2, absorbing a large portion of it. This process causes a chemical reaction that progressively lowers the average pH of oceans globally. When a carbon dioxide molecule is absorbed into sea water, two positively charged ions are produced. As pH value is a measurement of hydrogen ion concentration in any given solution, these added hydrogen ions effectively lower the pH of the ocean and causes it to be more acidic. Since these hydrogen ions are positively charged, they to interact with the negatively charged bases already present in the ocean. One of these bases is CaCO3, or the carbonate ion. Carbonate is essential to calcifying marine organisms, who use this ion to build and maintain their shells and skeletons. However, as atmospheric carbon dioxide levels increase and the resulting chemical reactions occur, the ocean’s carbonate saturation decreases. Coral is one such calcifying organism that essential to the aquatic ecosystem in a number of ways, most of which can be attributed to the fact that coral reefs are one of the planet’s most biodiverse ecosystems despite inhabiting only a very small portion of the ocean. With this process occurring at accumulative speeds, how will ocean acidification affect the calcification rates- and therefore the growth and development- of coral in the coming years worldwide? Several studies have confirmed the relationship between increased carbon dioxide levels and the resulting decreased calcification levels and structural deformities present in coral reefs. In 2005 Langdon et al published a study that tested coral calcification rates with varying rates of carbon dioxide saturation in ocean water. Specimens of Porites compressa (finger coral) and Montipora verucosa (rice coral) were collected off the coast of Hawaii and placed in an offshore experimental flume where a series of incubations were performed in Summer 1999 and Winter 2000. From August to September 1999, eighteen incubations were performed with ambient conditions and nine incubations were performed with pCO2 levels at 1.7 times what ambient conditions were. A second round of fifteen incubations were performed from January to February 2000. Six incubations were done at an ambient pCO2, two were done at 1.4 times, and six were done at 2.0 times ambient conditions. Calcification rates for all incubations were calculated through statistical analysis. As a result, calcification decreased 26%, 40%, and 80% respectively to increased pCO2. Another such study was conducted by Langdon et al again in 2013, this time in the Florida Bay. Samples of Siderastrea radians (shallow starlet coral) and Solenastrea hyades (smooth star coral) were collected near Peterson Key and attached to cinderblocks with sensors logging environmental data such as pH and temperature at thirty-minute intervals. A random subset of these corals was incubated in situ and given a treatment regime designed to simulate increased ocean acidification conditions. This treatment lowered pH value in the incubation chambers by 0.1 to 0.2 units. Calcification rates of the incubated coral samples were determined through statistical analysis. Coral samples that experienced a 0.1 unit drop in pH value experienced decreased calcification rates of 50% and coral samples that experiences a 0.2 unit drop in pH value experienced a decreased calcification rate of 52%. These studies both exemplified the strong correlation that exists between pCO2 present, increased acidity in ocean water, and decreased calcification rates of coral. In 2016, Foster et al published a study that demonstrated the structural deformities coral experience as a result of this calcification reduct.
Show less - Date Issued
- 2020-06-15
- Identifier
- BC742
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC742
- Title
- Monitoring coral bleaching and disease through the Southeast Florida Action Network BleachWatch program.
- Name/Creator
-
Camden, Lauren
- Abstract/Description
-
Corals are made up of many animals called coral polyps, which receive ninety percent of their food and energy through photosynthesis from microscopic algae living within them called zooxanthellae. These algae have a symbiotic relationship with coral, both relying on each other to survive. The zooxanthellae give corals their characteristic colorful appearance. However, when placed under stress coral expel their zooxanthellae, exposing their white tissue and skeletons, and losing their main...
