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Protecting Water Quality- Mica Creek

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PotlatchDeltic highlights its commitment to protecting water quality through its Mica Creek Experimental Watershed study, initiated in 1990. Collaborating with the U.S. Forest Service and the Idaho Department of Lands, the study spans 6,672 acres southeast of Coeur d'Alene, Idaho. The research focuses on the impact of modern forestry best management practices on stream water quality and aquatic ecosystems. Findings indicate slight increases in stream flows and temperatures post-harvest, with no lasting adverse effects on fish, amphibians, or aquatic insects. The company incorporates these results into effective forestry practices, ensuring sustainable forest management.

Positive
  • PotlatchDeltic's Mica Creek study demonstrates no long-term negative impact on aquatic life, supporting sustainable forestry practices.
  • Collaboration with reputable institutions like the U.S. Forest Service and the University of Idaho enhances the credibility of the research findings.
Negative
  • Initial measurable increases in suspended sediment post-harvest may raise concerns about short-term water quality impacts.

NORTHAMPTON, MA / ACCESSWIRE / July 3, 2024 / PotlatchDeltic

Forests play a crucial role in collecting and filtering the water that countless organisms depend on - including humans. In our planting, harvesting, and road building, we take comprehensive measures to minimize sedimentation and runoff, with the goal of protecting the water quality and aquatic ecosystems. We follow each state's prescribed "best management practices" as well as our own procedures that have been refined and improved over decades of research and science-based forestry. Following passage of the Clean Water Act in 1972, many states adopted forest management guidelines intended to reduce forestry's negative effects on waters. At the time, there was little research showing whether these new guidelines worked.

That's why PotlatchDeltic undertook a landmark study that was the first of its kind among U.S. forest products companies and remains one of the most comprehensive in length, scope and findings.

In 1990, with help from the U.S. Forest Service and the Idaho Department of Lands, we established the Mica Creek Experimental Watershed - an area southeast of Coeur d'Alene, Idaho, comprising the 6,672-acre catchments of Mica Creek, a tributary of the St. Joe River. While the watershed has been the site of numerous research projects over the years, we created this "living laboratory" for one main reason: to conduct a multi-decade study of the effects of modern forest best management practices on stream water quality and aquatic life.

Over the course of the study, we have worked with scientists from the University of Idaho and other academic institutions to collect data on the effects of tree harvesting, road building, and other practices. The results of that research are published in independent, peer-reviewed academic journals such as Forest Science and presented at scientific conferences. In our leadership roles serving on the Idaho Forest Practices Act Committee, we work to incorporate the results of the Mica Creek research into effective and efficient Forest Practices Act rules. The conclusions to date are encouraging. They show that forest management that adheres to contemporary best management practices has little to no adverse effect on streams' aquatic life.

Key Findings of Mica Creek Research

  • Stream flows generally increase modestly following tree harvests.

  • Stream temperature in fish-bearing streams within harvest sites increases slightly in the spring and decreases slightly in the summer.

  • Measurable suspended sediment increases in the first spring following thinning or harvesting, and quickly returns to pre-harvest levels.

  • Forest management that adheres to contemporary best practices has no detrimental effect on fish, amphibians, or aquatic insect communities.

The findings from the first 25 years of research comparing treated versus control stands have been summarized and published in numerous scientific journals. In collaboration with the University of Idaho, we continue to collect data on water flow, sedimentation, fish, and other key environmental conditions in the Mica Creek watershed. The watershed is now being managed as a working forest - the forestlands that we harvest, replant, and manage for sustainable production of timber. The research and monitoring that are being conducted now provide an ongoing evaluation of the effectiveness of contemporary best management practices.

View additional multimedia and more ESG storytelling from PotlatchDeltic on 3blmedia.com.

Contact Info:
Spokesperson: PotlatchDeltic
Website: https://www.3blmedia.com/profiles/potlatchdeltic
Email: info@3blmedia.com

SOURCE: PotlatchDeltic



View the original press release on accesswire.com

FAQ

What is the Mica Creek Experimental Watershed study by PotlatchDeltic?

The Mica Creek Experimental Watershed study by PotlatchDeltic investigates the effects of modern forestry practices on stream water quality and aquatic life within a 6,672-acre area in Idaho.

What did the Mica Creek study find about stream flows after tree harvests?

The Mica Creek study found that stream flows generally increase modestly following tree harvests.

How does PotlatchDeltic ensure sustainable forest management?

PotlatchDeltic ensures sustainable forest management by adhering to best management practices, conducting long-term studies like the Mica Creek project, and incorporating research findings into forestry practices.

What impact does tree harvesting have on stream temperatures according to the Mica Creek study?

According to the Mica Creek study, stream temperatures in fish-bearing streams within harvest sites increase slightly in the spring and decrease slightly in the summer.

What are the key findings regarding sediment levels from PotlatchDeltic's Mica Creek study?

The key findings from the Mica Creek study indicate that measurable suspended sediment increases in the first spring following thinning or harvesting but quickly returns to pre-harvest levels.

PotlatchDeltic Corporation

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