John Izbicki
John Izbicki - California Water Science Center
Science and Products
Filter Total Items: 102
Artificial recharge through a thick, heterogeneous unsaturated zone
Thick, heterogeneous unsaturated zones away from large streams in desert areas have not previously been considered suitable for artificial recharge from ponds. To test the potential for recharge in these settings, 1.3 x 106 m3 of water was infiltrated through a 0.36-ha pond along Oro Grande Wash near Victorville, California, between October 2002 and January 2006. The pond overlies a regional pumpi
Authors
John A. Izbicki, Alan L. Flint, Christina L. Stamos
Chromium, chromium isotopes and selected trace elements, western Mojave Desert, USA
Chromium(VI) concentrations in excess of the California Maximum Contaminant Level (MCL) of 50 μg/L occur naturally in alkaline, oxic ground-water in alluvial aquifers in the western Mojave Desert, southern California. The highest concentrations were measured in aquifers eroded from mafic rock, but Cr(VI) as high as 27 μg/L was measured in aquifers eroded from granitic rock. Chromium(VI) concentrat
Authors
J. A. Izbicki, J. W. Ball, T.D. Bullen, S. J. Sutley
Simulation of fluid, heat transport to estimate desert stream infiltration
In semiarid regions, the contribution of infiltration from intermittent streamflow to ground water recharge may be quantified by comparing simulations of fluid and heat transport beneath stream channels to observed ground temperatures. In addition to quantifying natural recharge, streamflow infiltration estimates provide a means to characterize the physical properties of stream channel sediments a
Authors
J.T. Kulongoski, J. A. Izbicki
Evidence for crustal degassing of CF4 and SF6 in Mojave Desert groundwaters
Dissolved tetrafluoromethane (CF4) and sulfur hexafluoride (SF6) concentrations were measured in groundwater samples from the Eastern Morongo Basin (EMB) and Mojave River Basin (MRB) located in the southern Mojave Desert, California. Both CF4 and SF6 are supersaturated with respect to equilibrium with the preindustrial atmosphere at the recharge temperatures and elevations of the Mojave Desert. Th
Authors
D.A. Deeds, M.K. Vollmer, J.T. Kulongoski, B.R. Miller, J. Muhle, C.M. Harth, J. A. Izbicki, David R. Hilton, R.F. Weiss
Discovery of cyanuric acid during an assessment of natural organic matter in stormflow water of the Santa Ana River, southern California, 2003-2004
A stormflow study of natural organic matter and organic contaminants in the Santa Ana River, the Mill Creek tributary, and an urban drain tributary discovered cyanuric acid in variable concentrations up to 510 g/L. Cyanuric acid was isolated with a hydrophilic natural organic matter (NOM) fraction, and its identity was confirmed by a combination of infrared spectrometry, 13C-nuclear magnetic reson
Authors
Jerry A. Leenheer, John A. Izbicki, Colleen E. Rostad, Ted I. Noyes, Greg Woodside
Geophysical Methods for Investigating Ground-Water Recharge
While numerical modeling has revolutionized our understanding of basin-scale hydrologic processes, such models rely almost exclusively on traditional measurements?rainfall, streamflow, and water-table elevations?for calibration and testing. Model calibration provides initial estimates of ground-water recharge. Calibrated models are important yet crude tools for addressing questions about the spati
Authors
Ty P.A. Ferre, Andrew M. Binley, Kyle W. Blasch, James B. Callegary, Steven M. Crawford, James B. Fink, Alan L. Flint, Lorraine E. Flint, John P. Hoffmann, John A. Izbicki, Marc T. Levitt, Donald R. Pool, Bridget R. Scanlon
Ground-water recharge from small intermittent streams in the western Mojave Desert, California
Population growth has impacted ground-water resources in the western Mojave Desert, where declining water levels suggest that recharge rates have not kept pace with withdrawals. Recharge from the Mojave River, the largest hydrographic feature in the study area, is relatively well characterized. In contrast, recharge from numerous smaller streams that convey runoff from the bounding mountains is po
Authors
John A. Izbicki, Russell U. Johnson, Justin T. Kulongoski, Steven Predmore
Concentration, UV-spectroscopic characteristics and fractionation of DOC in stormflow from an urban stream, Southern California, USA
The composition of dissolved organic carbon (DOC) in stormflow from urban areas has been greatly altered, both directly and indirectly, by human activities and there is concern that there may be public health issues associated with DOC, which has unknown composition from different sources within urban watersheds. This study evaluated changes in the concentration and composition of DOC in stormflow
Authors
John A. Izbicki, Isabel Pimentel, Russell Johnson, George R. Aiken, Jerry Leenheer
Physical and temporal isolation of mountain headwater streams in the western Mojave Desert, Southern California
Streams draining mountain headwater areas of the western Mojave Desert are commonly physically isolated from downstream hydrologic systems such as springs, playa lakes, wetlands, or larger streams and rivers by stream reaches that are dry much of the time. The physical isolation of surface flow in these streams may be broken for brief periods after rainfall or snowmelt when runoff is sufficient to
Authors
J. A. Izbicki
Sources of High-Chloride Water to Wells, Eastern San Joaquin Ground-Water Subbasin, California
As a result of pumping and subsequent declines in water levels, chloride concentrations have increased in water from wells in the Eastern San Joaquin Ground-Water Subbasin, about 80 miles east of San Francisco (Montgomery Watson, Inc., 2000). Water from a number of public-supply, agricultural, and domestic wells in the western part of the subbasin adjacent to the San Joaquin Delta exceeds the U.S.