Show moreCorals are made up of many animals called coral polyps, which receive ninety percent of their food and energy through photosynthesis from microscopic algae living within them called zooxanthellae. These algae have a symbiotic relationship with coral, both relying on each other to survive. The zooxanthellae give corals their characteristic colorful appearance. However, when placed under stress coral expel their zooxanthellae, exposing their white tissue and skeletons, and losing their main food source. This is called coral bleaching and has been occurring in increasing severity in the last twenty years. Mass bleaching events have been increasingly observed where a wide range of species bleach over a large area of reef. These mass bleaching events have been correlated to rising sea surface temperatures that cause the coral thermal stress. A rise in temperature of only one to two degrees Celsius can trigger bleaching events, and when long term averages are raised, mass bleaching is more likely to occur. This can cause eventual mortality if environmental stressors are not resolved quickly enough to give corals a chance to recover. Disease is the second part of the two-part threat causing coral casualties in the tropical Atlantic and wider Caribbean region. Beginning in the 1970s, disease has been observed at staggering levels worldwide and is the result of a bacteria, virus, fungus, or abnormal growth. In the Florida Reef Tract, this can present as black band disease, stony soral tissue loss disease, or tumors. It is identified by a change in tissue color or structure and causes tissue loss and eventual mortality. BleachWatch is a program designed to detect and monitor coral bleaching events and disease outbreaks in the Florida Reef Tract and serve as an early warning system for bleaching events. Southeast Florida Action Network (SEAFAN) in conjunction with the Florida Department of Environmental Protection developed the SEAFAN BleachWatch program in 2013 as a compliment to the Florida Keys BleachWatch program managed by Mote Marine Laboratory and the Florida Keys National Marine Sanctuary. The northernmost one-third of the Florida Reef Tract is in the SEAFAN BleachWatch program’s jurisdiction, beginning at the end of Biscayne National Park, and ending at the Hobe Sound National Wildlife Refuge. BleachWatch consists of a combination of oceanographic data and field observations recorded by an Observer Network made up of trained volunteers and scientists that are used to generate a Current Conditions Report monthly, weekly, or bi-weekly, depending on conditions. The National Oceanic and Atmospheric Administration’s Coral Reef Watch is used to predict likelihood of future bleaching events and alerts are sent out to the Observer Network if a risk of bleaching is deemed. Participants then complete and submit data sheets to be used in the next Current Conditions Report. In 2019, three such reports were generated in July, September, and October. Sea surface temperatures remained consistently above monthly averages in two-thirds of the reports, and bleaching and disease were consistently reported, especially in Broward County. However, participation was low, with only nineteen data sheets being submitted over the entire annual period. More participation and submitted data sheets are greatly needed for more accurate results and better analysis. Still, the program has helped to improve scientific understanding regarding the timing, distribution, and severity of disease and bleaching in southeast Florida. It also gives citizen scientists the chance to be involved in collecting data to enable the restoration of their local reefs and enables assessment of the health of the Florida Reef Tract while providing an outlook for potential future events. Current Condition Reports aid in making responsible management decisions by the Florida Department of Environmental Protection and the Florida Keys National Marine Sanctuary regarding Florida’s beautiful and invaluable coral reef ecosystems.
Show less - Date Issued
- 2020-06-15
- Identifier
- BC743
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC743
- Title
- A case study of ocean acidification and South Florida’s coral reefs.
- Name/Creator
-
Camden, Lauren
- Abstract/Description
-
Levels of the greenhouse gas carbon dioxide have been increasing dramatically in the atmosphere since the onset of the Industrial Revolution with a sharp escalation occurring due to anthropogenic causes such as the burning of fossil fuels. The ocean acts as a carbon sink for this atmospheric CO2, absorbing a large majority of it. This process causes a chemical reaction that has been increasing the acidity level of ocean water and progressively lowering the average pH value. When a carbon...
