EARLY HEARING DETECTION AND INTERVENTION VIRTUAL CONFERENCE
MARCH 2-5, 2021
(Virtually the same conference, without elevators, airplane tickets, or hotel room keys)
5/24/2018 | 10:00 AM - 10:15 AM | RIPARIAN SHADE CONTROLS ON STREAM TEMPERATURE NOW AND IN THE FUTURE ACROSS TRIBUTARIES OF THE COLUMBIA RIVER, USA | 330 B
RIPARIAN SHADE CONTROLS ON STREAM TEMPERATURE NOW AND IN THE FUTURE ACROSS TRIBUTARIES OF THE COLUMBIA RIVER, USA
Future climates may warm stream temperatures altering aquatic communities and threatening socioeconomically-important species. These impacts vary across large spatial extents and require special evaluation tools. Statistical stream network models (SSNs) account for spatial autocorrelation in rivers and are suited to evaluate stream parameters affected by climate change. SSNs predicted mean August stream temperature for tributaries of the mainstem Columbia River (downstream of Snake River) under three climate scenarios (present, 2040, 2080). These climate scenarios were crossed with three channel shading levels including (1) topographic – no riparian vegetation, (2) present vegetation shade, and (3) potential vegetation shade – maximum height of riparian vegetation to evaluate the use of riparian restoration to offset forecast climate changes. The mean August temperature of all 191 tributary outflows was below the minimum cold water refugia (CWR) threshold of 20°C for three scenarios (present climate/present shade, present climate/potential shade, 2040 climate/potential shade); other scenarios were 1-2°C above. Relative to the present climate/shade scenario, the percent of tributaries below the CWR threshold in 2040 drops 35%, while 2040 climate with potential shading drops 6%. This suggests riparian shading regionally could maintain Columbia River CWR in 2040.
- Restoration
- Riparian
- Climate Change
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Presenters/Authors
Matthew Fuller
(), ORISE postdoc with US EPA/Atlantic Ecology Division, matthew.robert.fuller@gmail.com;
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Naomi Detenbeck
(), U.S. EPA/ORD/NHEERL Atlantic Ecology Division, Detenbeck.Naomi@epa.gov;
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Peter Leinenbach
(), US EPA, leinenbach.peter@epa.gov;
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Rochelle Labiosa
(), US Environmental Protection Agency, labiosa.rochelle@epa.gov;
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Daniel Isaak
(), Research and Development, United States Forest Service, Boise, Idaho 83702, disaak@fs.fed.us;
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