Whatcom CD has partnered with a variety of organizations and farms over the years to conduct conservation research in Whatcom County. 

Edge of Field Monitoring

Whatcom CD partnered with local dairy farmers to better understand the effects of best management practices on field runoff and water quality. Edge of Field monitoring stations detect when runoff events occur and measure runoff volumes and durations. Monitoring stations also automatically collect water quality samples for lab analysis of sediment, bacteria, and nutrients. Rainfall and soil moisture are also recorded at each study site to better understand how field conditions relate to runoff risk. The study was funded through the Natural Resource Conservation Service (NRCS) Environmental Quality Incentive Program (EQIP) and ran from 2016-2024.

Sub-Irrigation Using Water Level Control Structures

Whatcom CD partnered with Washington State University Extension to conduct a demonstration project on the benefits of controlled drainage and sub-irrigation using Water Level Control Structures. Water level control structures (WLCS) such as Agri Drains are a tool to manage drainage on farm fields. The WLCS are left in open mode in the winter to allow draintiles and farm ditches flow freely and improve drainage for spring farming. Then in the spring once crops are planted, the WLCS are closed and used to slow drainage during low rainfall summer months. This project evaluated WLCS performance on a local level by comparing fields with and without WLCS. Data collected included silage corn/perennial silage grass yields, soil moisture, irrigation water inputs, depth to groundwater, soil inorganic nitrogen, nitrate leaching, and surface and groundwater quality. The project was funded through a Conservation Innovation Grant (CIG) through NRCS and ran from 2020-2023.

Solid Manure Storage Evaluation

Whatcom CD partnered with American Farmland Trust, King Conservation District, and two farm sites in King County, Washington to evaluate water quality impacts from different types of solid manure storage. Four types of manure storage were tested: a pile on compacted dirt pad, uncovered; a pile on dirt, covered with a tarp; a pile in on a concrete slab, uncovered; and a pile on a concrete slab; covered with a roof. Findings showed that covered manure has less stormwater runoff and leaching of manure nutrients. Manure composition is reflected in the analyte profile seen in stormwater runoff and is variable between sites with different livestock. Finally, covered manure achieves a greater temperature to enhance the composting process and create a better end-product. The project duration was from 2019-2021.

Watershed Assessment Projects

Watershed Assessment Projects were part of the NRCS National Water Quality Initiative (NWQI). The NWQI program aims to implement voluntary conservation practices to improve water quality in high-priority watersheds while maintaining agricultural productivity. The watershed assessments were an exercise in characterizing and identifying the land uses, or “critical source areas”, that have the greatest potential for nutrient (nitrogen and phosphorous), sediment, and/or pathogen impacts to water quality, while also identifying the outreach strategy and conservation management practices that can be implemented to reduce those impacts. The projects conducted thorough land use surveys and modeling efforts to evaluate the highest priority areas for water quality impairment and conservation practice effectiveness. Additional landowner social survey and outreach work was conducted to evaluate water quality perceptions, practice implementation and barriers, and successful information sources to create a comprehensive outreach plan for the watershed. Whatcom CD conducted assessments on the Tenmile (2017), Fishtrap (2020), and Wiser Lake Creek (2020) Watersheds.

DNA Molecular Source Tracking

Whatcom CD and project partners Exact Scientific and Practical Informatics embarked on a year-long (2018-2019) project to test whether the DNA of bacteria in our waterways can be used to accurately identify sources of fecal pollution. Project partners built a catalog of 21 different fecal bacterial DNA “fingerprints” representing potential fecal sources (i.e., humans, deer, dogs, geese, horses, etc.) in Whatcom County.  The catalog was tested against water samples from areas with historically elevated bacteria levels with the intention of identifying which fecal sources were contributing bacteria to water. The goal was to improve the future of water quality sampling and characterization in order to better identify and provide technical assistance to fix sources of fecal pollution in Whatcom County.

Real-Time E-coli Monitoring

Local water quality partners worked with EPA Region 10 and the Office of Research and Development to test five water quality monitoring instruments in the Nooksack River Basin. The goal of the project was to set up a network of monitors on the mainstem Nooksack River and major tributaries for real-time detection of water quality issues. The sensors had previously been used in water treatment plants and were of interest to use in ambient water quality monitoring. The sensors were designed by ZAPS technologies LLC and used optical measurements to detect E. coli, TSS, nitrate+nitrite, and BOD concentrations. Sensor measurements were compared to standard laboratory methodology. Results of the study shows that while a network of real-time sensors held much promise, the water quality measurements of the sensors was not within the accuracy requirements of standard laboratory methodology. 

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