U.S. Geological Survey (USGS) scientists have documented the occurrence of current-use pesticides, including several fungicides, in the Pacific Chorus frog (Pseudacris regilla) and its habitat in remote, high-elevation locations in California. Amphibian and environmental samples were taken from Giant Sequoia National Monument, Yosemite National Park, and Lassen Volcanic National Park. Limited information is available about the exposure of frogs to pesticides, especially in remote areas.
Fungicides, many not previously detected in amphibians, were found in adult male frogs from all sites. Data generated from this study indicate that amphibians residing in remote locations are exposed to, and capable of taking up, current-use pesticides. These remote areas are downwind of California's agricultural Central Valley and the scientists hypothesize that the pesticides moved to the remote areas via precipitation and dust. This information improves future efforts to understand how these pesticides are transported in the environment, including to remote mountain lakes, and how they affect the frogs, especially in areas where populations are declining.
This study was funded by the USGS Amphibian Research and Monitoring Initiative, Toxic Substances Hydrology Program, and Wildlife: Terrestrial and Endangered Resources Program.
Scientists from the USGS, the University of California, Davis and the California State Water Resources Control Board found fungicides and other current-use pesticides in water, sediment, and tissue of resident aquatic organisms from the Santa Maria estuary. The Santa Maria estuary is an agriculturally dominated estuary along California's Central Coast. Many of California's coastal estuaries are impacted by severe water-quality degradation, and many of these estuaries, including the Santa Maria estuary, provide critical nursery and foraging habitat for numerous marine and estuarine fish and other aquatic animals, including the threatened tidewater goby (Eucyclogobius newberryi).
During 2009 and 2010, the scientists collected water, sediment, and tissue of resident aquatic organisms including starry flounder (Platichthys stellatus), staghorn sculpin (Leptocottus armatus), and sand crabs (Emerita analoga). Pesticide levels in water increased during the summer as pesticide application in the adjacent agricultural watershed increased. Pesticides in bed sediments decreased with increasing distance from source areas. Fungicides and several other current-use pesticides, including pyrethroid insecticides, were detected frequently in fish and sand crabs.
This is the first study to document the occurrence of many of these pesticides, including fungicides, in tissue from coastal estuaries. Limited information is available on the accumulation and effects of pesticides on aquatic organisms. Data generated from this study will help State and local agencies design best management practices to reduce pesticide loads to estuaries. The study also provides baseline data that will allow resource managers to track changes in the ecosystem as pesticide inputs and contamination change over time.
USGS scientists studying public-supply-well vulnerability to contamination found that the following factors are important for understanding the quality of water pumped from individual public-supply wells, regardless of environmental setting:
Two findings of this study are
Knowledge of how human activities influence the contaminants that go into solution and are persistent in groundwater can help water managers anticipate future water-quality conditions and prepare for appropriate water treatment.
Funding for this study was provided by the USGS National Water-Quality Assessment (NAWQA) Program.
USGS scientists identified potentially harmful levels of cyanobacteria in 10 lakes they sampled in Illinois during the drought of 2012. Toxins produced by the cyanobacteria were measured at harmful concentrations in four lakes. Cyanobacteria, also called blue-green algae, are capable of generating toxins (cyanotoxins), such as microcystin, that are potent enough to poison animals and humans.
Working collaboratively with the Illinois Environmental Protection Agency (IEPA), the scientists conducted the study in response to multiple reports and observations of algal blooms in Illinois lakes. IEPA field screening for cyanotoxins earlier in 2012 and in previous years rarely detected concentrations of concern. However, an extended drought in 2012 and accompanying high temperatures might have provided conditions that facilitated the growth of cyanobacteria and increases in the associated cyanotoxin production.
The scientists sampled 10 lakes in Illinois from August through October 2012 to determine the concentrations and spatial distribution of cyanobacteria and associated cyanotoxins throughout the State. Analysis of the samples indicated that both total cyanobacterial cell counts and concentrations of microcystin were frequently at levels likely to result in adverse human-health effects, according to World Health Organization guidance values. Samples collected in October, after precipitation events and lower temperatures, indicated that both microcystin concentrations and total cyanobacterial cell counts had decreased approximately one order of magnitude since late August or early September.
The results of this study will help State and local agencies manage water resources to protect human, animal, and ecological health. The USGS Cooperative Water Program and the IEPA provided the funding for this study.
A new fungus is infecting several species of snakes according to USGS scientists and their collaborators. USGS veterinarians are receiving snakes with rough, thickened skin that sloughs and appears like an abnormal molt. The snakes also have facial swelling, cloudy eyes, skin ulcers, scabs, and nodules. Although similar signs have been sporadically reported previously, the condition, called Snake Fungal Disease (SFD), has been reported more frequently since 2006. Laboratory testing at the USGS and elsewhere have most consistently isolated the fungus Ophidiomyces (formerly Chrysosporium) ophiodiicola from the snakes, but additional fungi are often isolated from the same samples, making it difficult to conclude that O. ophiodiicola is the definitive cause of SFD.
It is suspected that SFD is more widespread in the eastern United States than previously reported. The USGS has diagnosed SFD in snakes from 10 states (Florida, Illinois, Massachusetts, Minnesota, New Jersey, New York, Ohio, South Carolina, Tennessee, and Wisconsin). Rattlesnake species (Crotalus horridus, Sistrurus catenatus, Sistrurus miliarius) are the most common species diagnosed with SFD, but USGS veterinarians also have diagnosed this condition in northern water snakes (Nerodia sipedon), eastern racers (Coluber constrictor), eastern rat snakes (Pantherophis obsoletus), milk snakes (Lampropeltis triangulum), and copperheads (Agkistrodon contortrix). While some snakes have died from SFD, the impacts on snake populations are difficult to assess due to the secretive and solitary nature of snakes. However, clinical signs consistent with SFD were associated with about a 50-percent decline of an imperiled population of timber rattlesnakes in New Hampshire from 2006 to 2007.
The USGS is working with other agencies, organizations, researchers, and key stakeholders to investigate this emerging disease and to learn more about the impacts that SFD is having on snake populations in the eastern and midwestern United States.
Funding for the USGS's work on SFD is provided by the USGS Contaminant Biology Program.
Millions of sea stars on the west coast, from Alaska to southern California, have been dying from unknown causes. The USGS is collaborating with scientists from many organizations to:
The event, which began in June 2013, is affecting various sea star species in wild and captive populations. The two species affected most are the purple sea star or ochre starfish (Pisaster ochraceus) and the sunflower sea star (Pycnopodia helianthoides).
To date, no underlying cause(s) of these mass die offs has been identified. In previous outbreaks, bacterial and viral agents, as well as environmental toxins and contaminants, were suggested as underlying causes, but they were not confirmed. The 2013 outbreak appears more severe than previous outbreaks, killing up to 95 percent of some populations and affecting a much larger geographic area along the west coast. Scientists are:
The USGS and a network of partners across the country document wildlife mortality events in order to provide timely and accurate information on locations, species, and causes of death. This information is used by natural resource managers, scientists, public-health officials, and other decisionmakers to help design disease prevention and mitigation strategies and to identify interconnections between human, domestic animal, and wildlife disease.
