Your search keyword '"Domagalski JL"' showing total 2 results

1. Hydrologic and biogeochemical controls of river subsurface solutes under agriculturally enhanced ground water flow.

Author

Wildman RA Jr, Domagalski JL, and Hering JG

Subjects

Barium analysis, Barium chemistry, California, Linear Models, Manganese analysis, Manganese chemistry, Oxidation-Reduction, Phosphorus analysis, Phosphorus chemistry, Principal Component Analysis, Seasons, Strontium analysis, Strontium chemistry, Uranium analysis, Uranium chemistry, Water Pollutants chemistry, Agriculture, Rivers chemistry, Water Movements, Water Pollutants analysis

Abstract

The relative influences of hydrologic processes and biogeochemistry on the transport and retention of minor solutes were compared in the riverbed of the lower Merced River (California, USA). The subsurface of this reach receives ground water discharge and surface water infiltration due to an altered hydraulic setting resulting from agricultural irrigation. Filtered ground water samples were collected from 30 drive point locations in March, June, and October 2004. Hydrologic processes, described previously, were verified by observations of bromine concentrations; manganese was used to indicate redox conditions. The separate responses of the minor solutes strontium, barium, uranium, and phosphorus to these influences were examined. Correlation and principal component analyses indicate that hydrologic processes dominate the distribution of trace elements in the ground water. Redox conditions appear to be independent of hydrologic processes and account for most of the remaining data variability. With some variability, major processes are consistent in two sampling transects separated by 100 m.

Published

2009

2. Comparative study of transport processes of nitrogen, phosphorus, and herbicides to streams in five agricultural basins, USA.

Author

Domagalski JL, Ator S, Coupe R, McCarthy K, Lampe D, Sandstrom M, and Baker N

Subjects

United States, Agriculture, Herbicides chemistry, Nitrogen chemistry, Phosphorus chemistry, Water Pollutants, Chemical chemistry

Abstract

Agricultural chemical transport to surface water and the linkage to other hydrological compartments, principally ground water, was investigated at five watersheds in semiarid to humid climatic settings. Chemical transport was affected by storm water runoff, soil drainage, irrigation, and how streams were linked to shallow ground water systems. Irrigation practices and timing of chemical use greatly affected nutrient and pesticide transport in the semiarid basins. Irrigation with imported water tended to increase ground water and chemical transport, whereas the use of locally pumped irrigation water may eliminate connections between streams and ground water, resulting in lower annual loads. Drainage pathways in humid environments are important because the loads may be transported in tile drains, or through varying combinations of ground water discharge, and overland flow. In most cases, overland flow contributed the greatest loads, but a significant portion of the annual load of nitrate and some pesticide degradates can be transported under base-flow conditions. The highest basin yields for nitrate were measured in a semiarid irrigated system that used imported water and in a stream dominated by tile drainage in a humid environment. Pesticide loads, as a percent of actual use (LAPU), showed the effects of climate and geohydrologic conditions. The LAPU values in the semiarid study basin in Washington were generally low because most of the load was transported in ground water discharge to the stream. When herbicides are applied during the rainy season in a semiarid setting, such as simazine in the California basin, LAPU values are similar to those in the Midwest basins.

Published

2008