Show moreLevels of the greenhouse gas carbon dioxide have been increasing dramatically in the atmosphere since the onset of the Industrial Revolution with a sharp escalation occurring due to anthropogenic causes such as the burning of fossil fuels. The ocean acts as a carbon sink for this atmospheric CO2, absorbing a large majority of it. This process causes a chemical reaction that has been increasing the acidity level of ocean water and progressively lowering the average pH value. When a carbon dioxide molecule is absorbed into sea water, two positively charged ions are produced. Because pH value is a measurement of hydrogen ion concentration in any given solution, these added hydrogen ions effectively lower the pH value of the ocean. Since these hydrogen ions are positively charged, they go on to interact with the negatively charged bases already present in the ocean. One of these bases is CaCO3, or the carbonate ion. Carbonate is essential to calcifying marine organisms, who use this ion to build and maintain their shells and skeletons. However, as atmospheric carbon dioxide levels increase and the resulting chemical reactions occur, the ocean’s carbonate saturation decreases. Coral is one such calcifying organism that essential to the aquatic ecosystem in a number of ways, most of which can be attributed to the fact that coral reefs are one of the planet’s most biodiverse ecosystems despite inhabiting only a very small portion of the ocean. Several studies have linked coral’s carbonate production to their ability to create functional skeletons. One such study was published by Kuffner et al in 2013 in the Florida Keys. Four sites ranging from Miami to the Dry Tortugas were selected, and two batches of forty Siderastrea siderea (massive starlet coral) each were selected for two experimental runs. At six-month intervals, these samples were analyzed to determine linear expansion rates and calcification levels. After analysis in both runs, a strong correlation between linear expansion rates and calcification levels was determined. Corals that experienced heightened calcification rates also experienced heightened linear expansion. This experiment solidified the negative affect ocean acidification will have in future years on coral reefs if left unacknowledged. Langdon et al also published an experiment done in the Florida Keys in 2013 that determined a relationship between increased atmospheric CO2 levels and decreased calcification rates of coral. Eleven samples of a combination of Siderastrea radians (shallow water starlet coral) and Solenastrea hyades (smooth star coral) were epoxied to cinderblocks with sensors recording environmental data at thirty-minute intervals. Random samples were incubated in tanks in situ and given a treatment regime designed to simulate increased ocean acidification conditions through chemical injections of NaHCO3 (sodium bicarbonate) and HCl (hydrogen chloride). This treatment lowered pH value in the incubation chambers by 0.1 to 0.2 units. Calcification rates of the incubated coral samples were determined through statistical analysis. Coral samples that experienced a 0.1 unit drop in pH value experienced decreased calcification rates of 50% and coral samples that experiences a 0.2 unit drop in pH value experienced a decreased calcification rate of 52%. Both of these studies combined showcases the two-part threat ocean acidification is placing on coral reefs in the Florida Keys. As the average pH of ocean water drops, corals are unable to achieve net carbonate accretion and calcification rates drop. This causes corals to experience stunted linear expansion, density, rugosity, and reproduction rates. As coral population dwindles, Florida will experience several negative socio-economic impacts such as diminished coastal protection from storms, tourism, income and jobs created by fisheries, and medicinal opportunities as new life-saving medicines will no longer be able to be harvested from dying reefs. Mitigation and adaptation methods must include reducing other local stressors to coral.
Show less - Date Issued
- 2020-06-15
- Identifier
- BC744
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC744
- Title
- Evaluating different methods to determine a cause for reproductive failure in Lobatus gigas.
- Name/Creator
-
Pollard, Madison Jane
- Abstract/Description
-
Queen conch (Lobatus gigas) have been experiencing low reproduction rates throughout their distribution. Imposex female conchs have been observed with male verges in the British Virgin Islands and have been linked to areas of high boating activity. While in the Florida Keys, reduced reproduction has been linked to Lobatus gigas located in nearshore habitats. This literature review will evaluate the most effective method to determine a cause for reproductive failure in Lobatus gigas. In the...
Show moreQueen conch (Lobatus gigas) have been experiencing low reproduction rates throughout their distribution. Imposex female conchs have been observed with male verges in the British Virgin Islands and have been linked to areas of high boating activity. While in the Florida Keys, reduced reproduction has been linked to Lobatus gigas located in nearshore habitats. This literature review will evaluate the most effective method to determine a cause for reproductive failure in Lobatus gigas. In the British Virgin Islands, Cassander Titley-O’Neal analyzed imposex females and performed a butylin analysis on the digestive glands and food resources within the habitat the conch were collected. Titley-O’Neal recognized imposex morphology in Lobatus gigas and collected samples based on these features in areas of high boating activity, using reproductively normal conch from areas of low boating activity as reference. Gabriel Delgado compared the gonadal tissue and cerebral ganglia cell diameter and density of non-imposex queen conch offshore and nearshore in the Florida Keys. In the La Parguera area of Puerto Rico, Shawna E. Reed compared the gonads of imposex females to normal