The USGS Fisheries: Aquatic and Endangered Resources, the Contaminant Biology, and the Wildlife: Terrestrial and Endangered Resources Programs provide funding for wildlife mortality event monitoring and investigations.
The results of a USGS study on the water quality of the shallow aquifer system used for drinking water above the Fayetteville Shale gas play in Arkansas indicate that the chemistry of the groundwater is not affected by gas development but is the consequence of natural processes. The Fayetteville Shale is a gas reservoir that underlies much of north-central Arkansas; gas production in the reservoir involves unconventional recovery techniques such as horizontal drilling and hydraulic fracturing.
In 2011, in order to test whether or not the gas production was impacting groundwater quality, USGS scientists collected groundwater samples from 127 shallow domestic wells in Faulkner and Van Buren Counties, both of which have natural gas production. After analyzing the samples, the scientists found that chloride, major ions, and trace metals all had lower concentrations in the 2011 groundwater samples than in samples from pre-gas-development collected in nearby areas from 1951 through 1983. In addition, no statistical difference existed between chloride concentrations from wells located less than 2 miles from a gas-production well and wells located 2 miles or more from a gas-production well. The closest domestic well to a production well was 75 meters (0.05 miles). The scientists did not analyze for other potential contaminants from production activities. The scientists also showed that methane in the samples was from sources within the shallow aquifer and not from the shale gas play. Results from this study provide baseline information on the water quality of shallow groundwater in the study area. The information can be used to assess future potential changes to groundwater used for drinking water.
This study was conducted in cooperation with the Arkansas Natural Resources Commission, Arkansas Oil and Gas Commission, Duke University, Faulkner County, Shirley Community Development Corporation, and the University of Arkansas at Fayetteville, in coordination with the USGS Groundwater Resources Program and Cooperative Water Program.
Ninety-one percent of more than 200 groundwater wells tested by USGS scientists across New York State had levels of naturally-occurring dissolved methane below the threshold that would require monitoring. Nine percent of the wells tested had levels of dissolved methane high enough to warrant monitoring or other actions. Seven percent of the wells tested had methane levels above 10 milligrams per liter, the level recommended by the Office of Surface Mining at which well owners should contact local health departments for information on monitoring or remediation. Two percent tested at levels above 28 milligrams per liter, a level that requires removal of any potential ignition source and venting the gas away from confined spaces to avoid possible explosive conditions.
Methane is a colorless, odorless, and tasteless gas that can be flammable or even explosive. The first commercial gas well in the United States was dug in the early 1820s in Fredonia, south of Buffalo, New York. In New York, methane naturally discharges to the land surface in some locations, and also occurs locally in the groundwater; as a result, it may be present in drinking-water wells, in the water produced from those wells, and in the associated water-supply systems or plumbing.
The results of this study provide background information on the presence of dissolved methane in New York's groundwater, allowing public-health officials, resource managers, and residents to understand more about the quality of drinking water in their State. With ongoing unconventional gas development in Pennsylvania and surrounding States and possible unconventional gas development in New York, knowing the current quality of groundwater is important to establish baseline water-quality conditions for individual and public water-supply wells.
The USGS Cooperative Water Program and the New York State Department of Environmental Conservation provided the funding for this study.
USGS, University of Wisconsin, Wisconsin Department of Natural Resources, and Illinois Department of Natural Resources scientists have determined that transmission of chronic wasting disease (CWD) in yearling white-tailed deer (Odocoileus virginianus) is influenced concurrently by the prevalence of the disease in the deer population and, to a lesser extent, the density of infected deer. CWD is a fatal neurodegenerative disease caused by proteins called prions that infect North American deer and elk. Understanding the ecology and transmission of CWD in free-ranging wildlife is challenging, but essential for predicting and managing future wildlife disease impacts.
The team of scientists found that CWD transmission to yearling white-tailed deer increases substantially with disease prevalence in neighboring deer. They also found that the disease rapidly saturates (infects a maximum number of deer) as the number of deer living in one area (deer density) increases. They concluded that (1) continued increases in disease prevalence will increase the rate at which young deer become infected, (2) reducing the density of deer through non-selective culling may help to reduce infection rates, but only when deer densities are relatively low, and (3) management strategies that reduce prevalence of CWD in a population will likely be more effective in reducing CWD transmission and spread than non-selective reductions in deer abundance.
The same social and behavioral patterns driving CWD transmission are likely key to understanding the transmission of other infectious diseases in deer populations, including bovine tuberculosis and bovine viral diarrhea—diseases that also have significant implications for the health of livestock. While it is always fatal in deer, CWD is not currently known to affect livestock or humans. However, the long-term disease trends and future risks to deer and elk, other wildlife species, and livestock are not fully understood. Currently there are no methods for eradicating the disease or preventing its spread.
This study was funded and supported by the USGS Wildlife: Terrestrial and Endangered Resources Program and the Wisconsin Department of Natural Resources.
Declining bighorn sheep populations may be vulnerable to one of the same fatal diseases that afflict deer, elk, and moose—chronic wasting disease (CWD). USGS and University of Wisconsin–Madison scientists studying bighorn sheep (Ovis canadensis) found that they are likely to be susceptible to this deadly neurological disease, as well as scrapie, a similar disease affecting domestic sheep, both of which are occurring in or near natural bighorn sheep habitat. These fatal diseases are caused by proteins called prions and are known as transmissible spongiform encephalopathies.
The scientists developed and conducted laboratory tests that did not involve live animals. The tests showed evidence that bighorn sheep could be vulnerable to both CWD from white-tailed deer or elk, and to scrapie from domestic sheep. None of a small number of bighorn sheep sampled in the same study showed evidence of infection. The results do not mean that bighorns get, or will eventually get, prion diseases; however, wildlife species like bighorn sheep are increasingly exposed to CWD as the disease expands to new areas.
Because bighorn sheep habitats overlap with farms and ranches with scrapie-infected sheep and regions where CWD is common in deer, elk, and moose, wildlife managers can use these findings to help understand the potential risk of CWD infections in bighorn sheep. In addition, the tests the scientists developed could potentially be modified to test other species for susceptibility to CWD.
The USGS Wildlife: Terrestrial and Endangered Resources Program funded this study.
The Illinois Environmental Protection Agency in cooperation with the USGS is conducting a statewide assessment of chromium in untreated source water and treated drinking water in Illinois. The impetus for the assessment is a recent U.S. Environmental Protection Agency review of the potential human-health effects of hexavalent chromium in drinking water.
Chromium can be present in the environment in two forms—trivalent chromium (Cr III) and hexavalent chromium (Cr VI). Water chemistry, principally oxygenation, can greatly enhance the transformation of Cr III to the much more toxic Cr VI. The presence of Cr VI in groundwater and surface waters generally is attributed to industrial sources, but also can be of natural origin.
