Jeffrey M. Fischer
United States Geological Survey
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by Jeffrey M. Fischer.
Journal of Contaminant Hydrology | 1999
Isabelle M. Cozzarelli; Janet S. Herman; Mary Jo Baedecker; Jeffrey M. Fischer
Abstract The scale of biogeochemical reactions was studied in a physically and chemically heterogeneous surficial Coastal Plain aquifer contaminated by a gasoline spill. The physical heterogeneity of the aquifer is manifested in two hydrologic units, a shallow local aquifer of perched water and a regional sandy aquifer. Over the studied vertical interval of 21.3 ft (6.5 m), concentrations of reactive species varied by orders of magnitude, and the impact of biodegradation was expressed to widely varying degrees. A thin (3 ft thick) section of the perched-water zone was the most contaminated; total aromatic hydrocarbons were as high as 19.4 mg/l. Hydrocarbons were degraded by microbially mediated reactions that varied over short vertical distances and time. Anaerobic processes dominated within the low-permeability clay unit, whereas in the more permeable sandy layers nitrate reduction and aerobic degradation occurred. Hydrocarbons were more persistent over time in the low-permeability layer due to the limited availability of electron acceptors for degradation. The microbial degradation of hydrocarbons was linked to sulfate and iron reduction in the clay unit and led to alterations in the aquifer solids; electron microscopy revealed the presence of FeS minerals encrusting primary aquifer grains. High concentrations of Fe 2+ in groundwater, up to 34.5 mg/l, persist in kinetic disequilibrium in the presence of elevated H 2 S levels of 1.0 mg/l. Assessment of aquifer heterogeneities and groundwater contamination was possible due to sample discrimination at a scale of approximately 2 ft (∼0.6 m), a much finer resolution than is attempted in many remedial investigations of polluted aquifers. The information obtained in this type of study is essential to the development of models capable of estimating the fate of hydrocarbons at a site scale.
Landscape Ecology | 2010
Karen Riva-Murray; Rachel Riemann; Peter S. Murdoch; Jeffrey M. Fischer; Robin A. Brightbill
Widespread and increasing urbanization has resulted in the need to assess, monitor, and understand its effects on stream water quality. Identifying relations between stream ecological condition and urban intensity indicators such as impervious surface provides important, but insufficient information to effectively address planning and management needs in such areas. In this study we investigate those specific landscape metrics which are functionally linked to indicators of stream ecological condition, and in particular, identify those characteristics that exacerbate or mitigate changes in ecological condition over and above impervious surface. The approach used addresses challenges associated with redundancy of landscape metrics, and links landscape pattern and composition to an indicator of stream ecological condition across a broad area of the eastern United States. Macroinvertebrate samples were collected during 2000–2001 from forty-two sites in the Delaware River Basin, and landscape data of high spatial and thematic resolution were obtained from photointerpretation of 1999 imagery. An ordination-derived ‘biotic score’ was positively correlated with assemblage tolerance, and with urban-related chemical characteristics such as chloride concentration and an index of potential pesticide toxicity. Impervious surface explained 56% of the variation in biotic score, but the variation explained increased to as high as 83% with the incorporation of a second land use, cover, or configuration metric at catchment or riparian scales. These include land use class-specific cover metrics such as percent of urban land with tree cover, forest fragmentation metrics such as aggregation index, riparian metrics such as percent tree cover, and metrics related to urban aggregation. Study results indicate that these metrics will be important to monitor in urbanizing areas in addition to impervious surface.
Marine Pollution Bulletin | 2016
Geoffrey S. Plumlee; William M. Benzel; Todd M. Hoefen; Philip L. Hageman; Suzette A. Morman; Timothy J. Reilly; Monique Adams; Cyrus J. Berry; Jeffrey M. Fischer; Irene J. Fisher
Some barrier-island dunes damaged or destroyed by Hurricane Sandys storm surges in October 2012 have been reconstructed using sediments dredged from back bays. These sand-, clay-, and iron sulfide-rich sediments were used to make berm-like cores for the reconstructed dunes, which were then covered by beach sand. In November 2013, we sampled and analyzed partially weathered materials collected from the cores of reconstructed dunes. There are generally low levels of metal toxicants in the reconstructed dune materials. However oxidation of reactive iron sulfides by percolating rainwater produces acid-sulfate pore waters, which evaporate during dry periods to produce efflorescent gypsum and sodium jarosite salts. The results suggest use of sulfidic sediments in dune reconstruction has both drawbacks (e.g., potential to generate acid runoff from dune cores following rainfall, enhanced corrosion of steel bulwarks) and possible benefits (e.g., efflorescent salts may enhance structural integrity).
Applied Geochemistry | 2012
Zoltan Szabo; Vincent T. dePaul; Jeffrey M. Fischer; Thomas F. Kraemer; Eric Jacobsen
Water Air and Soil Pollution | 2010
Julia L. Barringer; Melissa L. Riskin; Zoltan Szabo; Pamela A. Reilly; Robert Rosman; Jennifer L. Bonin; Jeffrey M. Fischer; Heather A. Heckathorn
Environmental Earth Sciences | 2008
Julia L. Barringer; Timothy P. Wilson; Zoltan Szabo; Jennifer L. Bonin; Jeffrey M. Fischer; Nicholas P. Smith
Data Series | 2015
Jeffrey M. Fischer; Patrick J. Phillips; Timothy J. Reilly; Michael J. Focazio; Keith A. Loftin; William M. Benzel; Daniel K. Jones; Kelly L. Smalling; Shawn C. Fisher; Irene J. Fisher; Luke R. Iwanowicz; Kristin M. Romanok; Darkus E. Jenkins; Luke Bowers; Adam Boehlke; William T. Foreman; Anna C. Deetz; Lisa G. Carper; Thomas E. Imbrigiotta; Justin E. Birdwell
Circular | 2013
William M. Alley; Eric J. Evenson; Nancy L. Barber; Breton W. Bruce; Kevin F. Dennehy; Mary C. Freeman; Ward O. Freeman; Jeffrey M. Fischer; William B. Hughes; Jonathan G. Kennen; Julie E. Kiang; Kelly O. Maloney; MaryLynn Musgrove; Barbara E. Ralston; Steven Tessler; James P. Verdin
Circular | 2004
Jeffrey M. Fischer; Karen Riva-Murray; R. Edward Hickman; Douglas C. Chichester; Robin A. Brightbill; Kristin M. Romanok; Michael D. Bilger
Scientific Investigations Report | 2015
Tanja N. Williamson; Jeremiah G. Lant; Peter Claggett; Elizabeth A. Nystrom; Paul C.D. Milly; Hugh L. Nelson; Scott A. Hoffman; Susan J. Colarullo; Jeffrey M. Fischer