Dale W. Griffin

Bio: Dale W. Griffin is an academic researcher from United States Geological Survey. The author has contributed to research in topics: Fecal coliform & Groundwater. The author has an hindex of 41, co-authored 106 publications receiving 6714 citations. Previous affiliations of Dale W. Griffin include University of La Laguna & Ames Research Center.

Atmospheric Movement of Microorganisms in Clouds of Desert Dust and Implications for Human Health

Abstract: Billions of tons of desert dust move through the atmosphere each year. The primary source regions, which include the Sahara and Sahel regions of North Africa and the Gobi and Takla Makan regions of Asia, are capable of dispersing significant quantities of desert dust across the traditionally viewed oceanic barriers. While a considerable amount of research by scientists has addressed atmospheric pathways and aerosol chemistry, very few studies to determine the numbers and types of microorganisms transported within these desert dust clouds and the roles that they may play in human health have been conducted. This review is a summary of the current state of knowledge of desert dust microbiology and the health impact that desert dust and its microbial constituents may have in downwind environments both close to and far from their sources.

Aerobiology and the global transport of desert dust.

Abstract: Desert winds aerosolize several billion tons of soil-derived dust each year, including concentrated seasonal pulses from Africa and Asia. These transoceanic and transcontinental dust events inject a large pulse of microorganisms and pollen into the atmosphere and could therefore have a role in transporting pathogens or expanding the biogeographical range of some organisms by facilitating long-distance dispersal events. As we discuss here, whether such dispersal events are occurring is only now beginning to be investigated. Huge dust events create an atmospheric bridge over land and sea, and the microbiota contained within them could impact downwind ecosystems. Such dispersal is of interest because of the possible health effects of allergens and pathogens that might be carried with the dust.

African desert dust in the Caribbean atmosphere: Microbiology and public health

Abstract: Air samples collected on St. John in the U.S.Virgin Islands were screened for the presenceof viable bacteria and fungi to determine ifthe number of cultivatable microbes in theatmosphere differed between ``clear atmosphericconditions'' and ``African dust-events.'' Resultsindicate that during ``African dust-events,'' thenumbers of cultivatable airborne microorganismscan be 2 to 3 times that found during ``clearatmospheric conditions.'' Direct microbialcounts of air samples using an epifluorescentmicroscopy assay demonstrated that during an``African dust-event,'' bacteria-like andvirus-like particle counts were approximatelyone log greater than during ``clear atmosphericconditions.'' Bacteria-like particles exhibitingautofluoresence, a trait of phototrophs, wereonly detected during an ``African dust-event.''

Development of a pcr protocol for sensitive detection of cryptosporidium oocysts in water samples

Abstract: The development of a reliable method of using PCR for detection of Cryptosporidium oocysts in environmental samples with oligonucleotide primers which amplify a portion of the sequence encoding the small (18S) subunit of rRNA producing a 435-bp product was demonstrated. The PCR assay was found to provide highly genus-specific detection of Cryptosporidium spp. after release of nucleic acids from oocysts by a simple freeze-thaw procedure. The assay routinely detected 1 to 10 oocysts in purified oocyst preparations, as shown by direct microscopic counts and by an immunofluorescence assay. The sensitivity of the PCR assay in some seeded environmental water samples was up to 1,000-fold lower. However, this interference was eliminated by either flow cytometry or magnetic-antibody capture. Sensitivity was also improved 10- to 1,000-fold by probing of the PCR product on dot blots with an oligonucleotide probe detected by chemiluminescence. Confirmation of the presence of Cryptosporidium oocysts in water samples from the outbreak in Milwaukee, Wis., was obtained with this technique, and PCR was found to be as sensitive as immunofluorescence for detection of oocysts in wastewater concentrates.

Pathogenic Human Viruses in Coastal Waters

Abstract: This review addresses both historical and recent investigations into viral contamination of marine waters. With the relatively recent emergence of molecular biology-based assays, a number of investigations have shown that pathogenic viruses are prevalent in marine waters being impacted by sewage. Research has shown that this group of fecal-oral viral pathogens (enteroviruses, hepatitis A viruses, Norwalk viruses, reoviruses, adenoviruses, rotaviruses, etc.) can cause a broad range of asymptomatic to severe gastrointestinal, respiratory, and eye, nose, ear, and skin infections in people exposed through recreational use of the water. The viruses and the nucleic acid signature survive for an extended period in the marine environment. One of the primary concerns of public health officials is the relationship between the presence of pathogens and the recreational risk to human health in polluted marine environments. While a number of studies have attempted to address this issue, the relationship is still poorly understood. A contributing factor to our lack of progress in the field has been the lack of sensitive methods to detect the broad range of both bacterial and viral pathogens. The application of new and advanced molecular methods will continue to contribute to our current state of knowledge in this emerging and important field.

Global Iron Connections Between Desert Dust, Ocean Biogeochemistry, and Climate

Abstract: The environmental conditions of Earth, including the climate, are determined by physical, chemical, biological, and human interactions that transform and transport materials and energy. This is the "Earth system": a highly complex entity characterized by multiple nonlinear responses and thresholds, with linkages between disparate components. One important part of this system is the iron cycle, in which iron-containing soil dust is transported from land through the atmosphere to the oceans, affecting ocean biogeochemistry and hence having feedback effects on climate and dust production. Here we review the key components of this cycle, identifying critical uncertainties and priorities for future research.

Inhibition and facilitation of nucleic acid amplification.