Authors
John A. Izbicki, Loren F. Metzger, Kelly R. McPherson, Rhett R. Everett, George L. Bennett
Resolving structural influences on water-retention properties of alluvial deposits
With the goal of improving property-transfer model (PTM) predictions of unsaturated hydraulic properties, we investigated the influence of sedimentary structure, defined as particle arrangement during deposition, on laboratory-measured water retention (water content vs. potential [θ(ψ)]) of 10 undisturbed core samples from alluvial deposits in the western Mojave Desert, California. The samples wer
Authors
K.A. Winfield, J. R. Nimmo, J. A. Izbicki, P. M. Martin
Evaluation of geohydrologic framework, recharge estimates and ground-water flow of the Joshua Tree area, San Bernardino County, California
Ground water historically has been the sole source of water supply for the community of Joshua Tree in the Joshua Tree ground-water subbasin of the Morongo ground-water basin in the southern Mojave Desert. The Joshua Basin Water District (JBWD) supplies water to the community from the underlying Joshua Tree ground-water subbasin. The JBWD is concerned with the long-term sustainability of the under
Authors
Tracy Nishikawa, John A. Izbicki, Joseph A. Hevesi, Christina L. Stamos, Peter Martin
Science and Products
Filter Total Items: 102
Artificial recharge through a thick, heterogeneous unsaturated zone
Thick, heterogeneous unsaturated zones away from large streams in desert areas have not previously been considered suitable for artificial recharge from ponds. To test the potential for recharge in these settings, 1.3 x 106 m3 of water was infiltrated through a 0.36-ha pond along Oro Grande Wash near Victorville, California, between October 2002 and January 2006. The pond overlies a regional pumpi
Authors
John A. Izbicki, Alan L. Flint, Christina L. Stamos
Chromium, chromium isotopes and selected trace elements, western Mojave Desert, USA
Chromium(VI) concentrations in excess of the California Maximum Contaminant Level (MCL) of 50 μg/L occur naturally in alkaline, oxic ground-water in alluvial aquifers in the western Mojave Desert, southern California. The highest concentrations were measured in aquifers eroded from mafic rock, but Cr(VI) as high as 27 μg/L was measured in aquifers eroded from granitic rock. Chromium(VI) concentrat
Authors
J. A. Izbicki, J. W. Ball, T.D. Bullen, S. J. Sutley
Simulation of fluid, heat transport to estimate desert stream infiltration
In semiarid regions, the contribution of infiltration from intermittent streamflow to ground water recharge may be quantified by comparing simulations of fluid and heat transport beneath stream channels to observed ground temperatures. In addition to quantifying natural recharge, streamflow infiltration estimates provide a means to characterize the physical properties of stream channel sediments a
Authors
J.T. Kulongoski, J. A. Izbicki
Evidence for crustal degassing of CF4 and SF6 in Mojave Desert groundwaters
Dissolved tetrafluoromethane (CF4) and sulfur hexafluoride (SF6) concentrations were measured in groundwater samples from the Eastern Morongo Basin (EMB) and Mojave River Basin (MRB) located in the southern Mojave Desert, California. Both CF4 and SF6 are supersaturated with respect to equilibrium with the preindustrial atmosphere at the recharge temperatures and elevations of the Mojave Desert. Th
Authors
D.A. Deeds, M.K. Vollmer, J.T. Kulongoski, B.R. Miller, J. Muhle, C.M. Harth, J. A. Izbicki, David R. Hilton, R.F. Weiss
Discovery of cyanuric acid during an assessment of natural organic matter in stormflow water of the Santa Ana River, southern California, 2003-2004
A stormflow study of natural organic matter and organic contaminants in the Santa Ana River, the Mill Creek tributary, and an urban drain tributary discovered cyanuric acid in variable concentrations up to 510 g/L. Cyanuric acid was isolated with a hydrophilic natural organic matter (NOM) fraction, and its identity was confirmed by a combination of infrared spectrometry, 13C-nuclear magnetic reson
Authors
Jerry A. Leenheer, John A. Izbicki, Colleen E. Rostad, Ted I. Noyes, Greg Woodside