Presently, only the concentration of total chromium is regulated in public drinking water supplies, at a Maximum Contaminant Level (MCL) of 100 micrograms per liter (µg/L). The goals of the statewide assessment are to
The scientists are collecting untreated water samples at public drinking-water supply facilities from 119 wells and 32 surface-water intakes; additionally, they are collecting 64 treated surface-water samples. Sample sites were selected by a stratified-random method, using criteria such as well depth for groundwater sample sites and geology for surface-water sites.
The USGS Cooperative Water Program and the Illinois Environmental Protection Agency provided funding for the assessment.
USGS scientists applied a geophysical technique to delineate groundwater movement in complex heterogeneous aquifers. Some aquifers have isolated zones (less permeable zones), such as pockets of silt, clay, or dead-end fractures; or pore spaces that have limited exchange with main groundwater flow patterns. These isolated zones can store contaminants for extended periods and prolong remediation.
The geophysical technique was implemented at a former uranium mill site located along the San Miguel River in southwestern Colorado, just northwest of the town of Naturita. The scientists have been investigating the reactive transport of hexavalent uranium (U VI) in groundwater at the site for over 10 years. Contamination of groundwater in heterogeneous unconsolidated sediments (complex interweaving and discontinuous layers) such as those found at Naturita can be difficult to remediate, in part because contaminants are stored in sediment with less-connected pore space and leach out over long periods of time, even when the better-connected pore space is actively pumped clean. The scientists injected a solution of saltwater into the shallow aquifer and monitored the resultant plume for a month using a combination of shallow wells and downhole electrode arrays. The results of the monitoring revealed strong heterogeneity in groundwater flow characteristics with discrete zones of potential long-term contaminant storage.
For the first time, scientists have the ability to evaluate an aquifer's small-scale variability related to the potential storage of contaminants—information that is being used to improve the models scientists use to predict reactive uranium transport in the subsurface and to develop improved remediation technologies for cleanup of contamination in highly heterogeneous aquifers.
USGS and University of Washington scientists have developed novel approaches to measure the viral fitness of two strains of an RNA virus (infectious hematopoietic necrosis virus) in rainbow trout. Just like their hosts, viruses have differences in fitness that are important to their biology and ecology. For viruses, fitness is measured by their ability to produce more infectious viruses. Within a virus species, some strains may enhance their fitness by producing either milder or more severe disease, spreading more efficiently in populations, or jumping to new hosts or locations. Most research on viral fitness has been conducted in cell culture lines that are useful, but lack the complexity and immune responses of living hosts.
Infectious Hematopoietic Necrosis Virus (IHNV) infects both trout and salmon, and infections in young fish (fry) are particularly severe. The virus can cause death by attacking the kidney and spleen in fish.
The new approach the scientists developed tracked the presence and quantity (fitness) of two fish virus strains as they competed within living fish. The results showed that viruses that caused more severe disease in the fish (higher virulence) also had higher fitness, which included increased replication and higher rates of shedding, suggesting more efficient transmission to other fish. Surprisingly, higher virulence did not correlate with an increased ability to infect a host that was already infected with the less fit strain (superinfection). These new techniques provide a novel experimental system that advances our basic understanding of viral fitness in animals, with potential relevance to other animals including humans.
The USGS Fisheries: Aquatic and Endangered Resources Program, the National Science Foundation, and the U.S. Department of Agriculture's Ecology and Evolution of Infectious Diseases Program provided funding for these studies.
Scientists from the USGS and the University of California, Davis, found that the genetic makeup (genome) of the cutthroat trout virus (CTV) is very similar to the Hepatitis E virus, a finding which may aid medical research and help save human lives. CTV was first isolated in 1988 in California and later found to be widespread among several trout species in the Western United States. The virus cannot infect humans and shows no signs of disease in infected fish. Hepatitis E is a potentially deadly emerging human disease. Because the Hepatitis E virus has proven difficult to grow in cell cultures, USGS and Rega Institute for Medical Research, Belgium, scientists proposed that CTV might provide a surrogate that could be used to test potential drug therapies and vaccines against this type of virus.
Typically acquired from contaminated water or infected swine, the Hepatitis E virus infects thousands of people annually, mainly in the developing world. Most infected people clear the virus from their systems without much damage. For reasons that are still unclear, the virus may cause full-blown hepatitis and liver failure during pregnancy. As a result, pregnant women comprise a diproportionate number of the 50,000 to 60,000 annual deaths due to Hepatitis E as well as suffering approximately 3,000 stillbirths. Medical researchers are looking for answers, but there are significant gaps in the understanding of the biology of Hepatitis E and in the search for antiviral drugs that can be used safely during pregnancy.
The scientists showed that CTV can indeed provide an infection model relevant to Hepatitis E. They reported the results of experiments that tested several antiviral compounds for their ability to inhibit the growth of CTV in fish cells. They also tested the effects of sex steroids on virus replication that provided clues into the basis of the increased mortality from Hepatitis E observed among pregnant women. It is hoped that the results of these studies will help public-health professionals effectively deal with Hepatitis E infections and save human lives.
The USGS Fisheries: Aquatic and Endangered Resources, and Contaminant Biology Programs, and the Research Foundation - Flanders and European Commission Framework Programme provided funding for this study.
Sediment that gets washed away from urban areas can be toxic to aquatic life, according to a recent study by the USGS.
From 2009 through 2011, a team of scientists from the USGS and the Wisconsin State Laboratory of Hygiene measured concentrations of selected trace metals and polynuclear aromatic hydrocarbons (PAHs) in both the fine particles (silt size) and the coarser particles (sand size) from four sources of sediment collected in Milwaukee and Madison, Wisconsin. The types of sediment the scientists sampled consisted of street dirt, solids that settle to the bottom of storm sewers (stormwater bed), solids suspended in stormwater, and bed sediment found in urban streams. They found that all of the sediment types showed some level of potential toxicity to aquatic life when observed concentrations were compared to published sediment quality guidelines. Stormwater bed sediment had the highest potential toxicity followed by suspended solids in stormwater, street dirt, and streambed sediments.
As was expected, the finer particles measured in this study generally had higher concentrations of contaminants. This is important because many treatment structures are designed to capture coarse sediment but do not effectively capture the finer particles. On the other hand, PAH concentrations were higher in the sand size fraction in most cases. PAHs are an environmental health concern because several are probable human carcinogens and they are toxic to fish and other aquatic life. The concentrations of metals were found at high, but not toxic, levels.
These findings may help environmental managers make informed decisions on how best to mitigate pollution from urban stormwater. The USGS Cooperative Water Program and Wisconsin Department of Natural Resources provided funding for this study.
