The BC Community Forest Association is pleased to share the report of their 3rd annual Community Forest Indicators Survey. The survey collects data on the economic, social, cultural, and environmental benefits that community forests bring to their communities and to the province.
The survey results show how important community forests are to their local communities and regions. They generated an average of $1.9 million of economic activity in the reporting year. They contributed $257,000 on average in cash and in-kind donations, a significant boost to rural communities, most with populations of 3,000 or less.
By collecting data on 18 different indicators, the BCCFA has found a way to measure the unique and varied contributions that community forests make. 93% of the operating community forests in the BCCFA participated in the survey and nearly 50% are held by First Nations or a partnership between an Indigenous and non-Indigenous community.
Erik Leslie, President, BCCFA Community Forest Association describes how “The BCCFA Indicators report includes not just statistics and quantitative measures. The report is also filled with dozens of stories that demonstrate the creative energy and innovation that we see in community forests across the province.
Jim Atkinson, General Manager, McLeod Lake Mackenzie Community Forest, said “The Indicators Survey shows the spectrum of what community forests can accomplish. Profitability for a community forest is measured by different metrics than used by industry. While profitability for a community forest can be measured in cash, no less important are more intangible benefits such as the long-term health and sustainability of our forest; recreation, employment and development opportunities for community members and harmony with all the other users of the forest.”
For more information contact:
Jennifer Gunter, Executive Director
jgunter@bccfa.ca
250 384 4110
Coarse Woody Debris and Furbearer Applied Research Project in the McLeod Lake Mackenzie Community Forest
What is CWD and why is it important?
Coarse Woody Debris (CWD) can be defined as “sound and rotting logs and stumps, and coarse roots in all stages of decay, that provide habitat…and a source of nutrients. Material generally greater than 7.5 cm in diameter” (Stevens, 1997). For this study, the majority of the CWD consisted of various sized unmerchantable logging debris piled in large, continuous windrows.
CWD plays an important role in forest ecosystems, serving in three key areas: long term enhancement/ maintenance of forest productivity; provision of habitat for a variety of flora and fauna and; provision of structure for streams and soil. Functions of CWD include
Nutrient cycling and storage
Moisture retention
Regeneration sites for trees
Moist microsites for invertebrates
Hiding and protective cover
Facilitates travel of organisms
Sites for nests, dens and burrows
Erosion prevention
Flow control in streams
Project Background
In March, 2016 the MLMCF developed a Coarse Woody Debris (CWD) Strategy in order to guide management decisions around CWD and to serve as a reference for forest practitioners working within the Community Forest. In the Ministry of Forests, Lands and Natural Resource Operations’ (FLNRO) Management Guidelines for Fur Bearers in British Columbia (2003), a frequent recommendation is to create a complex cover of CWD in the post-harvest stand. The MLMCF has adopted this recommendation and is implementing a post-harvest CWD management goal to improve fur bearer habitat through management techniques incorporating CWD and habitat connectivity.
The most recent work towards this goal has been in cooperation with the John Prince Research Forest; developing in September 2016, 19 windrows which varied in length from 100 to 400 m. The windrows were constructed of stacked coarse woody debris to create terrestrial structure; enhancing habitat for invertebrates, fur bearers, birds and amphibians. Generally extending from one standing timber edge to another, the windrows also acted as CWD travel “corridors”, providing connectivity. In total, approximately 3,000 m of windrows were constructed on 6 cutblocks that were created by salvaging Mountain Pine Beetle (MPB) damaged stands within the Community Forest. With practice, the operator became quite skilled at constructing windrows with abundant cavities and entrance points.
The objective of this project is to confirm that CWD wildlife habitat windrows do indeed create fur bearer habitat on recent cut blocks as demonstrated through quantified wildlife use of the windrows. If the outcome is successful, the MLMCF will implement this technique on appropriate future blocks; thereby contributing to biodiversity and creating opportunities for wildlife viewing and trapping.
The Study
To determine whether or not the establishment of the coarse woody debris corridors made a positive difference in the habitat suitability of cut blocks to fur-bearers, corridor and non-corridor locations were monitored with trail camera stations over a 10-week period (January to March of 2017). Twenty sites in total were selected within the recent MPB salvage cut blocks; each was set up with both a trail camera and a small piece of meat, just large enough so that if an animal was in the immediate vicinity, it would position itself in front of the camera. The installations were designed by staff from the John Prince Research Forest (JPRF), who then worked with Kim Forest Management Staff to complete the installations.
Ten of the sites were located on the CWD windrows while the remaining ten sites were “control” sites. The control sites were located sufficiently away from mature timber and the corridors so as to be removed from their influence. The trail cameras recorded animals as they came to investigate the bait, or as they passed in the back ground. After receiving training from JPRF staff, field data collection and initial processing was then done by KFM before being shared with the John Prince Research Forest.
Outcome and Application
The American Marten (Martes americana) was by far the most commonly detected animal on the cameras. Other species included squirrels (Tamiasciurus hudsonicus), fox (Vulpes vulpes), moose (Alces alces), Lynx (Lynx canadensis) and wolf (Canis lupus).
Based on camera detection comparisons, preliminary results of this study show a distinct trend of higher wildlife use associated with the coarse woody debris corridors than without.
This pattern was consistent among nearly all species.
These findings, however, represent only a very small sample size over a small window of time. Prior to this strategy being wholly adopted by the MLMCF, further research will be needed to better understand the relationships between the coarse woody debris windrows and other organisms over time. Encouraged by these promising early results, it is the intent of the MLMCF to pursue funding opportunities to continue this research on this and other sites where CWD corridors have subsequently been established.