Geophysical Methods for Investigating Ground-Water Recharge
While numerical modeling has revolutionized our understanding of basin-scale hydrologic processes, such models rely almost exclusively on traditional measurements?rainfall, streamflow, and water-table elevations?for calibration and testing. Model calibration provides initial estimates of ground-water recharge. Calibrated models are important yet crude tools for addressing questions about the spati
Authors
Ty P.A. Ferre, Andrew M. Binley, Kyle W. Blasch, James B. Callegary, Steven M. Crawford, James B. Fink, Alan L. Flint, Lorraine E. Flint, John P. Hoffmann, John A. Izbicki, Marc T. Levitt, Donald R. Pool, Bridget R. Scanlon
Ground-water recharge from small intermittent streams in the western Mojave Desert, California
Population growth has impacted ground-water resources in the western Mojave Desert, where declining water levels suggest that recharge rates have not kept pace with withdrawals. Recharge from the Mojave River, the largest hydrographic feature in the study area, is relatively well characterized. In contrast, recharge from numerous smaller streams that convey runoff from the bounding mountains is po
Authors
John A. Izbicki, Russell U. Johnson, Justin T. Kulongoski, Steven Predmore
Concentration, UV-spectroscopic characteristics and fractionation of DOC in stormflow from an urban stream, Southern California, USA
The composition of dissolved organic carbon (DOC) in stormflow from urban areas has been greatly altered, both directly and indirectly, by human activities and there is concern that there may be public health issues associated with DOC, which has unknown composition from different sources within urban watersheds. This study evaluated changes in the concentration and composition of DOC in stormflow
Authors
John A. Izbicki, Isabel Pimentel, Russell Johnson, George R. Aiken, Jerry Leenheer
Physical and temporal isolation of mountain headwater streams in the western Mojave Desert, Southern California
Streams draining mountain headwater areas of the western Mojave Desert are commonly physically isolated from downstream hydrologic systems such as springs, playa lakes, wetlands, or larger streams and rivers by stream reaches that are dry much of the time. The physical isolation of surface flow in these streams may be broken for brief periods after rainfall or snowmelt when runoff is sufficient to
Authors
J. A. Izbicki
Sources of High-Chloride Water to Wells, Eastern San Joaquin Ground-Water Subbasin, California
As a result of pumping and subsequent declines in water levels, chloride concentrations have increased in water from wells in the Eastern San Joaquin Ground-Water Subbasin, about 80 miles east of San Francisco (Montgomery Watson, Inc., 2000). Water from a number of public-supply, agricultural, and domestic wells in the western part of the subbasin adjacent to the San Joaquin Delta exceeds the U.S.
Authors
John A. Izbicki, Loren F. Metzger, Kelly R. McPherson, Rhett R. Everett, George L. Bennett
Resolving structural influences on water-retention properties of alluvial deposits
With the goal of improving property-transfer model (PTM) predictions of unsaturated hydraulic properties, we investigated the influence of sedimentary structure, defined as particle arrangement during deposition, on laboratory-measured water retention (water content vs. potential [θ(ψ)]) of 10 undisturbed core samples from alluvial deposits in the western Mojave Desert, California. The samples wer
Authors
K.A. Winfield, J. R. Nimmo, J. A. Izbicki, P. M. Martin
Evaluation of geohydrologic framework, recharge estimates and ground-water flow of the Joshua Tree area, San Bernardino County, California
Ground water historically has been the sole source of water supply for the community of Joshua Tree in the Joshua Tree ground-water subbasin of the Morongo ground-water basin in the southern Mojave Desert. The Joshua Basin Water District (JBWD) supplies water to the community from the underlying Joshua Tree ground-water subbasin. The JBWD is concerned with the long-term sustainability of the under
Authors
Tracy Nishikawa, John A. Izbicki, Joseph A. Hevesi, Christina L. Stamos, Peter Martin