Part of a series of articles titled Water Resources Monitoring in the Shoshone River at Kane, Wyoming.
Article
Monitoring Methods for the Shoshone River at Kane, Wyoming
Water Chemistry
The Greater Yellowstone Inventory and Monitoring Network collects water samples quarterly generally following depth and width-integrated protocols outlined in the U.S. Geological Survey (USGS) National Field Manual for the Collection of Water-Quality Data.
In wadeable depths, we use a 1-L, hand-held DH-81 sampler affixed to a 1-m wading rod to collect depth and width-integrated water samples. During non-wadeable flows, samples are collected from a bridge using a bridge-board or crane, reel, and DH-95 suspension sampler. At multiple locations along the river's cross-section, we collect water using vertically integrated sampling techniques. Samples from the 1-L bottle are mixed into an 8-L churn splitter; we use the churn splitter to homogenize and dispense a representative subsample into laboratory provided bottles. These bottles are then shipped overnight or delivered to an EPA-certified commercial lab for processing.
Core Water Quality Parameters
In addition to water samples, water quality parameters (temperature, specific conductance, dissolved oxygen, pH, and turbidity) are collected in situ using a handheld, multi-parameter instrument (e.g., YSI EXO 1 sonde) at four representative locations on the river cross-section. Collection of water sample core parameters and rationale for testing nutrients and suspended solids is described in the approved Greater Yellowstone Network Regulatory Water Quality Monitoring Protocol (O'Ney 2006).
River Discharge
Discharge (river flow estimates) and water temperature data from the Shoshone River sampling location are available online from the U.S. Geological Survey's National Water Information System and listed under station USGS 06285100. The station is near Lovell, Wyoming.
Greater Yellowstone Network Water Resources Protocols
Read the full protocols and standard operating procedures for water quality and discharge here.Source: Data Store Collection 7853. To search for additional information, visit the Data Store.
Last updated: September 26, 2022