2015 McIntire-Stennis Grant Winners

For 2015, the Institute of Forest Resources (IFR) issued four grants through the McIntire-Stennis Cooperative Forestry Research program, totaling $359,477 in funding. All projects are two years in length, and below are more details about the principal investigators and summaries for each proposal.

(The RFP for McIntire-Stennis funding for projects beginning fall 2016 will be available later this quarter.)

1. Potential Soil Carbon Stocks and Turnover Across Privately Operated Forest Stands in the Pacific Northwest: Understanding the Radiocarbon Age, Quality and Lability of Soil Organic Carbon Within Douglas-Fir Plantations.

PI: Professor David Butman
Co-PI: Professor Rob Harrison

In this study, we will look at how altered landscapes, whether through natural disturbance or human land management, affect the storage and processing of carbon in soils. We will characterize the radiocarbon age and biolability of leachable soil organic carbon obtained across a climate and soil parent material gradient in the Pacific Northwest (PNW) as part of a research collaboration with the UW Stand Management Cooperative (SMC). We hypothesize that soil properties and changes in both annual precipitation and temperature regimes will alter the presence, lability and carbon quality of aged soil organic carbon across depths. We are defining quality by the abundance of aromatic carbon structures inferred from absorbance and fluorescence spectrophotometry in the context of carbon lability. These results will provide new information to better manage forest resources in the PNW for carbon storage over short and long periods and will provide new information on the impacts of stand management on soil organic carbon dynamics currently being researched within the SMC.

Award total:  $96,481

2. Metal Deposition Along an Urban-Wildland Gradient in the Puget Sound Region

PI: Director Tom DeLuca
Co-PI: Professor Patrick Tobin

Vehicle emissions associated with exhaust, lubricants, and tire and brake attrition represent a major form of pollution in busy urban centers in the Pacific Northwest; however, few studies have focused on characterizing the extent and impact of metal emissions from vehicle traffic on forest bryophytes and ecosystem health. We will evaluate whether metal deposition associated with the transportation sector in the Puget Sound region is altering ecosystem function by influencing forest bryophytes and their associated food webs.

Award total: $88,981

3. Market and Environmental Assessment of Cross-Laminated Timber Production in the Olympic Peninsula: Mid-Rise Non-Residential Construction Application.

PI: Professor Indroneil Ganguly
Co-PIs: Professors Ivan Eastin and Kate Simonen

Cross-laminated timber (CLT), a new generation of engineered wood product, has been gaining popularity in low to mid-rise residential and non-residential construction in several countries, including Europe and Canada. CLT is a cost-competitive and wood-based solution that is a suitable substitute for construction applications that currently use concrete, masonry and steel. We will develop a comprehensive market feasibility assessment for manufacturing CLT in the Olympic Peninsula with a focus on the mid-rise nonresidential green building industry in the Pacific Northwest. We will explore economic avenues for increasing forest resource utilization while developing a regional forest industry on the Olympic Peninsula.

Award total:  $98,846

4. Biomass Equations for Coastal Douglas-Fir by Stand Density, Age, Relative Dominance, and Location

PI: Professor Eric Turnblom
Co-PI: Professor Rob Harrison

We will develop a set of equations that describe biomass accumulation and distribution (in terms of stem wood and bark, branches, and foliage) for coastal Douglas-fir in the Pacific Northwest. We have planned for destructive sampling of replicated trees at each level of all factors—density, age, relative dominance, and location—which will yield an orthogonal experimental design with 24 trees sampled in total. We expect the project to yield a set of equations describing above‐ground biomass (by listed components), while the database produced will subsequently be used to develop equations for stem taper, crown morphology, specific gravity along the stem, and other measures of wood quality. The models produced by this study will assist managers in determining how silviculture/ management alternatives affect biomass distribution and related economic and ecologic objectives. The study complements concurrent research by the principal investigator set to yield an analogous set of equations for western hemlock.

