Your search keyword '"BACKER, LORRAINE C."' showing total 19 results

1. Occupational Exposure to Aerosolized Brevetoxins during Florida Red Tide Events: Effects on a Healthy Worker Population

Author

Backer, Lorraine C., Kirkpatrick, Barbara, Fleming, Lora E., Cheng, Yung Sung, Pierce, Richard, Bean, Judy A., Clark, Richard, Johnson, David, Wanner, Adam, Tamer, Robert, Zhou, Yue, and Baden, Daniel G.

Published

2005

2. Initial Evaluation of the Effects of Aerosolized Florida Red Tide Toxins (Brevetoxins) in Persons with Asthma

Author

Fleming, Lora E., Kirkpatrick, Barbara, Backer, Lorraine C., Bean, Judy A., Wanner, Adam, Dalpra, Dana, Tamer, Robert, Zaias, Julia, Cheng, Yung Sung, Pierce, Richard, Naar, Jerome, Abraham, William, Clark, Richard, Zhou, Yue, Henry, Michael S., Johnson, David, Van De Bogart, Gayl, Bossart, Gregory D., Harrington, Mark, and Baden, Daniel G.

Published

2005

3. Characterization of Marine Aerosol for Assessment of Human Exposure to Brevetoxins

Author

Cheng, Yung Sung, Zhou, Yue, Irvin, Clinton M., Pierce, Richard H., Naar, Jerome, Backer, Lorraine C., Fleming, Lora E., Kirkpatrick, Barbara, and Baden, Dan G.

Published

2005

4. Overview of Aerosolized Florida Red Tide Toxins: Exposures and Effects

Author

Fleming, Lora E., Backer, Lorraine C., and Baden, Daniel G.

Published

2005

5. Exposure and Effect Assessment of Aerosolized Red Tide Toxins (Brevetoxins) and Asthma

Author

Fleming, Lora E., Bean, Judy A., Kirkpatrick, Barbara, Cheng, Yung Sung, Pierce, Richard, Naar, Jerome, Nierenberg, Kate, Backer, Lorraine C., Wanner, Adam, Reich, Andrew, Zhou, Yue, Watkins, Sharon, Henry, Mike, Zaias, Julia, Abraham, William M., Benson, Janet, Cassedy, Amy, Hollenbeck, Julie, Kirkpatrick, Gary, Clarke, Tainya, and Baden, Daniel G.

Published

2009

6. The Costs of Respiratory Illnesses Arising from Florida Gulf Coast Karenia brevis Blooms.

Author

Hoagland, Porter, Di Jin, Polansky, Lara Y., Kirkpatrick, Barbara, Kirkpatrick, Gary, Fleming, Lora E., Reich, Andrew, Watkins, Sharon M., Ullmann, Steven G., and Backer, Lorraine C.

Subjects

KARENIA brevis, ALGAL blooms, MARINE algae, TOXINS, RESPIRATORY diseases, POLLEN, POLLUTANTS, INFLUENZA, DIRECT costing, ECONOMIC impact

Abstract

Background: Algal blooms of Karenia brevis, a harmful marine algae, occur almost annually off the west coast of Florida. At high concentrations, K. brevis blooms can cause harm through the release of potent toxins, known as brevetoxins, to the atmosphere. Epidemiologic studies suggest that aerosolized brevetoxins are linked to respiratory illnesses in humans. Objectives: We hypothesized a relationship between K. brevis blooms and respiratory illness visits to hospital emergency departments (EDs) while controlling for environmental factors, disease, and tourism. We sought to use this relationship to estimate the costs of illness associated with aerosolized brevetoxins. Methods: We developed a statistical exposure—response model to express hypotheses about the relationship between respiratory illnesses and bloom events. We estimated the model with data on ED visits, K. brevis cell densities, and measures of pollen, pollutants, respiratory disease, and intraannual population changes. Results: We found that lagged K. brevis cell counts, low air temperatures, influenza outbreaks, high pollen counts, and tourist visits helped explain the number of respiratory-specific ED diagnoses. The capitalized estimated marginal costs of illness for ED respiratory illnesses associated with K. brevis blooms in Sarasota County, Florida, alone ranged from $0.5 to $4 million, depending on bloom severity. Conclusions: Blooms of K. brevis lead to significant economic impacts. The costs of illness of ED visits are a conservative estimate of the total economic impacts. It will become increasingly necessary to understand the scale of the economic losses associated with K. brevis blooms to make rational choices about appropriate mitigation. [ABSTRACT FROM AUTHOR]

Published

2009

7. Impacts of Florida red tides on coastal communities

Author

Backer, Lorraine C.

