Meet the Berenstain Bears of central BC

It’s soon time for bears to be coming out of their dens after a long winter’s rest. Bear dens, in fact, can be more than just a hole in the ground. The Berenstain Bear’s tree house paints a humanized picture of bear habitat, but it’s closer to reality than you might think. Bears have developed extremely resourceful and diverse strategies for staying safe during their winter sleep.

Recent research at the Aleza Lake, John Prince and Alex Fraser Research Forests looked at the range of den types found in each of these areas. Researchers Dexter Hodder (John Prince Research Forest) and Roy Rea (University of Northern BC) surveyed three types of dens in BC’ s central interior: rock dens, excavated dens, and, yes, tree dens. The purpose of the study was to relate den type with likely forest management activities, and to develop recommendations to promote den protection.

Bears are not true hibernators, but rather, enter a period of dormancy where they do not eat, drink or expel waste. They do this to avoid burning energy at a time when food is not available. True hibernators reduce their body temperature to match the air temperature around them, but bears’ body temperatures remain close to normal levels.

Forest harvesting in central BC occurs in the winter, primarily, to protect soil compaction from machinery. However, harvesting at this time of year can also cause stress to bears when they are most vulnerable. In their study, Hodder and Rea sought to understand where bear dens are found in the region and how forest managers can minimize impact on these special habitat features.

The three den types are found in different parts of the landscape. Rock dens are basically caves, or cavities within rocky rubble, found at mountain tops and rocky outcrops. Excavated dens are dug into hill sides and in creek gullies. Tree dens are found in lower slopes and valley bottoms inside very large Douglas-fir trees and along river floodplains within very large cottonwood trees.

Hodder and Rea recommend placing reserves around ecological features that have a high likelihood of rock and tree dens as these are the highest quality dens for bears because they last longer than excavated dens. For excavated dens, creek gullies and areas with large concentrations of dens should be reserved from harvesting.

At Aleza Lake Research Forest, twelve large cottonwood trees were assessed along the Bowron River. Five trees had visible cavities, as much as 5m (20 ft) above the ground and many had claw marks, both indicators of den trees. Cottonwoods grow large in the Bowron floodplain, as much as a meter in diameter or more. Natural pathogens rot out the centre of the trunk without killing the tree. During wind storms, large branches can break off causing an opening into the hollow tree allowing the bear to crawl in and settle down for the winter.

Because of these habitat features, the Aleza Lake Research Forest tree dens and the surrounding area are reserved from timber harvesting. This way, the dens can be used year after year by bears and other animals.

Sources: Hodder, D. and Rea, R. 2005. Bear dean site selection and considerations for forest management in the interior of British Columbia. Unpublished report.

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If you leave a tree standing, will it survive?

This project team is looking for university faculty and student participation. If you are interested, contact jullm@unbc.ca.
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When it comes to resource extraction leaving something behind for wildlife is usually considered to be a good, sustainable practice. For example, “leave-trees” are left standing to enhance the biodiversity of a forest after it has been harvested; but what happens to these trees once the harvesting is done and the stand is planted?

Interior Douglas-fir plays a unique ecological role in the sub-boreal forests of Central BC. Relatively rare in these ecosystems, recent government policy requires forest practices that retain individual Douglas fir trees in harvested stands. This has started some debate among forestry professionals. Anecdotal evidence report high mortality and wind damage to the leave-trees spurring questions about the effectiveness of this practice. Will it really accomplish what was intended?

Douglas-fir typically represents a smaller component of pine, spruce and hardwood leading stands in Central Interior ecosystems. More fire-resistant than other species, it can grow to large sizes (as much as 3 metres in diameter) and can get very old (as much as 500+ years) relative to the surrounding tree species. These characteristics make Douglas-fir an important tree for future wildlife habitat: a perching spot for raptors, a home for cavity nesting birds, and a source of food for squirrels.

Mike Jull, manager of the Aleza Lake Research Forest, wants to get to the bottom of the debate. Funded by the BC Forest Science Program, Jull is examining the long-term fate of Douglas-fir left behind in harvested areas and plantations. The project is a partnership of the Aleza Lake Research Forest, the John Prince Research Forest, and the BC Ministry of Forests (Northern Interior Region).

The research sites include areas that were harvested between 1995 and 2007, representing a range of sub-boreal ecosystems. Ultimately, the intent of the project team is to carry out long-term monitoring and build important baseline information for assessing the survival of Douglas-fir leave trees and the habitat values they provide throughout their lifespan.

Will Douglas-fir leave trees provide the long-term biodiversity services that foresters hope to maintain? Only time will tell. But rest assured, some one is keeping an eye on them…

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The Ultimate Gardener: Do beavers plant willows in the wild?

Cecilia Alstrom-Rapport, assistant professor in the Ecosystem Science and Management Program at the University of Northern BC, accompanied me to the Aleza Lake Research Forest for a day last May to tour some of our finest beaver dams...and we have plenty. She was looking for an additional study site to expand her field project on the interaction between willows and beavers. On our third dam we hit the mark; the beavers had used an old road in the southwest corner of the forest to dam a seepage area along the ditch line. There were signs of recent beaver activity and plenty of willows around. Perfect.