A team of USGS and U.S. Department of Agriculture scientists conducted controlled exposure studies and risk assessments that found diphacinone, an anticoagulant rodenticide, to be considerably more toxic to raptors than to mallards (Anas platyrhynchos) and northern bobwhites (Colinus virginianus). For example, in acute oral toxicity studies with American kestrels (Falco sparverius) diphacinone was 20 to 30 times more potent (median lethal dose (LD50) = 96.8 mg/kg body weight) than reported in northern bobwhite (LD50 = 2,014 mg/kg) and mallards (LD50 = 3,158 mg/kg). In 7-day feeding studies, adverse toxic effects (including prolonged clotting time and anemia) were detected in Eastern screech-owls (Megascops asio) at ingested doses as low as 0.16 milligram per kilogram body weight per day, and measurements of lethality suggest that owls are 5 times more sensitive than mallards. These are extremely important findings given that toxicity data from mallards and northern bobwhites are often used to evaluate the hazard associated with exposure of raptors, such as owls and hawks, to rodenticides.
Diphacinone and other anticoagulant rodenticides are used to control rats, mice, and other rodent pests in urban, suburban, and agricultural areas, and in habitat restoration projects. Despite widespread use, there is growing concern by regulators and natural resource managers about their risk to children, pets, domestic animals, and non-target wildlife. Recently, the U.S. Environmental Protection Agency placed new restrictions on the use of some highly toxic second-generation anticoagulant rodenticides (SGARs), which might result in expanded use of the first-generation anticoagulant rodenticides (FGARs). Regrettably, even FGARs have been implicated in non-target wildlife mortality events.
To assess adverse effects on non-target wildlife, the USGS and the U.S. Fish and Wildlife Service conducted a multi-year field study of black-tailed prairie dog (Cynomys ludovicianus) colonies to examine the response to applications of bait containing the FGAR chlorophacinone. While concerns about bird poisonings from FGARs and SGARs have traditionally focused on secondary poisoning of raptors, the scientists discovered that ground foraging songbirds are directly poisoned by feeding on the chlorophacinone bait.
Natural resource managers can use the results of these studies to assess the costs and benefits of pest control and eradication activities using FGAR compounds, and the potential effect on non-target wildlife. These studies were funded by the USGS Contaminant Biology Program, the U.S. Fish and Wildlife Service, and the U.S. Department of Agriculture.
Scientists from the USGS and the Norwegian Geotechnical Institute found that sorption is the process by which nitrous oxide strongly attaches to biochar. Nitrous oxide is a powerful greenhouse gas formed in soil when microorganisms oxidize ammonia (NH3) and is present when microorganisms reduce nitrates to nitrogen gas (denitrification). Biochar is charcoal made from waste plant and other biomass, such as agricultural waste material. Due to biochar's stability in soil, some scientists have proposed that it could provide a means of sequestering carbon in soil, while simultaneously improving the fertility and quality of soils. Though most studies showed an associated suppression of nitrous oxide emissions by biochar, the mechanism for the suppression was poorly understood until now.
The team of scientists compared the nitrous oxide sorption capacity of biochar to that of other sorbents that are potentially present in soils. They found that biochar binds nitrous oxide more strongly than the mineral and organic soil materials they tested. Sorption of nitrous oxide to the biochar itself could be a viable mechanism for suppression of nitrous oxide emissions from soil.
USGS scientists have recently developed and applied high-resolution fiber-optic temperature sensing methods to define the niche habitat preferred by the endangered dwarf wedgemussel (Alasmidonta heterodon) in the upper Delaware River (Pennsylvania and New York). The scientists identified numerous cold groundwater springs–both focused and diffuse–at several locations in the upper Delaware River where dwarf wedgemussels still can be found. The wedgemussel is known to be particularly sensitive to high water temperatures. During summer months the mussels may actively seek out regions were cold groundwater is entering the river. At one mussel bed the scientists studied, infrared imagery and custom-made, fiber-optic temperature sensors revealed the complex interaction between the cold water discharging from a spring and the much warmer river water. A relatively stable plume of cold groundwater extended for several meters along the riverbed, keeping average streambed temperatures approximately 8 degrees Celsius colder than the main river water. Resource managers could potentially use the thermal signature of streambank seeps to identify unknown populations of wedgemussels. This information is useful to resource managers developing future river management strategies that may prioritize the protection of these discrete cold-water habitats for the mussels and other cold-water dependent species.
This symposium is being sponsored by the Iowa Groundwater Association and the University of Iowa Center for Health Effects of Environmental Contamination. The symposium will highlight recent research and surveillance projects on viruses, arsenic, and nitrate contamination combined with groundwater characterization. Potential health impacts of these drinking water contaminants will be discussed, and a look at possible future groundwater contaminant issues will be presented. USGS environmental health science will be presented at the symposium.
The theme of As2014 is "One century of the discovery of arsenicosis in America (1913-2014)." The symposium commemorates 100 years of the discovery of the effects of arsenic on human life in Latin America.
The Italian Association for the Study of Clays (AISA) and the Institute of Methodologies for Environmental Analysis (IMAA) are sponsoring DUST 2014, the International Conference on Atmospheric Dust. The conference features several sessions on the health and environmental aspects of atmospheric dusts. USGS scientists have conducted studies on the transport of pathogens and toxic chemicals by airborne dusts.
144th Annual Meeting of the American Fisheries Society will feature information on the managing and understanding of fisheries of all kinds. The meeting's theme is "From Fisheries Research to Management: Think and Act Locally and Globally." Scientists from the USGS frequently present at the conference environmental health science information on aquatic organisms and aquatic habitats that can help natural resources managers and decision makers do their jobs.
This conference provides a forum for scientists to present information on emerging contaminants (ECs) in the environment. The topical themes for the conference include: Sources and Exposure Pathways; Treatment Processes and Technologies; Waste, Wastewater Recycling, and Reuse; Sampling, Analytical, and Characterization Methods; Fate and Transport in Aquatic and Terrestrial Ecosystems; Aquatic and Terrestrial Effects; and Risk Assessment, Risk Management, Regulations, and Policy Frameworks. USGS scientists are helping organize the conference. Abstracts are due March 14, 2014.
The International Society for Environmental Epidemiology (ISEE) is conducting a joint conference on environmental health. The conference goal is to present recent achievements in the field of environmental epidemiology research and practice with a focus on emerging issues and innovative approaches to environmental epidemiology.
The Wildlife Society will be holding its annual conference in Pittsburgh, Pennsylvania, October 25-30, 2014. The conference will feature information on wildlife conservation challenges. USGS scientists frequently present environmental health science information at this conference.
The Geological Society of America (GSA) annual meeting features a broad array of special technical sessions, field trips, short courses, and special lectures. USGS scientists frequently present a wide variety of information on USGS science at the meeting, including environmental health science.
The Society of Environmental Toxicology and Chemistry (SETAC) Annual Meeting's theme is Interconnecting Ecosystems. The meeting covers environmental health related topics such as aquatic toxicology and ecology, ecological risk assessment, environmental or analytical chemistry, and terrestrial or wildlife toxicology and ecology. In past meetings, USGS scientists have presented environmental health science in many of the meeting's sessions.
The American Public Health Association (APHA) annual meeting addresses current and emerging health science, policy, and practice issues with the goal to prevent disease and promote health. The theme of the meeting is Healthography: How where you live affects your health and well-being.
The American Geophysical Union's (AGU) annual fall meeting will cover a wide range of environmental health science topics. At past meetings, USGS scientists have presented information on a wide range of science topics including environmental health science.
