Publications Home || Browse by topic || Browse by program || Ecology website

Publication Summary

Our Ecology website has changed, which can cause broken links.
To report these, please contact us with the publication and broken link.

Title

PBT Trends in Lake Sediment Cores: 2016 Results

 
Publication number Date Published
18-03-029September 2018
VIEW NOW PBT Trends in Lake Sediment Cores: 2016 Results (Number of pages: 13) (Publication Size: 1404KB)




Trouble viewing? Try these free options.
Author(s) Mathieu, Callie
Description This report summarizes results from the eleventh year of a long-term study to evaluate contaminant trends in age-dated lake sediment cores across the state. In 2016, Ecology collected sediment cores from Deep Lake, Spanaway Lake, and Lake Spokane. Core samples were analyzed for up to 209 polychlorinated biphenyl (PCB) congeners.
REQUEST A COPY
The mission of the Department of Ecology is to protect, preserve, and enhance Washington’s environment. To help us meet that goal, please consider the environment before you print or request a copy.

ADA Accessibility
The Department of Ecology is committed to providing people with disabilities access to information and services by meeting or exceeding the requirements of the Americans with Disabilities Act (ADA), Section 504 and 508 of the Rehabilitation Act, and Washington State Policy #188.
Visit Ecology’s website for more information.
Contact Callie Mathieu at 360-407-6965 or callie.mathieu@ecy.wa.gov
Keywords Spanaway Lake, Deep Lake, PBT, sediment core, Lake Spokane, PCB, toxics, toxic chemicals, sediment, PBTs, PCBs, lake, long-term monitoring
WEB PAGE Contaminants in lake sediment cores
DATA Environmental Information Management (EIM) #SEDCORE16

RELATED PUBLICATIONS Title:

PBT Chemical Trends Determined from Age-Dated Lake Sediment Cores, 2017 Results

Addendum 2 to Quality Assurance Project Plan: Long-term Monitoring of Persistent, Bioaccumulative, and Toxic Chemicals Using Age-dated Lake Sediment Cores

Quality Assurance Project Plan: Long-Term Monitoring of Persistent, Bioaccumulative, and Toxic Chemicals using Age-Dated Lake Sediment Cores