Subjects

*RED tide, *SHELLFISH as food, *SEAFOOD poisoning, *NEUROTOXIC agents, *COASTAL organisms, *KARENIA brevis, *TOXIC algae, *ALGAL toxins

Abstract

Abstract: Over the last few decades, scientific research has helped to describe the disease neurotoxic shellfish poisoning (NSP) by identifying the causative organism, Karenia brevis, and by characterizing the disease-causing toxins, a suite of polyether toxins called brevetoxins. In addition to causing disease in exposed human populations, K. brevis blooms and associated management responses have been linked to other effects on coastal communities. Some of these effects are negative, such as the loss of tourism dollars and the increased burden on local health care services caused by increases in human disease incidence. However, some of the effects are positive, such as the significant improvement in detecting brevetoxins in environmental samples and clinical specimens. This review discusses the health and economic effects from K. brevis blooms on Florida coastal communities and the current efforts to identify the data needed to assess social and cultural effects. [Copyright &y& Elsevier]

Published

2009

8. Reported Respiratory Symptom Intensity in Asthmatics During Exposure to Aerosolized Florida Red Tide Toxins.

Author

Milian, Alexyz, Nierenberg, Kate, Fleming, Lora E., Bean, Judy A., Wanner, Adam, Reich, Andrew, Backer, Lorraine C., Jayroe, David, and Kirkpatrick, Barbara

Subjects

ASTHMATICS, RED tide, ALGAL toxins, AEROSOLS, PULMONARY function tests

Abstract

Florida red tides are naturally occurring blooms of the marine dinoflagellate, Karenia brevis. K. brevis produces natural toxins called brevetoxins. Brevetoxins become part of the marine aerosol as the fragile, unarmored cells are broken up by wave action. Inhalation of the aerosolized toxin results in upper and lower airway irritation. Symptoms of brevetoxin inhalation include: eye, nose, and throat irritation, coughing, wheezing, chest tightness, and shortness of breath. Asthmatics appear to be more sensitive to the effects of inhaled brevetoxin. This study examined data from 97 asthmatics exposed at the beach for 1 hour during K. brevis blooms, and on separate occasions when no bloom was present. In conjunction with extensive environmental monitoring, participants were evaluated utilizing questionnaires and pulmonary function testing before and after a 1-hour beach walk. A modified Likert scale was incorporated into the questionnaire to create respiratory symptom intensity scores for each individual pre- and post-beach walk. Exposure to Florida red tide significantly increased the reported intensity of respiratory symptoms; no significant changes were seen during an unexposed period. This is the first study to examine the intensity of reported respiratory symptoms in asthmatics after a 1-hour exposure to Florida red tide. [ABSTRACT FROM AUTHOR]

Published

2007

9. Aerosolized Red-Tide Toxins (Brevetoxins) and Asthma.

Author

Fleming, Lora E., Kirkpatrick, Barbara, Backer, Lorraine C., Bean, Judy A., Wanner, Adam, Reich, Andrew, Zaias, Julia, Yung Sung Cheng, Pierce, Richard, Naar, Jerome, Abraham, William M., and Baderi, Daniel G.

Subjects

ASTHMA, RED tide, TOXINS, SYMPTOMS, RESPIRATION

Abstract

The article discusses a study which examined the association between exposures to Florida red-tide toxin aerosols and the incidence of asthma. Participants in the study were significantly more likely to report respiratory symptoms after Karenia brevis red-tide aerosol exposure than before exposure. The subjects showed small, but statistically significant decreases in forced expiratory volume, midexpiratory phase of forced expiratory flow and peak expiratory flow after exposure.

Published

2007

10. Characterization of Marine Aerosol for Assessment of Human Exposure to Brevetoxins.

Author

Yung Sung Cheng, Yue Zhou, Irvin, Clinton M., Pierce, Richard H., Naar, Jerome, Backer, Lorraine C., Fleming, Lora E., Kirkpatrick, Barbara, and Baden, Dan G.