Alpers, C.N., Fleck, J.A., Marvin-DiPasquale, M., Stricker, C.A., Stephenson, M., and Taylor, H.E., Mercury cycling in agricultural and managed wetlands, Yolo Bypass, California—Spatial and seasonal variations in water quality: Science of the Total Environment, doi:10.1016/j.scitotenv.2013.10.096.
Andraski, B.J., Jackson, W.A., Welborn, T.L., Böhlke, J.K., Sevanthi, R., and Stonestrom, D.A., Soil, plant, and terrain effects on natural perchlorate distribution in a desert landscape: Journal of Environmental Quality.
Zaugg, S.D., Phillips, P.J., and Smith, S.G., Analysis of pharmaceutical and other wastewater compounds in filtered and unfiltered water samples by gas chromatography/mass spectrometry: U.S. Geological Survey Open-File Report.
Marvin-DiPasquale, M., Windham-Myers, L., Agee, J.L., Kakouros, E., Kieu, L.H., Fleck, J., Alpers, C.N., and Stricker, C., Methylmercury production in sediment from agricultural and non-agricultural wetlands in the Yolo Bypass, California, USA: Science of the Total Environment, doi:10.1016/j.scitotenv.2013.09.098.
Alvarez, D.A., Maruya, K.A., Dodder, N.G., Lao, W., Furlong, E.T., and Smalling, K.L., Occurrence of contaminants of emerging concern along the California coast (2009-10) using passive sampling devices: Marine Pollution Bulletin, doi:10.1016/j.marpolbul.2013.04.022.
Battaglin, W.A., Meyer, M.T., Kuivila, K.M., and Dietze, J.E., Glyphosate and its degradation product AMPA occur frequently and widely in US soils, surface water, groundwater, and precipitation: Journal of the American Water Resources Association.
Campbell, K.M., Gallegos, T.J., and Landa, E.R., Biogeochemical aspects of uranium mineralization, mining, milling, and remediation, in Environmental Geochemistry for Modern Mining—Reviews in Economic Geology: Society of Economic Geologists (SEG).
Fuller, C.C., and Akstin, K.C., Laboratory studies of biostimulated uranium reduction by ISR aquifer sediments and suboxic remobilization of sequestered uranium, (Chapter 3), in Assessing the Potential for Biorestoration of Uranium In Situ Recovery Sites: U.S. Nuclear Regulatory Commission NUREG-CR.
Maruya, K.A., Dodder, N.G., Weisberg, S.B., Gregorio, D., Bishop, J.S., Klosterhaus, S., Alvarez, D.A., Furlong, E.T., Bricker, S., Kimbrough, K.L., and Lauenstein, G.G., The Mussel Watch California pilot study on contaminants of emerging concern (CECs)—Synthesis and next steps: Marine Pollution Bulletin, doi:10.1016/j.marpolbul.2013.04.023.
Windham-Myers, L., Marvin-DiPasquale, M., Stricker, C.A., Agee, J.L., Kieu, L.H., and Kakouros, E., 2013, Mercury cycling in agricultural and managed wetlands of California, USA—Experimental evidence of vegetation-driven changes in sediment biogeochemistry and methylmercury production: Science of the Total Environment, doi:10.1016/j.scitotenv.2013.05.028.
Windham-Myers, L., Marvin-DiPasquale, M., Kakouros, E., Agee, J.L., Kieu, L.H., Stricker, C.A., Fleck, J.A., and Ackerman, J.T., Mercury cycling in agricultural and managed wetlands of California, USA—Seasonal influences of vegetation on mercury methylation, storage, and transport: Science of the Total Environment, doi:10.1016/j.scitotenv.2013.05.027.
Delin, G.N., and Herkelrath, W.N., Effects of dual-pump crude oil recovery system, Bemidji, Minnesota, USA: Ground Water Monitoring and Remediation.
McLemore, V.T., Smith, K.S., and Russell, C.C., 2013, Environmental sampling and monitoring for the mine life cycle—Management technologies for metal mining influenced water series: Society for Mining, Metallurgy, and Exploration, Inc.
Byl, T.D., Metge, D.W., Agyman, D.T., Bradley, M., Hileman, G., and Harvey, R.W., Adaptations of indigenous bacteria to karst aquifers in south-Central Kentucky contaminated with fuel: Journal of Cave and Karst Systems.
Ackerman, J.T., Marvin-DiPasquale, M., Slotton, D., Eagles-Smith, C.A., Herzog, M.P., Hartman, A., Agee, J.L., and Ayers, S., 2013, The South Bay Mercury Project—Using biosentinels to monitor effects of wetland restoration for the South Bay Salt Pond Restoration Project: U.S. Geological Survey, 227 p (Report prepared for the South Bay Salt Pond Restoration Project and Resources Legacy Fund).
Arora, B., Mohanty, B.P., McGuire, J.T., and Cozzarelli, I.M., 2013, Temporal dynamics of biogeochemical processes at the Norman Landfill Site: Water Resources Research, doi:10.1002/wrcr.20484.
Barber, L.B., 2013, Water reuse and emerging contaminants in the aquatic environment, in Ahuja, S., ed., Comprehensive Water Quality and Purification: Elsevier, ISBN:9780123821829.
Barber, L.B., 2013, Emerging contaminants, in Ahuja, S., ed., Comprehensive Water Quality and Purification: Elsevier, v. 1, p. 245-266, ISBN:9780123821829.
Bradley, W.G., Borenstein, A.R., Nelson, L.M., Codd, G.A., Rosen, B.H., Stommel, E.W., and Cox, P.A., 2013, Is exposure to cyanobacteria an environmental risk factor for amyotrophic lateral sclerosis and other neurodegenerative diseases?: Amyotrophic Lateral Sclerosis and Frontotemporal Degeneration, v. 14, no. 5-6, p. 325-333, doi:10.3109/21678421.2012.750364.
Briggs, M.A., Day-Lewis, F.D., Ong, J.B.T., Curtis, G.P., and Lane, J.W., 2013, Simultaneous estimation of local-scale and flow path-scale dual-domain mass transfer parameters using geoelectrical monitoring: Water Resources Research, doi:10.1002/wrcr.20397.
Briggs, M.A., Voytek, E.B., Day-Lewis, F.D., Rosenberry, D.O., and Lane, J.W., 2013, Understanding water column and streambed thermal refugia for endangered mussels in the Delaware River: Environmental Science and Technology, v. 47, no. 20, p. 11423-11431, doi:10.1021/es4018893.
Buckner, C.R., 2013, Metagenomics and transcriptional expression of microbial communities in a nitrogen-contaminated aquifer in Cape Cod: University of North Carolina Wilmington, unpublished M.S. thesis, 60 p.