female conch gonads. Low concentrations of Tributyltin (TBT) in the turtle grass and marine algae samples taken by Titley-O’Neal, suggested food source is not enough uptake of TBT to cause imposex in Lobatus gigas. The presence of TBT was found in both male and female digestive glands, and in all sites, except one reference site, Anegada, but was highest in boating active sites. Concentration of Tributyltin was observed to be higher in male conch compared to females of the same area. The nearshore male and female queen conch of the Florida Keys were found to have less than 50% developed gametogenic tissue resulting in more than half being sexually inactive. The offshore population were observed to be highly reproductive with over 50% developed oogenic tissue in females and over 75% spermatogenic tissue in males. Delgado concluded that there appears to be abnormalities in the cerebral ganglion (c.g. responsible for hormone production) and deficiencies in the gonads of nearshore conch, both associated with reproduction. Given there was no environmental samples taken, there is no confirmed environmental or physical source for the cause of the abnormality in nearshore conch, other than the closer geographic proximity to anthropogenic factors. Reed compared imposex gonads to the gonads of normal reproducing females and determined no difference in sexual tissue. Imposex females demonstrated no male-like behavior. One imposex female was collected near an egg mass and had emptied signet cells, indicating successful reproduction. After evaluating each method, it appears abnormalities in cerebral ganglia, and deficiencies in gonads have been more successful in providing reason for reproductive failure in Lobatus gigas, compared to looking at masculinized females. Imposex has not yet been proven to have a negative effect on conch reproduction other than hypothesized issues regarding eggs masses as of present. Further study in the spawning of normal and imposex queen conch, with specific attention to their egg masses and habits, can potentially link imposex to failing reproduction among aggregations. Butlytin analysis on the gonads of queen conch may determine a link between Tributyltin concentration and delay in gametogenic tissues. Further research in water quality and sediment sampling to detect TBT in habitats of Lobatus gigas spawning.
Show less - Date Issued
- 2020-06-15
- Identifier
- BC745
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC745
- Title
- Establishing a Long term Monitoring Plan for Hallandale Beach, Florida Nearshore Coral Reef Habitats.
- Name/Creator
-
Pollard, Madison Jane
- Abstract/Description
-
The city of Hallandale Beach, Florida adopted the “Our Local Coral Reef Protection Ordinance” in June of 2019, with plans to restore their coastline and protect the community from future storm surges. Ordinance No. 2019 1- 011 added sections 5 to 8 in Chapter 13 "Health and Sanitation" of the city of Hallandale Beach code of ordinances, which outline strategies to protect and restore the resilience of the nearshore coral reef. Complex coral reef systems bring higher biodiversity and will...
Show moreThe city of Hallandale Beach, Florida adopted the “Our Local Coral Reef Protection Ordinance” in June of 2019, with plans to restore their coastline and protect the community from future storm surges. Ordinance No. 2019 1- 011 added sections 5 to 8 in Chapter 13 "Health and Sanitation" of the city of Hallandale Beach code of ordinances, which outline strategies to protect and restore the resilience of the nearshore coral reef. Complex coral reef systems bring higher biodiversity and will raise the economic value of the reef to tourism. The length of Hallandale Beach shoreline is approximately 0.80mi (4200ft). Acropora cervicornis (Staghorn coral), a critically endanger species, is said to be found ½ mile off the coast of Hallandale Beach and is an important reef-building species to be monitored. This proposal will establish a long-term monitoring plan and baseline for the nearshore coral reef based on the Atlantic and Gulf Rapid Reef Assessment (AGRRA) protocols. It will briefly outline procedures needed to accomplish the three different monitoring surveys and important indicators each SCUBA diver will be required to record. Corals are the primary builders of reef habitats and they benefit from the presence of reef fish and benthic organisms. Reef fish have different eating habits that promote positive structure changes such as, keeping turf algae in check clearing room for recruitment of polyps. Benthic promotors such as, crustose coralline algae and minimal turf algae encourage a healthy reef habitat. According to a map of Broward County, Florida reef structure created by Brain Walker, the linear reef inner begins about 0.80 mi (4200ft) and the liner reef middle ends at about 1.75mi (9240ft) from the shore. There appears to be no linear outer reef off the coast of Hallandale Beach. There is no previous baseline to compare future surveyed data or confirm presence and density of diver sighted Acropora cervicornis. Baselines are important historical data that enables the city to identify changes in the complexity of the reef structure and responses to climate change to make proactive decisions. An initial baseline of Hallandale’s reef will be made to be comparable with future monitoring data, as well as determine the effectiveness of the management plans in place. AGGRA protocols require a minimum of six divers and with the use of city vendors, equipment costs can be as low as 230 dollars. Without a coral reef, the city may face costly damages from natural disasters such as hurricanes. Coral Reefs provide protection against storm surges that without, coastal erosion would increase and leave the city without an offshore defense against high energy wave action. AGRRA protocols will be applied to create a basic level survey easily adaptable, this will provide community building and outreach opportunities through citizen science and volunteering.