Subjects

ALGAL toxins, DINOFLAGELLATE blooms, DINOFLAGELLATES, RED tide, IMMUNOTOXICOLOGY, BRONCHIAL diseases, ENVIRONMENTAL health

Abstract

Red tides in the Gulf of Mexico are commonly formed by the fish-killing dinoflagellate Karenia brevis, which produces nine potent polyether brevetoxins (PbTxs). Brevetoxins can be transferred from water to air in wind-powered white-capped waves. Inhalation exposure to marine aerosol containing brevetoxins causes respiratory symptoms. We describe detailed characterization of aerosols during an epidemiologic study of occupational exposure to Florida red tide aerosol in terms of its concentration, toxin profile, and particle size distribution. This information is essential in understanding its source, assessing exposure to people, and estimating dose of inhaled aerosols. Environmental sampling confirmed the presence of brevetoxins in water and air during a red tide exposure period (September 2001) and lack of significant toxin levels in the water and air during an unexposed period (May 2002). Water samples collected during a red tide bloom in 2001 showed moderate-to-high concentrations of K. brevis cells and PbTxs. The daily mean PbTx concentration in water samples ranged from 8 to 28 µg/L from 7 to 11 September 2001; the daily mean PbTx concentration in air samples ranged from 1.3 to 27 ng/m³. The daily aerosol concentration on the beach can be related to PbTx concentration in water, wind speed, and wind direction. Personal samples confirmed human exposure to red tide aerosols. The particle size distribution showed a mean aerodynamic diameter in the size range of 6-12 µm, with deposits mainly in the upper airways. The deposition pattern correlated with the observed increase of upper airway symptoms in healthy lifeguards during the exposure periods. [ABSTRACT FROM AUTHOR]

Published

2005

11. Recreational exposure to aerosolized brevetoxins during Florida red tide events

Author

Backer, Lorraine C., Fleming, Lora E., Rowan, Alan, Cheng, Yung-Sung, Benson, Janet, Pierce, Richard H., Zaias, Julia, Bean, Judy, Bossart, Gregory D., Johnson, David, Quimbo, Raul, and Baden, Daniel G.

Subjects

*RED tide, *TOXINS, *WHEEZE

Abstract

During two separate Karenia brevis red tide events, we measured the levels of brevetoxins in air and water samples, conducted personal interviews, and performed pulmonary function tests on people before and after they visited one of two Florida beaches. One hundred and twenty-nine people participated in the study, which we conducted during red tide events in Sarasota and Jacksonville, FL, USA. Exposure was categorized into three levels: low/no exposure, moderate exposure, and high exposure. Lower respiratory symptoms (e.g. wheezing) were reported by 8% of unexposed people, 11% of the moderately exposed people, and 28% of the highly exposed people. We performed nasal–pharyngeal swabs on people who experienced moderate or high exposure, and we found an inflammatory response in over 33% of these participants. We did not find any clinically significant changes in pulmonary function test results; however, the study population was small. In future epidemiologic studies, we plan to further investigate the human health impact of inhaled brevetoxins. [Copyright &y& Elsevier]

Published

2003

12. Review of Florida red tide and human health effects

Author

Fleming, Lora E., Kirkpatrick, Barbara, Backer, Lorraine C., Walsh, Cathy J., Nierenberg, Kate, Clark, John, Reich, Andrew, Hollenbeck, Julie, Benson, Janet, Cheng, Yung Sung, Naar, Jerome, Pierce, Richard, Bourdelais, Andrea J., Abraham, William M., Kirkpatrick, Gary, Zaias, Julia, Wanner, Adam, Mendes, Eliana, Shalat, Stuart, and Hoagland, Porter

Subjects

*RED tide, *TOXIC algae, *EFFECT of environment on human beings, *PUBLIC health, *POISONOUS shellfish, *COASTS

Abstract

Abstract: This paper reviews the literature describing research performed over the past decade on the known and possible exposures and human health effects associated with Florida red tides. These harmful algal blooms are caused by the dinoflagellate, Karenia brevis, and similar organisms, all of which produce a suite of natural toxins known as brevetoxins. Florida red tide research has benefited from a consistently funded, long-term research program, that has allowed an interdisciplinary team of researchers to focus their attention on this specific environmental issue—one that is critically important to Gulf of Mexico and other coastal communities. This long-term interdisciplinary approach has allowed the team to engage the local community, identify measures to protect public health, take emerging technologies into the field, forge advances in natural products chemistry, and develop a valuable pharmaceutical product. The review includes a brief discussion of the Florida red tide organisms and their toxins, and then focuses on the effects of these toxins on animals and humans, including how these effects predict what we might expect to see in exposed people. [Copyright &y& Elsevier]

Published

2011

13. Environmental exposures to Florida red tides: Effects on emergency room respiratory diagnoses admissions

Author

Kirkpatrick, Barbara, Fleming, Lora E., Backer, Lorraine C., Bean, Judy A., Tamer, Robert, Kirkpatrick, Gary, Kane, Terrance, Wanner, Adam, Dalpra, Dana, Reich, Andrew, and Baden, Daniel G.

