TY - JOUR
T1 - Wastewater irrigation impacts on soil hydraulic conductivity
T2 - Coupled field sampling and laboratory determination of saturated hydraulic conductivity
AU - Watson, Jack E.
AU - Robb, Tyson
AU - Andrews-Brown, Danielle
AU - Miller, Melissa
N1 - Funding Information:
The authors would like to thank the Pennsylvania State University Office of Physical Plant for providing partial funding to support this project. Partial funding was also provided by the USDA-Regional Research Project W-3170. We would like to express our gratitude to Ephraim Govere for his assistance with the analytical work. Our deepest gratitude is to Charles Walker, whose engineering design and construction skills made it possible for us to conduct this work.
Publisher Copyright:
© 2018 Journal of Visualized Experiments.
PY - 2018/8/19
Y1 - 2018/8/19
N2 - Since the early 1960s, an alternative wastewater discharge practice at The Pennsylvania State University has been researched and its impacts monitored. Rather than discharging treated wastewater to a stream, and thereby directly impacting the stream quality, the effluent is applied to forested and cropped land managed by the University. Concerns related to reductions in soil hydraulic conductivity occur when considering wastewater reuse. The methodology described in this manuscript, matching soil sample size with the size of the laboratory-based hydraulic conductivity measurement apparatus, provides the benefits of a relatively rapid collection of samples with the benefits of controlled laboratory boundary conditions. The results suggest that there may have been some impact of wastewater reuse on the soil's ability to transmit water at deeper depths in the depressional areas of the site. Most of the reductions in the soil hydraulic conductivity in the depressions appear to be related to the depth from which the sample was collected, and by inference, associated with the soil structural and textural differences.
AB - Since the early 1960s, an alternative wastewater discharge practice at The Pennsylvania State University has been researched and its impacts monitored. Rather than discharging treated wastewater to a stream, and thereby directly impacting the stream quality, the effluent is applied to forested and cropped land managed by the University. Concerns related to reductions in soil hydraulic conductivity occur when considering wastewater reuse. The methodology described in this manuscript, matching soil sample size with the size of the laboratory-based hydraulic conductivity measurement apparatus, provides the benefits of a relatively rapid collection of samples with the benefits of controlled laboratory boundary conditions. The results suggest that there may have been some impact of wastewater reuse on the soil's ability to transmit water at deeper depths in the depressional areas of the site. Most of the reductions in the soil hydraulic conductivity in the depressions appear to be related to the depth from which the sample was collected, and by inference, associated with the soil structural and textural differences.
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U2 - 10.3791/57181
DO - 10.3791/57181
M3 - Article
C2 - 30175993
AN - SCOPUS:85054516906
SN - 1940-087X
VL - 2018
JO - Journal of Visualized Experiments
JF - Journal of Visualized Experiments
IS - 138
M1 - e57181
ER -