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- Ecological risk assessment (3)
- Bayesian network (2)
- Water quality (2)
- AChE inhibition (1)
- Agriculture (1)
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- Algae (1)
- Amphibians (1)
- Bayesian network relative risk model (1)
- Carbonate chemistry (1)
- Centrarchid (1)
- Chemistry (1)
- Chinook Salmon (1)
- Chlorpyrifos (1)
- City of Bellingham (1)
- Coastal (1)
- Cyanobacteria (1)
- Dairy (1)
- Environmental DNA (eDNA) (1)
- Envrionmental monitoring (1)
- Estuary (1)
- Fish (1)
- Floodplain (1)
- Habitat restoration (1)
- Heart lake (1)
- Lake Whatcom (1)
- Landscape scale risk assessment (1)
- Marine science (1)
- Moses lake (1)
- Occupancy (1)
- Pacific Northwest (1)
Articles 1 - 10 of 10
Full-Text Articles in Physical Sciences and Mathematics
Floodplains Provide Important Amphibian Habitat Despite Facing Multiple Ecological Threats, Meredith A. Holgerson, Adam Duarte, Marc P. Hayes, Michael J. Adams, Julie A. Tyson, Keith A. Douville, Angela Strecker
Floodplains Provide Important Amphibian Habitat Despite Facing Multiple Ecological Threats, Meredith A. Holgerson, Adam Duarte, Marc P. Hayes, Michael J. Adams, Julie A. Tyson, Keith A. Douville, Angela Strecker
Environmental Sciences Faculty and Staff Publications
Floodplain ponds and wetlands are productive and biodiverse ecosystems, yet they face multiple threats including altered hydrology, land use change, and non-native species. Protecting and restoring important floodplain ecosystems requires understanding how organisms use these habitats and respond to altered environmental conditions. We developed Bayesian models to evaluate occupancy of six amphibian species across 103 off-channel aquatic habitats in the Chehalis River floodplain, Washington State, USA. The basin has been altered by changes in land use, reduced river–wetland connections, and the establishment of non-native American bullfrogs (Rana catesbeiana = Lithobates catesbeianus) and centrarchid fishes, all of which we …
Dataset For The Environmental Risk Assessment Of Chlorpyrifos To Chinook Salmon In Four Rivers Of Washington State, United States, Wayne G. Landis, Valerie R. Chu, Scarlett Graham, Meagan J. Harris, April J. Markiewicz, Chelsea J. Mitchell, Katherine E. Stackelberg, John Stark
Dataset For The Environmental Risk Assessment Of Chlorpyrifos To Chinook Salmon In Four Rivers Of Washington State, United States, Wayne G. Landis, Valerie R. Chu, Scarlett Graham, Meagan J. Harris, April J. Markiewicz, Chelsea J. Mitchell, Katherine E. Stackelberg, John Stark
Environmental Sciences Faculty and Staff Publications
Data files available below.
This data set is in support of Landis et al (in press) The integration of chlorpyrifos acetylcholinesterase inhibition, water temperature and dissolved oxygen concentration into a regional scale multiple stressor risk assessment estimating risk to Chinook salmon in four rivers in Washington State, USA. DOI: 10.1002/ieam.4199. In this research We estimated the risk to populations of Chinook salmon (Oncorhynchus tshawytscha) due to chlorpyrifos (CH), water temperature (WT) and dissolved oxygen concentrations (DO) in four watersheds in Washington State, USA. The watersheds included the Nooksack and Skagit Rivers in the Northern Puget Sound, the Cedar …
Integration Of Chlorpyrifos Acetylcholinesterase Inhibition, Water Temperature, And Dissolved Oxygen Concentration Into A Regional Scale Multiple Stressor Risk Assessment Estimating Risk To Chinook Salmon, Wayne G. Landis, Valerie R. Chu, Scarlett E. Graham, Meagan J. Harris, April J. Markiewicz, Chelsea J. Mitchell, Katherine E. Von Stackelberg, John D. Stark
Integration Of Chlorpyrifos Acetylcholinesterase Inhibition, Water Temperature, And Dissolved Oxygen Concentration Into A Regional Scale Multiple Stressor Risk Assessment Estimating Risk To Chinook Salmon, Wayne G. Landis, Valerie R. Chu, Scarlett E. Graham, Meagan J. Harris, April J. Markiewicz, Chelsea J. Mitchell, Katherine E. Von Stackelberg, John D. Stark
IETC Publications
We estimated the risk to populations of Chinook salmon (Oncorhynchus tshawytscha) due to chlorpyrifos (CH), water temperature (WT), and dissolved oxygen concentration (DO) in 4 watersheds in Washington State, USA. The watersheds included the Nooksack and Skagit Rivers in the Northern Puget Sound, the Cedar River in the Seattle–Tacoma corridor, and the Yakima River, a tributary of the Columbia River. The Bayesian network relative risk model (BN‐RRM) was used to conduct this ecological risk assessment and was modified to contain an acetylcholinesterase (AChE) inhibition pathway parameterized using data from CH toxicity data sets. The completed BN‐RRM estimated risk at a …
Quick Guide To Plant Families Of Western Washington, Maggie Hayward, John D. Tuxill, James M. Helfield
Quick Guide To Plant Families Of Western Washington, Maggie Hayward, John D. Tuxill, James M. Helfield
WWU Honors College Senior Projects
This guide is an expanded version of a booklet designed to help students identify native plants in western Washington. It has been expanded to include invasive and ruderal taxa commonly found in riparian areas. The purpose of this guide is to provide practical help for identifying plant families, and to facilitate a basic understanding of plant morphology. By observing morphological characteristics such as leaf arrangement and structure, the user can narrow an unidentified species down to the family level. Because this book does not go to the species level, it is meant to be used as a companion to other …