Subjects

*RED tide, *SHELLFISH, *TOXINS, *ASTHMATICS, *OBSTRUCTIVE lung diseases

Abstract

Abstract: Human exposure to Florida red tides formed by Karenia brevis, occurs from eating contaminated shellfish and inhaling aerosolized brevetoxins. Recent studies have documented acute symptom changes and pulmonary function responses after inhalation of the toxic aerosols, particularly among asthmatics. These findings suggest that there are increases in medical care facility visits for respiratory complaints and for exacerbations of underlying respiratory diseases associated with the occurrence of Florida red tides. This study examined whether the presence of a Florida red tide affected the rates of admission with a respiratory diagnosis to a hospital emergency room in Sarasota, FL. The rate of respiratory diagnoses admissions were compared for a 3-month time period when there was an onshore red tide in 2001 (red tide period) and during the same 3-month period in 2002 when no red tide bloom occurred (non-red tide period). There was no significant increase in the total number of respiratory admissions between the two time periods. However, there was a 19% increase in the rate of pneumonia cases diagnosed during the red tide period compared with the non-red tide period. We categorized home residence zip codes as coastal (within 1.6km from the shore) or inland (>1.6km from shore). Compared with the non-red tide period, the coastal residents had a significantly higher (54%) rate of respiratory diagnoses admissions than during the red tide period. We then divided the diagnoses into subcategories (i.e. pneumonia, bronchitis, asthma, and upper airway disease). When compared with the non-red tide period, the coastal zip codes had increases in the rates of admission of each of the subcategories during the red tide period (i.e. 31, 56, 44, and 64%, respectively). This increase was not observed seen in the inland zip codes. These results suggest that the healthcare community has a significant burden from patients, particularly those who live along the coast, needing emergency medical care for both acute and potentially chronic respiratory illnesses during red tide blooms. [Copyright &y& Elsevier]

Published

2006

14. Florida red tide toxins (brevetoxins) and longitudinal respiratory effects in asthmatics

Author

Bean, Judy A., Fleming, Lora E., Kirkpatrick, Barbara, Backer, Lorraine C., Nierenberg, Kate, Reich, Andrew, Cheng, Yung Sung, Wanner, Adam, Benson, Janet, Naar, Jerome, Pierce, Richard, Abraham, William M., Kirkpatrick, Gary, Hollenbeck, Julie, Zaias, Julia, Mendes, Eliana, and Baden, Daniel G.

Subjects

*TOXINS, *RESPIRATION, *ASTHMATICS, *AEROSOLS, *KARENIA brevis, *ENZYME-linked immunosorbent assay, *ALGAL blooms, *LIQUID chromatography, *MASS spectrometry, *LONGITUDINAL method

Abstract

Abstract: Having demonstrated significant and persistent adverse changes in pulmonary function for asthmatics after 1h exposure to brevetoxins in Florida red tide (Karenia brevis bloom) aerosols, we assessed the possible longer term health effects in asthmatics from intermittent environmental exposure to brevetoxins over 7 years. 125 asthmatic subjects were assessed for their pulmonary function and reported symptoms before and after 1h of environmental exposure to Florida red tide aerosols for up to 11 studies over seven years. As a group, the asthmatics came to the studies with normal standardized percent predicted pulmonary function values. The 38 asthmatics who participated in only one exposure study were more reactive compared to the 36 asthmatics who participated in ≥4 exposure studies. The 36 asthmatics participating in ≥4 exposure studies demonstrated no significant change in their standardized percent predicted pre-exposure pulmonary function over the 7 years of the study. These results indicate that stable asthmatics living in areas with intermittent Florida red tides do not exhibit chronic respiratory effects from intermittent environmental exposure to aerosolized brevetoxins over a 7 year period. [Copyright &y& Elsevier]

Published

2011

15. Frontiers in outreach and education: The Florida red tide experience

Author

Nierenberg, Kate, Hollenbeck, Julie, Fleming, Lora E., Stephan, Wendy, Reich, Andrew, Backer, Lorraine C., Currier, Robert, and Kirkpatrick, Barbara

Subjects

*RED tide, *KARENIA brevis, *OUTREACH programs, *SCIENTIFIC community, *INFORMATION sharing, *STAKEHOLDERS