Busch, J.D., Van Andel, R., Stone, N.E., Cobble, K.R., Nottingham, R., Lee, J., VerSteeg, M., Corcoran, J., Cordova, J., Van Pelt, W., Shuey, M.M., Foster, J.T., Schupp, J.M., Beckstrom-Sternberg, S., Beckstrom-Sternberg, J., Keim, P., Smith, S., Rodriguez-Ramos, J., Williamson, J.L., Rocke, T.E., and Wagner, D.M., 2013, The innate immune response may be important for surviving plague in wild Gunnison's prairie dogs: Journal of Wildlife Diseases, v. 49, no. 4, p. 920-931, doi:10.7589/2012-08-209.
Campbell, K.M., Alpers, C.N., Nordstrom, D.K., Blum, A., and Williams, A., 2013, Characterization and remediation of iron(III) oxide-rich scale in a pipeline carrying acid mine drainage at Iron Mountain Mine, California, USA, in Brown, A., Figueroa, L., and Wolkersdorfer, C., eds., Annual International Mine Water Association Conference—Reliable Mine Water Technology, Golden, Colo., August 5-9, 2013: Denver, Colo., Publication Printers, p. 287-294, ISBN:9780615793856.
Cozzarelli, I.M., McKelvie, J.R., and Baehr, A.L., 2013, Volatile fuel hydrocarbons and oxygenates in the environment, in Lollar, B.S., ed., Environmental Geochemistry, in Holland, H.D. and Turekian, Karl K., eds. Treatise on Geochemistry (2nd ed.): New York, Elsevier Science, v. 9, p. 439-480, ISBN:9780080959757.
Debing, Y., Winton, J., Neyts, J., and Dallmeier, K., 2013, Cutthroat trout virus as a surrogate in vitro infection model for testing inhibitors of Hepatitis E virus replication: Antiviral Research, v. 100, no. 1, p. 98-101, doi:10.1016/j.antiviral.2013.07.013.
Diéguez, M.C., Queimaliños, C.P., Guevara, S.R., Marvin-DiPasquale, M., Cárdenas, C.S., and Arribére, M.A., 2013, Influence of dissolved organic matter character on mercury incorporation by planktonic organisms—An experimental study using oligotrophic water from Patagonian Lakes: Journal of Environmental Sciences, v. 25, no. 10, p. 1980-1991, doi:10.1016/S1001-0742(12)60281-2.
Eberts, S.M., Thomas, M.A., and Jagucki, M.L., 2013, The quality of our Nation's waters—Factors affecting public-supply-well vulnerability to contamination—Understanding observed water quality and anticipating future water quality: U.S. Geological Survey Circular 1385, 120 p.
Gibs, J., Heckathorn, H.A., Meyer, M.T., Klapinski, F.R., Alebus, M., and Lippincott, R.L., 2013, Occurrence and partitioning of antibiotic compounds found in the water column and bottom sediments from a stream receiving two wastewater treatment plant effluents in northern New Jersey, 2008: Science of the Total Environment, v. 458-460, p. 107-16, doi:10.1016/j.scitotenv.2013.03.076.
Haack, S.K., and Luukkonen, C.L., 2013, Relation between organic-wastewater compounds, groundwater geochemistry, and well characteristics for selected wells in Lansing, Michigan: U.S. Geological Survey Scientific Investigations Report 2013-5139, 36 p.
Harvey, J.W., Böhlke, J.K., Voytek, M.A., Scott, D., and Tobias, C.R., 2013, Hyporheic zone denitrification—Controls on effective reaction depth and contribution to whole-stream mass balance: Water Resources Research, v. 49, doi:10.1002/wrcr.20492.
Hershberger, P., Rhodes, L., Kurath, G., and Winton, J., 2013, Infectious diseases of fishes in the Salish Sea: Fisheries, v. 38, no. 9, p. 402-409, doi:10.1080/03632415.2013.826202.
Hinkle, S.R., Bencala, K.E., Wentz, D.A., and Krabbenhoft, D.P., 2013, Mercury and methylmercury dynamics in the hyporheic zone of an Oregon stream: Water, Air, and Soil Pollution, v. 225, no. 1, p. 1-17, doi:10.1007/s11270-013-1694-y.
Hostettler, F.D., Lorenson, T.D., and Bekins, B.A., 2013, Petroleum fingerprinting with organic markers: Environmental Forensics, v. 14, no. 4, p. 262-277, doi:10.1080/15275922.2013.843611.
Johnston, C., Byappanahalli, M.N., Gibson, J.M., Ufnar, J.A., Whitman, R.L., and Stewart, J.R., 2013, Probabilistic analysis showing that a combination of Bacteroides and Methanobrevibacter source tracking markers is effective for identifying waters contaminated by human fecal pollution: Environmental Science and Technology, v. 47, no. 23, p. 13621-13628, doi:10.1021/es403753k.
Kell, A.M., Wargo, A.R., and Kurath, G., 2013, The role of virulence in in vivo superinfection fitness of the vertebrate RNA virus infectious hematopoietic necrosis virus: Journal of Virology, v. 87, no. 14, p. 8145-8157, doi:10.1128/JVI.00089-13.
Kolker, A., Engle, M.A., Peucker-Ehrenbrink, B., Geboy, N.J., Krabbenhoft, D.P., Bothner, M.H., and Tate, M.T., 2013, Atmospheric mercury and fine particulate matter in coastal New England—Implications for mercury and trace element sources in the northeastern United States: Atmospheric Environment, v. 79, p. 760-768, doi:10.1016/j.atmosenv.2013.07.031.
Kolpin, D.W., Libra, R.D., Fields, C., and Hruby, C., 2013, A statewide look at viruses and pharmaceuticals in Iowa's aquifers: IGWA Underground, v. 3, p. 16-17.
Kolpin, D.W., Schenzel, J., Meyer, M.T., Phillips, P.J., Hubbard, L.E., Scott, T.-M., and Bucheli, T.D., 2013, Mycotoxins—Diffuse and Point source contributions of natural contaminants of emerging concern to streams: Science of the Total Environment, v. 470-471, p. 669-676, doi:10.1016/j.scitotenv.2013.09.062.
Krabbenhoft, D.P., and Sunderland, E.M., 2013, Global change and mercury: Science, v. 341, no. 6153, p. 1457-1458, doi:10.1126/science.1242838.
Kulp, T.R., Miller, L.G., Braiotta, F., Webb, S.M., Kocar, B.D., Blum, J.S., and Oremland, R.S., 2014, Microbiological reduction of Sb(V) in anoxic freshwater sediments: Environmental Science and Technology, v. 48, no. 1, p. 218-226, doi:10.1021/es403312j.
Kurath, G., Jolley, J.C., Thompson, T.M., Thompson, D., Whitesel, T.A., Gutenberger, S., and Winton, J.R., 2013, Ammocoetes of Pacific lamprey are not susceptible to common fish rhabdoviruses of the U.S. Pacific Northwest: Journal of Aquatic Animal Health, v. 25, no. 4, p. 274-280, doi:10.1080/08997659.2013.839967.
Lamborg, C.H., Kent, D.B., Swarr, G.J., Munson, K.M., Kading, T., O'Connor, A.E., Fairchild, G.M., Leblanc, D.R., and Wiatrowski, H.A., 2013, Mercury speciation and mobilization in a wastewater-contaminated groundwater plume: Environmental Science and Technology, v. 47, no. 23, p. 13239-13249, doi:10.1021/es402441d.