Abstract: Factors that inhibit the amplification of nucleic acids by PCR are present with target DNAs from many sources. The inhibitors generally act at one or more of three essential points in the reaction in the following ways: they interfere with the cell lysis necessary for extraction of DNA, they interfere by nucleic acid degradation or capture, and they inhibit polymerase activity for amplification of target DNA. Although a wide range of inhibitors is reported, the identities and modes of action of many remain unclear. These effects may have important implications for clinical and public health investigations, especially if the investigations involve food and environmental screening. Common inhibitors include various components of body fluids and reagents encountered in clinical and forensic science (e.g., hemoglobin, urea, and heparin), food constituents (e.g., organic and phenolic compounds, glycogen, fats, and Ca 21 ), and environmental compounds (e.g., phenolic compounds, humic acids, and heavy metals). Other, more widespread inhibitors include constituents of bacterial cells, nontarget DNA and contaminants, and laboratory items such as pollen, glove powder, laboratory plasticware, and cellulose. This review discusses the findings of many studies related to clinical, food, and environmental microbiology, including approaches that have been used to overcome inhibition and facilitate amplification for detection and typing. Few areas of biological science remain untouched by the invention of PCR (34, 81, 99). Other methods for amplifying nucleic acids (72, 123), such as Qb replicase (18), ligase chain reaction (13, 128), single-stranded sequence replication (17, 47), strand displacement amplification (126, 127), and nucleic acid sequence-based amplification (23, 122), have been described, but these methods have received less attention. Problems sometimes occur with PCR, however (124). Despite early indications of great sensitivity, the sensitivity of PCR may be a negative aspect of the procedure, since the most commonly reported problem is false-positive results due to cross-contamination (98, 124). This problem can be overcome by UV irradiation (100), with sodium hypochlorite (92), and by photochemical or enzymic methods (25, 36, 40, 78). One problem that is less discussed is reaction inhibition. This may be total or partial and can manifest itself as complete reaction failure or as reduced sensitivity of detection. In some cases, inhibition may be the cause of false-negative reactions, since few workers incorporate internal controls in each reaction tube. Early evidence of exquisite sensitivity with mammalian cells (53) involving detection of a single molecule of DNA from a hair was not reproduced when PCR was applied to many microbial (and some mammalian) situations, where poor sensitivity, specificity, and reproducibility have been reported (16, 82, 86, 129, 132, 134). There may also be potentially important effects in PCR typing reactions (121), and difficulties can occur in post-PCR manipulation (61). Although systematic study of inhibition has seldom been the focus of published investigations, many workers have reported these effects in the course of other studies (12, 19, 21, 124, 129, 132, 133). Considering the prevalence of this problem, it is surprising that few systematic and mechanistic studies of PCR inhibition have been reported. Rossen et al. (97) contributed the most comprehensive study of PCR inhibition, identifying inhibitory factors in foods, bacterial culture media, and various chemical compounds. These inhibitory factors included organic and inorganic chemicals, detergents, antibiotics, buffers, enzymes, polysaccharides, fats, and proteins. This review lists and discusses inhibitors and methods that can overcome the attenuation of amplification in clinical, food, and environmental microbiology. It is beyond the scope of this paper to discuss in detail the various physical, enzymic, and chemical methods used in the extraction, purification, and quantitation of nucleic acids. Those methods are presented and discussed in commercial literature and elsewhere (14, 95, 96, 106, 134).

Call of the wild: antibiotic resistance genes in natural environments

Abstract: Antibiotic-resistant pathogens are profoundly important to human health, but the environmental reservoirs of resistance determinants are poorly understood The origins of antibiotic resistance in the environment is relevant to human health because of the increasing importance of zoonotic diseases as well as the need for predicting emerging resistant pathogens This Review explores the presence and spread of antibiotic resistance in non-agricultural, non-clinical environments and demonstrates the need for more intensive investigation on this subject

Emerging Marine Diseases--Climate Links and Anthropogenic Factors

Abstract: Mass mortalities due to disease outbreaks have recently affected major taxa in the oceans. For closely monitored groups like corals and marine mammals, reports of the frequency of epidemics and the number of new diseases have increased recently. A dramatic global increase in the severity of coral bleaching in 1997—98 is coincident with high El Nino temperatures. Such climate-mediated, physiological stresses may compromise host resistance and increase frequency of opportunistic diseases. Where documented, new diseases typically have emerged through host or range shifts of known pathogens. Both climate and human activities may have also accelerated global transport of species, bringing together pathogens and previously unexposed host populations. T he oceans harbor enormous biodiver- sity by terrestrial terms (1), much of which is still poorly described taxo- nomically. Even less well known are the dy- namics of intermittent, ephemeral, threshold phenomena such as disease outbreaks. De- spite decades of intense study of the biolog- ical agents structuring natural communities, the ecological and evolutionary impact of diseases in the ocean remains unknown, even when these diseases affect economically and ecologically important species. The paucity of baseline and epidemiological information on normal disease levels in the ocean chal- lenges our ability to assess the novelty of a recent spate of disease outbreaks and to de- termine the relative importance of increased pathogen transmission versus decreased host resistance in facilitating the outbreaks. Our objectives here are to review the prevalence of diseases of marine taxa to evaluate wheth- er it can be concluded that there has been a recent increase. We also assess the contribut- ing roles of human activity and global cli- mate, and evaluate the role of the oceans as incubators and conveyors of human disease agents. Is There an Increase in Diseases in the Ocean?