Preliminary Impacts Of Constructed Log Jams On Streambed Topography And Bed Temperature On The South Fork Nooksack River, Sam Kaiser
WWU Honors College Senior Projects
Salmon are an essential part of the culture, ecology and economy of the Pacific Northwest region of North America, but populations of some ecotypes are declining. One specific population, the Puget Sound chinook (Oncorhynchus tshawytscha), is listed as threatened under terms of the U.S. Endangered Species Act (ESA). The decline of this ecotype has implications not only for humans but also for all links of the ecosystem such as the populations of southern resident killer whales (Orcinus orca) which prey predominately on chinook salmon. Major threats to these fish include overharvest and habitat degradation due to …
Lake Whatcom Monitoring Project 2017/2018 Report, Robin A. Matthews, Michael Hilles, Joan Pickens, Robert J. Mitchell, Geoffrey B. Matthews
Lake Whatcom Monitoring Project 2017/2018 Report, Robin A. Matthews, Michael Hilles, Joan Pickens, Robert J. Mitchell, Geoffrey B. Matthews
Lake Whatcom Annual Reports
This report describes the results from the 2017/2018 Lake Whatcom monitoring program conducted by the Institute for Watershed Studies at Western Washington University (www.wwu.edu/iws). The major objectives in 2017/2018 were to continue long-term baseline water quality monitoring in Lake Whatcom and its major tributaries; collect storm runoff water quality data from representative streams in the watershed; and continue collection of hydrologic data from Austin and Smith Creeks.
Moses Lake Algae Monitoring Project 2018 Final Report, Robin A. Matthews, Joan Pickens, Eric J. Lawrence
Moses Lake Algae Monitoring Project 2018 Final Report, Robin A. Matthews, Joan Pickens, Eric J. Lawrence
Moses Lake
Moses Lake is a shallow, hypereutrophic lake in Grant County, Washington (Carroll and Cusimano, 2001), with a surface area of 6,800 acres (27.5 km2 ), total volume of 130,000 acre-ft (160.4 × 106 m3), average depth of 19 ft. (5.8 m), and maximum depth of 38 ft. (11.6 m; Dion, et al., 1976). The lake is situated adjacent to the city of Moses Lake and drains into Crab Creek, a tributary of Columbia River. The lake is a popular recreational destination for fishing, boating, swimming, and camping.
Moses Lake develops nuisance blooms of cyanobacteria during the summer and fall. The …
Heart Lake Monitoring Project 2018 Final Report, Michael P. Lawlor, Robin A. Matthews, Joan Pickens
Heart Lake Monitoring Project 2018 Final Report, Michael P. Lawlor, Robin A. Matthews, Joan Pickens
Heart Lake
Heart Lake is a 61.4 acre lake (0.248 km2
) located about 2 miles (3.2 km) south of Anacortes off of Heart Lake Road (Table 1; Figure 1). Heart Lake is separated into two basins and has a total shoreline length of 1.64 miles (2.645 km). The western basin is slightly larger and deeper that the eastern basin, but the maximum depth and average depth of the lake is only 5.8 and 2.7 meters, respectively. There are six seasonal sources of water flowing into the lake, including streams, wetlands, and runoff. The lake is situated at the headwaters for the …
Using Bayesian Networks To Predict Risk To Estuary Water Quality And Patterns Of Benthic Environmental Dna In Queensland, Scarlett E. Graham, Anthony A. Chariton, Wayne G. Landis
Using Bayesian Networks To Predict Risk To Estuary Water Quality And Patterns Of Benthic Environmental Dna In Queensland, Scarlett E. Graham, Anthony A. Chariton, Wayne G. Landis
Institute of Environmental Toxicology & Chemistry Publications
Predictive modeling can inform natural resource management by representing stressor-response pathways in a logical way and quantifying the effects on selected endpoints. This study demonstrates a risk assessment model using the Bayesian network-relative risk model (BNRRM) approach to predict water quality and; for the first time, eukaryote environmental DNA (eDNA) data as a measure of benthic community structure. Environmental DNA sampling is a technique for biodiversity measurements that involves extracting DNA from environmental samples, amplicon sequencing a targeted gene, in this case the 18s rDNA gene which targets eukaryotes, and matching the sequences to organisms. Using a network of probability …
Temporal And Spatial Variability Of Carbonate Chemistry In A Tillamook Bay Tributary: Tracing Acidification From The River To The Bay, Abigail Ernest-Beck
Temporal And Spatial Variability Of Carbonate Chemistry In A Tillamook Bay Tributary: Tracing Acidification From The River To The Bay, Abigail Ernest-Beck
WWU Honors College Senior Projects
Coastal acidification from rising atmospheric carbon dioxide can be exacerbated by local factors such as land inputs of inorganic carbon and nutrients. In Tillamook Bay, OR, the possibility of local factors enhancing acidification and impacting oyster aquaculture in the bay is a concern due to extensive agriculture in the watershed. The US EPA has been monitoring water conditions in Tillamook Bay tributaries since the summer of 2016, and preliminary findings showed increased dissolved inorganic carbon (DIC) downstream of agricultural areas. To determine the causes of elevated DIC, changes attributed to land-based inputs must be distinguished from natural temporal variability and …