Layton, B.A., Cao, Y., Ebentier, D.L., Hanley, K., Ballesté, E., Brandão, J., Byappanahalli, M., Converse, R., Farnleitner, A.H., Gentry-Shields, J., Gidley, M.L., Gourmelon, M., Lee, C.S., Lee, J., Lozach, S., Madi, T., Meijer, W.G., Noble, R., Peed, L., Reischer, G.H., Rodrigues, R., Rose, J.B., Schriewer, A., Sinigalliano, C., Srinivasan, S., Stewart, J., Van De Werfhorst, L.C., Wang, D., Whitman, R., Wuertz, S., Jay, J., Holden, P.A., Boehm, A.B., Shanks, O., and Griffith, J.F., 2013, Performance of human fecal anaerobe-associated PCR-based assays in a multi-laboratory method evaluation study: Water Research, v. 47, no. 18, p. 6897-6908, doi:10.1016/j.watres.2013.05.060.
Lebrón, C., Phelan, D., Heron, G., LaChance, J., Nielsen, S.G., Kueper, B., Rodriguez, D., Wemp, A., Baston, D., Lacombe, P., and Chapelle, F.H., 2013, Dense non aqueous phase liquid (DNAPL) removal from fractured rock using thermal conductive heating (TCH): Environmental Security Technology Certification Program ESTCP Final Report ER200715, 427 p.
Maples, S.R., Andraski, B.J., Stonestrom, D.A., Cooper, C.A., Pohll, G., and Michel, R.L., 2013, Tritium plume dynamics in the shallow unsaturated zone in an arid environment: Vadose Zone Journal, v. 12, no. 4, p. 15, doi:10.2136/vzj2013.05.0080.
McKenzie, A., 2013, Simulating remediation of trichloroethylene in fractured bedrock by thermal conductive heating using the numerical model TMVOC: Queen's University, Master of Applied Science thesis, 99 p.
Mewafy, F.M., Werkema Jr., D.D., Atekwana, E.A., Slater, L.D., Abdel Aal, G., Revil, A., and Ntarlagiannis, D., 2013, Evidence that bio-metallic mineral precipitation enhances the complex conductivity response at a hydrocarbon contaminated site: Journal of Applied Geophysics, v. 98, p. 113-123, doi:10.1016/j.jappgeo.2013.08.011.
Minor, M., 2013, Effluent impacted systems—Effects on wildlife diversity, behavior, and morphology: St. Cloud University, Masters thesis.
Morawski, A.R., Carlson, C.M., Chang, H., and Johnson, C.J., 2013, In vitro prion protein conversion suggests risk of bighorn sheep (Ovis canadensis) to transmissible spongiform encephalopathies: BMC Veterinary Research, v. 9, p. 157, Pmc3751320, doi:10.1186/1746-6148-9-157.
Muñoz, F.A., Estrada-Parra, S., Romero-Rojas, A., Gonzalez-Ballesteros, E., Work, T.M., Villaseñor-Gaona, H., and Estrada-Garcia, I., 2013, Immunological evaluation of captive green sea turtle (Chelonia mydas) with ulcerative dermatitis: Journal of Zoo and Wildlife Medicine, v. 44, no. 4, p. 837-844, doi:10.1638/2010-0228R4.1.
Nakazawa, Y., Lash, R.R., Carroll, D.S., Damon, I.K., Karem, K.L., Reynolds, M.G., Osorio, J.E., Rocke, T.E., Malekani, J.M., Muyembe, J.J., Formenty, P., and Peterson, A.T., 2013, Mapping monkeypox transmission risk through time and space in the Congo Basin: PLoS ONE, v. 8, no. 9, e74816, doi:10.1371/journal.pone.0074816.
Nieber, J.L., 2013, Water repellency of soil at the Bemidji Oil Spill Site: Unsaturated Zone Interest Group Newsletter, no. 14, Spring 2013, p. 4-5.
Oremland, R.S., 2013, A random biogeochemical walk into three soda Lakes of the Western USA—With an introduction to a few of their microbial denizens, in Seckbach, J., Oren, A., and Stan-Lotter, H., eds., Polyextremophiles—Life Under Multiple Forms of Stress (Book Series—Cellular Origin, Life in Extreme Habitats and Astrobiology): New York, Springer, v. 27, p. 181-199, ISBN:9789400764880.
Przybyla-Kelly, K., Nevers, M.B., Breitenbach, C., and Whitman, R.L., 2013, Recreational water quality response to a filtering barrier at a Great Lakes beach: Journal of Environmental Management, v. 129, p. 635-641, doi:10.1016/j.jenvman.2013.08.040.
Purcell, M.K., Thompson, R.L., Garver, K.A., Hawley, L.M., Batts, W.N., Sprague, L., Sampson, C., and Winton, J.R., 2013, Universal reverse-transcriptase real-time PCR for infectious hematopoietic necrosis virus (IHNV): Diseases of Aquatic Organisms, v. 106, no. 2, p. 103-115, doi:10.3354/dao02644.
Ramey, A.M., Reeves, A.B., Ogawa, H., Ip, H.S., Imai, K., Bui, V.N., Yamaguchi, E., Silko, N.Y., and Afonso, C.L., 2013, Genetic diversity and mutation of avian paramyxovirus serotype 1 (Newcastle disease virus) in wild birds and evidence for intercontinental spread: Archives of Virology, v. 158, no. 12, p. 2495-2503, doi:10.1007/s00705-013-1761-0.
Rasa, E., Bekins, B.A., Mackay, D.M., de Sieyes, N.R., Wilson, J.T., Feris, K.P., Wood, I.A., and Scow, K.M., 2013, Impacts of an ethanol-blended fuel release on groundwater and fate of produced methane—Simulation of field observations: Water Resources Research, v. 49, no. 8, p. 4907-4926, doi:10.1002/wrcr.20382.
Sabino, R., Rodrigues, R., Costa, I., Carneiro, C., Cunha, M., Duarte, A., Faria, N., Ferreira, F.C., Gargaté, M.J., Júlio, C., Martins, M.L., Nevers, M.B., Oleastro, M., Solo-Gabriele, H., Veríssimo, C., Viegas, C., Whitman, R.L., and Brandão, J., 2014, Routine screening of harmful microorganisms in beach sands—Implications to public health: Science of the Total Environment, v. 472, p. 1062-1069, doi:10.1016/j.scitotenv.2013.11.091.
Santoro, M., Mattiucci, S., Work, T., Cimmaruta, R., Nardi, V., Cipriani, P., Bellisario, B., and Nascetti, G., 2013, Parasitic infection by larval helminths in Antarctic fishes—Pathological changes and Impact on the host body condition Index: Diseases of Aquatic Organisms, v. 105, no. 2, p. 139-148, doi:10.3354/dao02626.
