Data from Doughty et al. (2020), Electrical imaging of tracer tests and hyporheic exchange from logjams
Data from Doughty, M., Sawyer, A., Wohl, E., and Singha, K. (2020). Mapping increases in hyporheic exchange from channel-spanning logjams, Journal of Hydrology, https://doi.org/10.1016/j.jhydrol.2020.124931. Human impacts such as timber harvesting, channel engineering, beaver removal, and urban...
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2020
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| Online Access: | https://search.dataone.org/view/sha256:60512d33829e2745fc5feeadda2398bdc66b561afc76524fe9b08c4d46c49c82 |
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dataone:sha256:60512d33829e2745fc5feeadda2398bdc66b561afc76524fe9b08c4d46c49c82 |
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openpolar |
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dataone:sha256:60512d33829e2745fc5feeadda2398bdc66b561afc76524fe9b08c4d46c49c82 2024-03-03T19:46:10+00:00 Data from Doughty et al. (2020), Electrical imaging of tracer tests and hyporheic exchange from logjams Megan Doughty Kamini Singha ENVELOPE(-105.5426,-105.5376,40.6205,40.6161) BEGINDATE: 2018-06-13T00:00:00Z ENDDATE: 2018-07-31T00:00:00Z 2020-05-01T14:18:43.753Z https://search.dataone.org/view/sha256:60512d33829e2745fc5feeadda2398bdc66b561afc76524fe9b08c4d46c49c82 unknown electrical resistivity modeling transducer groundwater-surface water hyporheic exchange Modflow electrical conductivity hydrology Dataset 2020 dataone:urn:node:HYDROSHARE 2024-03-03T19:17:44Z Data from Doughty, M., Sawyer, A., Wohl, E., and Singha, K. (2020). Mapping increases in hyporheic exchange from channel-spanning logjams, Journal of Hydrology, https://doi.org/10.1016/j.jhydrol.2020.124931. Human impacts such as timber harvesting, channel engineering, beaver removal, and urbanization alter the physical and chemical characteristics of streams. These anthropogenic changes have reduced fallen trees and loose wood that form blockages in streams. Logjams increase hydraulic resistance and create hydraulic head gradients along the streambed that drive groundwater-surface water exchange. Here, we quantify changes in hyporheic exchange flow (HEF) due to a channel-spanning logjam using field measurements and numerical modeling in MODFLOW and MT3DMS. Electrical resistivity (ER) imaging was used to monitor the transport of solutes into the hyporheic zone during a series of in-stream tracer tests supplemented by in-stream monitoring. We conducted experiments in two reaches in Little Beaver Creek, Colorado (USA): one with a single, channel-spanning logjam and the second at a control reach with no logjams. Our results show that 1) higher HEF occurred at the reach with a logjam, 2) logjams create complex HEF pathways that can cause bimodal solute breakthrough behavior downstream, and 3) higher discharge rates associated with spring snowmelt increase the extent and magnitude of HEF. The numerical modeling supports all three field findings, and also suggest that lower flows increase solute retention in streams, although this last conclusion is not supported by field results. This study represents the first use of ER to explore HEF around a naturally occurring logjam over different stream discharges and has implications for understanding how logjams influence the transport of solutes, the health of stream ecosystems, and stream restoration and conservation efforts. Dataset Beaver Creek Unknown ENVELOPE(-105.5426,-105.5376,40.6205,40.6161) |
| institution |
Open Polar |
| collection |
Unknown |
| op_collection_id |
dataone:urn:node:HYDROSHARE |
| language |
unknown |
| topic |
electrical resistivity modeling transducer groundwater-surface water hyporheic exchange Modflow electrical conductivity hydrology |
| spellingShingle |
electrical resistivity modeling transducer groundwater-surface water hyporheic exchange Modflow electrical conductivity hydrology Megan Doughty Kamini Singha Data from Doughty et al. (2020), Electrical imaging of tracer tests and hyporheic exchange from logjams |
| topic_facet |
electrical resistivity modeling transducer groundwater-surface water hyporheic exchange Modflow electrical conductivity hydrology |
| description |
Data from Doughty, M., Sawyer, A., Wohl, E., and Singha, K. (2020). Mapping increases in hyporheic exchange from channel-spanning logjams, Journal of Hydrology, https://doi.org/10.1016/j.jhydrol.2020.124931. Human impacts such as timber harvesting, channel engineering, beaver removal, and urbanization alter the physical and chemical characteristics of streams. These anthropogenic changes have reduced fallen trees and loose wood that form blockages in streams. Logjams increase hydraulic resistance and create hydraulic head gradients along the streambed that drive groundwater-surface water exchange. Here, we quantify changes in hyporheic exchange flow (HEF) due to a channel-spanning logjam using field measurements and numerical modeling in MODFLOW and MT3DMS. Electrical resistivity (ER) imaging was used to monitor the transport of solutes into the hyporheic zone during a series of in-stream tracer tests supplemented by in-stream monitoring. We conducted experiments in two reaches in Little Beaver Creek, Colorado (USA): one with a single, channel-spanning logjam and the second at a control reach with no logjams. Our results show that 1) higher HEF occurred at the reach with a logjam, 2) logjams create complex HEF pathways that can cause bimodal solute breakthrough behavior downstream, and 3) higher discharge rates associated with spring snowmelt increase the extent and magnitude of HEF. The numerical modeling supports all three field findings, and also suggest that lower flows increase solute retention in streams, although this last conclusion is not supported by field results. This study represents the first use of ER to explore HEF around a naturally occurring logjam over different stream discharges and has implications for understanding how logjams influence the transport of solutes, the health of stream ecosystems, and stream restoration and conservation efforts. |
| format |
Dataset |
| author |
Megan Doughty Kamini Singha |
| author_facet |
Megan Doughty Kamini Singha |
| author_sort |
Megan Doughty |
| title |
Data from Doughty et al. (2020), Electrical imaging of tracer tests and hyporheic exchange from logjams |
| title_short |
Data from Doughty et al. (2020), Electrical imaging of tracer tests and hyporheic exchange from logjams |
| title_full |
Data from Doughty et al. (2020), Electrical imaging of tracer tests and hyporheic exchange from logjams |
| title_fullStr |
Data from Doughty et al. (2020), Electrical imaging of tracer tests and hyporheic exchange from logjams |
| title_full_unstemmed |
Data from Doughty et al. (2020), Electrical imaging of tracer tests and hyporheic exchange from logjams |
| title_sort |
data from doughty et al. (2020), electrical imaging of tracer tests and hyporheic exchange from logjams |
| publishDate |
2020 |
| url |
https://search.dataone.org/view/sha256:60512d33829e2745fc5feeadda2398bdc66b561afc76524fe9b08c4d46c49c82 |
| op_coverage |
ENVELOPE(-105.5426,-105.5376,40.6205,40.6161) BEGINDATE: 2018-06-13T00:00:00Z ENDDATE: 2018-07-31T00:00:00Z |
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ENVELOPE(-105.5426,-105.5376,40.6205,40.6161) |
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Beaver Creek |
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Beaver Creek |
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1792539312107028480 |