Award total:  $75,169

IFR Announces Funding for Six Research Projects

This spring, the Institute of Forest Resources (IFR) awarded funding to six new research projects in Washington, ranging from the feasibility of a wolf economy, to restoring fire-prone forest ecosystems.

During a two-year period, total funding for the six projects is roughly $1.5 million, including federal funds provided by the McIntire-Stennis cooperative research program and the matching funds provided by project collaborators. Funding has been finalized for four of the six proposals, and is pending final approval from the National Institute of Food and Agriculture for the remaining two.

The six projects for 2013-14 include:

1. “Defining Desired Future Conditions for Restoration of Fire-Prone Forest Ecosystems: Lessons from the Collaborative Forest Landscape Restoration Program.” (Charles B. Halpern, Lauren S. Urgenson, Clare M. Ryan, Ernesto Alvarado and Jonathan D. Bakker).
Restoration of frequent- and mixed-fire regime forest ecosystems is a pressing natural resource issue in Washington State, as in much of the West. In 2009, the U.S. Forest Service established the Collaborative Forest Landscape Restoration Program (CFLRP) to facilitate forest restoration at a landscape scale. The program engages stakeholders from diverse groups—with differing goals and perspectives—in the design and implementation of large-scale forest restoration projects. This project has two overarching goals: first, to understand how CFLRP collaboratives in the inland Northwest (and beyond) achieve consensus in defining desired future conditions; and second, to distill this understanding as a set of “best practices” that can assist forest managers and collaborative-group members in this process.

Trade Policy2. “Assessing the Impact of Trade Policies on the Competitiveness of Wood Exports from Washington State.” (Ivan Eastin and Indroneil Ganguly).
Recently, a large number of new laws, regulations, policies and programs have been adopted around the Pacific Rim that could significantly affect the specification, use and trade of wood products from Washington State. This study will implement a program of research and extension activities designed to assist small and medium-sized wood products companies and Native American tribal enterprises to understand and adapt to these changing market conditions.

3. “Finding Common Ground Toward the Resolution of a Forest Management Dispute.” (Stanley T. Asah and E. David Ford).
Management of the Olympic Experimental State Forest (OESF) is important to a range of interested parties. This project will implement a research program to better understand and inform the resolution of the dispute about how the OESF is currently managed, and to outline key areas of consensus and disagreement about how the forest should be managed in the future. In light of the Olympic Natural Resources Center’s role as a neutral forum for addressing management challenges, the aim of this study is to facilitate the management of the OESF in ways that are not only ecologically sound but are also culturally, politically and socio‐economically acceptable across the key stakeholder groups.

Biofuels Study4. “Climate Change and Washington State Biofuels Industry: Impacts and Critical Technical Innovations.” (Renata Bura, Richard Gustafson, Susan Bolton, Josh Lawler and Luke Rogers.)
Hardwood plantations are being established in the Pacific Northwest to provide feedstock for the production of fuels and chemicals. However, water demand and water availability for the production of biofuels may be substantial, and water issues need to be investigated further before a commercial system is built out and formalized. The study will use an interdisciplinary approach to develop new technologies, and perform impact assessments for attaining sustainable biofuel production.

5. “Feasibility of a Wolf Economy for Washington.” (John Marzluff, Stanley Asah and Aaron Wirsing).
This project will engage stakeholders in the recovery of wolf numbers in Washington State to determine the feasibility, both social and economic, of developing a market that values a sustainable wolf population. Researchers will build on existing examples and citizen input to test two major components of a viable wolf economy: protecting rancher investments, and developing new markets that reward and compensate ranchers who coexist with wolves.

6. “Assessing the Status of Washington’s Hardwood Resource.” (B. Bruce Bare, John Perez-Garcia and Luke Rogers).
This study aims to calculate how much hardwood growing stock currently exists in Washington State; the age (or size) class structure and location of the inventory; the ownerships currently managing the growing stock; and the volume under riparian management regulations.

Photos © Institute of Forest Resources.