Schaefer, C.E., Towne, R.M., Lippincott, D.R., Lazouskaya, V., Fischer, T.B., Bishop, M.E., and Dong, H., 2013, Coupled diffusion and abiotic reaction of trichlorethene in minimally disturbed rock matrices: Environmental Science and Technology, v. 47, no. 9, p. 4291-4298, doi:10.1021/es400457s.
Selbig, W.R., Bannerman, R., and Corsi, S.R., 2013, From streets to streams—Assessing the toxicity potential of urban sediment by particle size: Science of The Total Environment, v. 444, p. 381-391, doi:10.1016/j.scitotenv.2012.11.094.
Sinigalliano, C.D., Ervin, J.S., Van De Werfhorst, L.C., Badgley, B.D., Ballesté, E., Bartkowiak, J., Boehm, A.B., Byappanahalli, M., Goodwin, K.D., Gourmelon, M., Griffith, J., Holden, P.A., Jay, J., Layton, B., Lee, C., Lee, J., Meijer, W.G., Noble, R., Raith, M., Ryu, H., Sadowsky, M.J., Schriewer, A., Wang, D., Wanless, D., Whitman, R., Wuertz, S., and Santo Domingo, J.W., 2013, Multi-laboratory evaluations of the performance of Catellicoccus marimammalium PCR assays developed to target gull fecal sources: Water Research, v. 47, no. 18, p. 6883-6896, doi:10.1016/j.watres.2013.02.059.
Skalak, K.J., Engle, M.A., Rowan, E.L., Jolly, G.D., Conko, K.M., Benthem, A.J., and Kraemer, T.F., 2013, Surface disposal of produced waters in western and southwestern Pennsylvania—Potential for accumulation of alkali-earth elements in sediments: International Journal of Coal Geology, doi:10.1016/j.coal.2013.12.001.
Smith, K.S., Hoal, K.O., Walton-Day, K., Stammer, J.G., and Pietersen, K., 2013, Automated quantitative micro-mineralogical characterization for environmental applications, in Proceedings of the 2013 SME Annual Meeting and Exhibit (SME 2013) and CMA 115th National Western Mining Conference—Mining—It's About the People, Denver, Colo., February 24-27, 2013: Society for Mining, Metallurgy, and Exploration (SME), p. 7, ISBN:9781627486279 (Preprint 13-140).
Stewart, A.R., Luoma, S.N., Elrick, K.A., Carter, J.L., and van der Wegen, M., 2013, Influence of estuarine processes on spatiotemporal variation of bioavailable selenium: Marine Ecological Progress Series, v. 492, p. 41-56, doi:10.3354/meps10503.
Stonestrom, D.A., Andraski, B.J., Cooper, C.A., Mayers, C.J., and Michel, R.L., 2013, On the conversion of tritium units to mass fractions for hydrologic applications: Isotopes in Environmental and Health Studies, v. 49, no. 2, p. 250-256, doi:10.1080/10256016.2013.766610.
Storm, D.J., Samuel, M.D., Rolley, R.E., Shelton, P., Keuler, N.S., Richards, B.J., and Van Deelen, T.R., 2013, Deer density and disease prevalence influence transmission of chronic wasting disease in white-tailed deer: Ecosphere, v. 4, no. 1, p. art10, doi:10.1890/ES12-00141.1.
Takekawa, J.Y., Prosser, D.J., Collins, B.M., Douglas, D.C., Perry, W.M., Yan, B., Ze, L., Hou, Y., Lei, F., Li, T., Li, Y., and Newman, S.H., 2013, Movements of wild ruddy shelducks in the Central Asian flyway and their spatial relationship to outbreaks of highly pathogenic avian influenza H5N1: Viruses, v. 5, no. 9, p. 2129-2152, doi:10.3390/v5092129.
Topping, B.R., Kuwabara, J.S., Garrett, K.K., Takekawa, J.Y., Parchaso, F., Piotter, S., Clearwater, I., and Shellenbarger, G.G., 2013, Internal nutrient sources and nutrient distributions in Alviso Pond A3W, California: U.S. Geological Survey Open-File Report 2013-1128, 17 p.
Tush, D., Loftin, K.A., and Meyer, M.T., 2013, Characterization of polyoxyethylene tallow amine surfactants in technical mixtures and glyphosate formulations using ultra-high performance liquid chromatography and triple quadrupole mass spectrometry: Journal of Chromatography A, v. 1319, p. 80-87, doi:10.1016/j.chroma.2013.10.032.
Vyas, N.B., 1999, Factors influencing estimation of pesticide-related wildlife mortality: Toxicology and Industrial Health, v. 15, no. 1-2, p. 187-192, doi:10.1177/074823379901500116.
Vyas, N.B., 2013, Untested pesticide mitigation requirements—Ecological, agricultural, and legal implications: Drake Journal of Agricultural Law, v. 18, no. 2.
Vyas, N.B., Hulse, C.S., Meteyer, C.U., and Rice, C.P., 2013, Evidence of songbird intoxication from Rozol® application at a black-tailed prairie dog colony: Journal of Fish and Wildlife Management, v. 4, no. 1, p. 97-103, doi:10.3996/052012-jfwm-042.
Walton-Day, K., Mills, T.J., Amundson, A., Dee, K.T., Relego, M.R., and Borbely, C., 2013, The water-quality effects of a bulkhead installed in the Dinero Mine tunnel, near Leadville, Colorado, in Brown, A., Figueroa, L., and Wolkersdorfer, C., eds., Annual International Mine Water Association Conference—Reliable Mine Water Technology, Golden, Colo., August 5-9, 2013: Denver, Colo., Publication Printers, p. 115-120, ISBN:9780615793856.
White, L.C., Schuler, K.L., Thomas, N.J., Webb, J.L., Saliki, J.T., Ip, H.S., Dubey, J.P., and Frame, E.R., 2013, Pathogen exposure and blood chemistry in the Washington, USA population of northern sea otters (Enhydra lutris kenyoni): Journal of Wildlife Diseases, v. 49, no. 4, p. 887-899, doi:10.7589/2013-03-053.
Yager, T.J.B., Crock, J.G., Smith, D.B., Furlong, E.T., Hageman, P.L., Foreman, W.T., Gray, J.L., and ReVello, R.C., 2013, Effects of surface applications of biosolids on groundwater quality and trace-element concentrations in crops near Deer Trail, Colorado, 2004-2010: U.S. Geological Survey Scientific Investigations Report 2013-5065, vi, 119 p.
Yost, E.E., Meyer, M.T., Dietze, J.E., Meissner, B.M., Worley-Davis, L., Williams, C.M., Lee, B., and Kullman, S.W., 2013, Comprehensive assessment of hormones, phytoestrogens, and estrogenic activity in an anaerobic swine waste lagoon: Environmental Science and Technology, v. 47, no. 23, p. 13781-13790, doi:10.1021/es4026408.
Zamora, C., Majewski, M.S., and Foreman, W.T., 2013, Methods, quality assurance, and data for assessing atmospheric deposition of pesticides in the Central Valley of California: U.S. Geological Survey Scientific Investigations Report 2013-5023, xi, 180 p.
Hebert T. Buxton, Managing Editor
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