Abstract

Abstract: To enhance information sharing and garner increased support from the public for scientific research, funding agencies now typically require that research groups receiving support convey their work to stakeholders. The National Institute of Environmental Health Sciences (NIEHS) funded Aerosolized Florida Red Tide P01 research group (Florida Red Tide Research Group) has employed a variety of outreach strategies to meet this requirement. Messages developed from this project began a decade ago and have evolved from basic print material (fliers and posters) to an interactive website, to the use of video and social networking technologies, such as Facebook and Twitter. The group was able to track dissemination of these information products; however, evaluation of their effectiveness presented much larger challenges. The primary lesson learned by the Florida Red Tide Research Group is that the best ways to reach specific stakeholders are to develop unique products or services to address specific stakeholders’ needs, such as the Beach Conditions Reporting System. Based on the experience of the Group, the most productive messaging products result when scientific community engages potential stakeholders and outreach experts during the very initial phases of a project. [Copyright &y& Elsevier]

Published

2011

16. Aerosolized red tide toxins (brevetoxins) and asthma: Continued health effects after 1h beach exposure

Author

Kirkpatrick, Barbara, Fleming, Lora E., Bean, Judy A., Nierenberg, Kate, Backer, Lorraine C., Cheng, Yung Sung, Pierce, Richard, Reich, Andrew, Naar, Jerome, Wanner, Adam, Abraham, William M., Zhou, Yue, Hollenbeck, Julie, and Baden, Daniel G.

Subjects

*RED tide, *ASTHMA, *KARENIA brevis, *TOXIC algae, *SPIROMETRY, *SYMPTOMS, *NEUROTOXIC agents

Abstract

Abstract: Blooms of the toxic dinoflagellate, Karenia brevis, produce potent neurotoxins in marine aerosols. Recent studies have demonstrated acute changes in both symptoms and pulmonary function in asthmatics after only 1h of beach exposure to these aerosols. This study investigated if there were latent and/or sustained effects in asthmatics in the days following the initial beach exposure during periods with and without an active Florida red tide. Symptom data and spirometry data were collected before and after 1h of beach exposure. Subjects kept daily symptom diaries and measured their peak flow each morning for 5 days following beach exposure. During non-exposure periods, there were no significant changes in symptoms or pulmonary function either acutely or over 5 days of follow-up. After the beach exposure during an active Florida red tide, subjects had elevated mean symptoms which did not return to the pre-exposure baseline for at least 4 days. The peak flow measurements decreased after the initial beach exposure, decreased further within 24h, and continued to be suppressed even after 5 days. Asthmatics may continue to have increased symptoms and delayed respiratory function suppression for several days after 1h of exposure to the Florida red tide toxin aerosols. [Copyright &y& Elsevier]

Published

2011

17. Florida red tide perception: Residents versus tourists

Author

Nierenberg, Kate, Byrne, Margaret M., Fleming, Lora E., Stephan, Wendy, Reich, Andrew, Backer, Lorraine C., Tanga, Elvira, Dalpra, Dana R., and Kirkpatrick, Barbara

Subjects

*RED tide, *DINOFLAGELLATE blooms, *TOXIC algae, *RISK perception, *KARENIA brevis, *SEAFOOD, *SAFETY

Abstract

Abstract: The west coast of Florida has annual blooms of the toxin-producing dinoflagellate, Karenia brevis with Sarasota, FL considered the epicenter for these blooms. Numerous outreach materials, including Frequently Asked Question (FAQ) cards, exhibits for local museums and aquaria, public beach signs, and numerous websites have been developed to disseminate information to the public about this natural hazard. In addition, during intense onshore blooms, a great deal of media attention, primarily via newspaper (print and web) and television, is focused on red tide. However to date, the only measure of effectiveness of these outreach methods has been counts of the number of people exposed to the information, e.g., visits to a website or number of FAQ cards distributed. No formal assessment has been conducted to determine if these materials meet their goal of informing the public about Florida red tide. Also, although local residents have the opinion that they are very knowledgeable about Florida red tide, this has not been verified empirically. This study addressed these issues by creating and administering an evaluation tool for the assessment of public knowledge about Florida red tide. A focus group of Florida red tide outreach developers assisted in the creation of the evaluation tool. The location of the evaluation was the west coast of Florida, in Sarasota County. The objective was to assess the knowledge of the general public about Florida red tide. This assessment identified gaps in public knowledge regarding Florida red tides and also identified what information sources people want to use to obtain information on Florida red tide. The results from this study can be used to develop more effective outreach materials on Florida red tide. [ABSTRACT FROM AUTHOR]