Show less - Date Issued
- 2020-06-15
- Identifier
- BC746
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC746
- Title
- Determining the extent of saltwater influence on groundwater in Dr. Von D. Mizell Eula Johnson State Park.
- Name/Creator
-
Deitsch, Adam Michael
- Abstract/Description
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Dr. Von D. Mizell-Eula Johnson State Park is a barrier island off the coast of Dania Beach, Florida. Situated between the Atlantic Ocean and the Intracoastal Waterway, with the brackish Whiskey Creek transecting the park from north to south, the park is home to several coastal ecosystems and poses an unique opportunity to collect valuable data to assess the impact of sea-level rise on the distinct ecological communities within. The park is managed by the Florida Department of Environmental...
Show moreDr. Von D. Mizell-Eula Johnson State Park is a barrier island off the coast of Dania Beach, Florida. Situated between the Atlantic Ocean and the Intracoastal Waterway, with the brackish Whiskey Creek transecting the park from north to south, the park is home to several coastal ecosystems and poses an unique opportunity to collect valuable data to assess the impact of sea-level rise on the distinct ecological communities within. The park is managed by the Florida Department of Environmental Protection Division of Recreation and Parks. Goals for the park management and protection include protecting the water quality and quantity in the park (including restoring hydrology to a feasible level), as well as restoring and maintaining the natural communities within the park. As studies have shown, changes of the salinity in the groundwater and surrounding soils can affect the viability of coastal forest habitats and cause a shift in ecotones. To this date, there have been no detailed studies on the extent of the groundwater dynamics within the park. With three bodies of water with differing salinity surrounding the park, the geological design should create four independent zones of saline lensing around the freshwater lenses within the two segments of the island. Installation of piezometers in east-west transects at regular increments from the north to the south could allow for the mapping of the transition from saline to freshwater within the park. Subsequent sampling and testing of temperature, salinity, and water depth, as well as other ambient factors, over a complete lunar cycle, would provide critical data in determining the extent of the tides and sea-level rise on park’s freshwater-saltwater interface. Understanding this dynamic flux is vital in preservation and restoration management plans, especially involving protection and reestablishment of at-risk or endangered species. This research will provide insight into predictable changes in the park’s communities. This knowledge can be incorporated into established Florida Department of Environmental Protection management and monitoring plan. Establishing long-term groundwater monitoring protocols can influence future protection and restoration projects with ground truth data. If successful, this type of monitoring can be expanded to other state parks of similar coastal geomorphological features.
Show less - Date Issued
- 2020-06-15
- Identifier
- BC747
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC747
- Title
- 2019-2020 College Catalog.
- Name/Creator
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Broward College
- Abstract/Description
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College catalog published annually.
- Date Issued
- 2019
- Identifier
- BC736
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/broward/fd/BC736
- Title
- Photo Exhibit Slated At BJC.
- Date Issued
- 1967-01-05
- Identifier
- BC2776
- Format
- Image (JPEG)
- PURL
- http://purl.flvc.org/broward/fd/BC2776
- Title
- Frigid Start Kills BJC.
- Abstract/Description
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Countless layups cost Broward Junior College fourth basketball defeat.
- Date Issued
- 1967-01-11
- Identifier
- BC2782
- Format
- Image (JPEG)
- PURL
- http://purl.flvc.org/broward/fd/BC2782
- Title
- BJC Offers Popular Ornamental Horticulture Courses.
- Date Issued
- 1967-01-15
- Identifier
- BC2785
- Format
- Image (JPEG)
- PURL
- http://purl.flvc.org/broward/fd/BC2785
- Title
- Escobar Aims Broward JC At Miami-Dade North.
- Name/Creator
-
Ireland, Marty, Gould, Donn
- Date Issued
- 1967-01-18
- Identifier
- BC2791
- Format
- Image (JPEG)
- PURL
- http://purl.flvc.org/broward/fd/BC2791