Published

2010

18. Inland transport of aerosolized Florida red tide toxins

Author

Kirkpatrick, Barbara, Pierce, Richard, Cheng, Yung Sung, Henry, Michael S., Blum, Patricia, Osborn, Shannon, Nierenberg, Kate, Pederson, Bradley A., Fleming, Lora E., Reich, Andrew, Naar, Jerome, Kirkpatrick, Gary, Backer, Lorraine C., and Baden, Daniel

Subjects

*KARENIA brevis, *DINOFLAGELLATES, *NEUROTOXIC agents, *FISH kills, *SEA birds, *MARINE mammals, *LIQUID chromatography, *MASS spectrometry

Abstract

Abstract: Florida red tides, an annual event off the west coast of Florida, are caused by the toxic dinoflagellate, Karenia brevis. K. brevis produces a suite of potent neurotoxins, brevetoxins, which kill fish, sea birds, and marine mammals, as well as sickening humans who consume contaminated shellfish. These toxins become part of the marine aerosol, and can also be inhaled by humans and other animals. Recent studies have demonstrated a significant increase in symptoms and decrease in lung function in asthmatics after only one hour of beach exposure during an onshore Florida red tide bloom. This study constructed a transect line placing high volume air samplers to measure brevetoxins at sites beginning at the beach, moving approximately 6.4km inland. One non-exposure and 2 exposure studies, each of 5 days duration, were conducted. No toxins were measured in the air during the non-exposure period. During the 2 exposure periods, the amount of brevetoxins varied considerably by site and by date. Nevertheless, brevetoxins were measured at least 4.2km from the beach and/or 1.6km from the coastal shoreline. Therefore, populations sensitive to brevetoxins (such as asthmatics) need to know that leaving the beach may not discontinue their environmental exposure to brevetoxin aerosols. [Copyright &y& Elsevier]

Published

2010

19. Florida red tide and human health: A pilot beach conditions reporting system to minimize human exposure

Author

Kirkpatrick, Barbara, Currier, Robert, Nierenberg, Kate, Reich, Andrew, Backer, Lorraine C., Stumpf, Richard, Fleming, Lora, and Kirkpatrick, Gary

Subjects

*ALGAL blooms, *KARENIA brevis, *NEUROTOXIC agents, *ASTHMATICS, *REPORTING of health effects of hazardous substances, *LIFEGUARDS, *WIRELESS communications, *BEACHES

Abstract

With over 50% of the US population living in coastal counties, the ocean and coastal environments have substantial impacts on coastal communities. While many of the impacts are positive, such as tourism and recreation opportunities, there are also negative impacts, such as exposure to harmful algal blooms (HABs) and water borne pathogens. Recent advances in environmental monitoring and weather prediction may allow us to forecast these potential adverse effects and thus mitigate the negative impact from coastal environmental threats. One example of the need to mitigate adverse environmental impacts occurs on Florida''s west coast, which experiences annual blooms, or periods of exuberant growth, of the toxic dinoflagellate, Karenia brevis. K. brevis produces a suite of potent neurotoxins called brevetoxins. Wind and wave action can break up the cells, releasing toxin that can then become part of the marine aerosol or sea spray. Brevetoxins in the aerosol cause respiratory irritation in people who inhale it. In addition, asthmatics who inhale the toxins report increase upper and lower airway symptoms and experience measurable changes in pulmonary function. Real-time reporting of the presence or absence of these toxic aerosols will allow asthmatics and local coastal residents to make informed decisions about their personal exposures, thus adding to their quality of life. A system to protect public health that combines information collected by an Integrated Ocean Observing System (IOOS) has been designed and implemented in Sarasota and Manatee Counties, Florida. This system is based on real-time reports from lifeguards at the eight public beaches. The lifeguards provide periodic subjective reports of the amount of dead fish on the beach, apparent level of respiratory irritation among beach-goers, water color, wind direction, surf condition, and the beach warning flag they are flying. A key component in the design of the observing system was an easy reporting pathway for the lifeguards to minimize the amount of time away from their primary duties. Specifically, we provided a Personal Digital Assistant for each of the eight beaches. The portable unit allows the lifeguards to report from their guard tower. The data are transferred via wireless Internet to a website hosted on the Mote Marine Laboratory Sarasota Operations of the Coastal Ocean Observation Laboratories (SO COOL) server. The system has proven to be robust and well received by the public. The system has reported variability from beach to beach and has provided vital information to users to minimize their exposure to toxic marine aerosols. [Copyright &y& Elsevier]

Published

2008