Cecilia, along with her student assistants, started the project in 2005 as a genetics study on willow reproductive ecology in British Columbia lowlands, collecting data on pollination (insect and/or wind pollination), suckering, and male/female ratios. Willows are an important component of many plant communities in the northern hemisphere providing food and shelter to wildlife such as moose and beavers. Many are pioneering species, establishing early after disturbances like forest fires and on river floodplains. This study, funded by Aleza Lake Research Forest Society and Natural Science and Engineering Research Council of Canada grants, aims to use genetics to understand the life-history, reproductive characteristics and distribution of willows.

A problem emerged in these creekside study sites. The beavers kept cutting down Cecilia's sample bushes and dragging them away. Beavers rely on willows for food and for building dams and lodges. Thirty-eight of the sample willows were so heavily browsed by beavers at one of her study sites at Aleza that either their tags could not be found or no remaining branches could be used for species identification. Our staff at the Research Forest got into the habit of finding and sending these tags back to Cecilia after cleaning out a road culvert that a resident beaver persistently tried to dam using her research samples.

But give Cecilia lemons, and she makes lemonade. Now, she is launching a related study on the role of beavers in the reproduction and distribution of willows.

Hence, the dam tour.

The beaver-willow interactions are proving to be an important factor in reproduction. Cecilia and her field crew have found that in several of the study locations a portion of the branches cut by beavers were dragged along the shore but then abandoned. Many of these branches established as new plants. Consequently, beavers appear to have an influence on the genetic distribution by spreading willows around. Along larger rivers, branches cut by beavers could travel tens to hundreds of kilometers establishing new individuals that are genetically related to those upstream. Therefore, beaver browse may not only influence the local genetic structure but may also be important for downstream willow migration.

This summer, Cecilia and her research group will be tagging sample willows at the new beaver dam site. When I told her we may need to replace a culvert at one of her sites which could disrupt her current study, she didn’t blink an eye…”Hmmm, maybe we can do a ‘before’ and ‘after’ study when you do that”…keep making that lemonade Cecilia!

Sources:
Cecilia Alstrom-Rapaport. 2006. Reproductive Willow Ecology along the Bowron River. Unpublished ALRF Research Report.

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Percy Barr’s Research Forest Legacy

I wrote this article for the UBC Branchlines Alumni Newsletter, December 2006 issue, and it is published here with permission. It tells the story of one of the individuals who played a pivotal role in establishing the former Aleza Lake Experiment Station and is a great example of how this research facility was a launching point for many distinguished careers in the "early days" of BC forestry.

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In 1924, Percy Barr had a mission. That mission was to establish the first experimental station in the province on behalf of the fledgling BC Forest Branch (now BC Forest Service) and to locate it in the spruce-balsam forest type of the Central Interior. The purpose was to demonstrate sustained yield forestry, and the task was given to this colourful and talented 27 year old WW1 veteran and recent UBC graduate, Percy Barr (UBC BASc Forest Engineering, ’24), who tackled the job with ambition. As he wrote in a 1926 report:

The object of forest research in the Northern Interior of the Province is to secure information which will enable us to manage the forest of that region so that their productivity will be maintained or increased after logging, that valuable young growth may be established and brought to maturity at the least expense, and that waste in the forest through the agencies of fire, insects, decay, and improper utilization may be reduced to a minimum.

With recommendations made by local foresters, Barr chose the site: 2,590 hectares near the community of Aleza Lake, 60 km east of Prince George and bordering the Grand Trunk railway. No time was wasted in getting things done at the Aleza Lake Experiment Station; between 1925 and 1930, he and his staff conducted a preliminary forest inventory, established an annual cut (4530 to 5890 m3), built a camp, trails and a road, and initiated or participated in six research projects. He also conducted the first partial cuts at the experiment station and established, what are recognized now as, the oldest continuously measured growth and yield plots in British Columbia. Incidentally, he also attained his Master’s and PhD degrees from Yale University during this time, using data from Aleza Lake experimental plots for his dissertation.

With the onset of the Great Depression, and consequently little funding to continue with development of the Aleza Lake Experiment Station, it is not surprising that someone as energetic as Percy Barr would seek new challenges. Starting in fall 1932, he accepted a position as faculty member at the Division of Forestry at University of California at Berkeley where he would spend the rest of his career.

Barr applied his BC experience in research land bases by founding and managing the University of California (U of C) Blodgett Forest Research Experiment Station for over 20 years. Barr was a strong advocate for forests devoted to research as he wrote in a 1946 Journal of Forestry publication on Blodgett Forest:

The investigator who knows his forest well has a distinct advantage over even the experienced forester who undertakes research in a woodland to which he is a stranger.

At Blodgett, Barr immediately got to work building the forest inventory, surveying to produce topographic maps, and by 1940, had established 60 permanent sample plots to monitor second growth restocking, and vegetation and overstory competition and treatments. Barr then served in WW2 from 1941 to 1944, resulting in numerous awards and honours. After his return, in 1945, UBC awarded him with a Doctor of Science (DSc) degree.

Percy Barr’s ambition was well recognized by U of C, where he was assigned Chairman to several university committees, as well as Special Assistant to the President. Despite the physical challenges of Parkinson’s Disease in the 1950’s, preventing further administrative service to the university, Barr’s tireless work ethic continued to have an impact on forestry; in 1953 he delivered the first course on industrial forestry in the US. An inspiration to all around him, Percy was still putting in full days at the office when he passed away at home in 1960.

Well over 40 years after his passing, Barr’s legacy endures today in Canada and the US through forestry alumni (graduates from Berkeley are still very familiar with Percy Barr), and through the Aleza Lake Research Forest and Blodgett Research Forest.

Sources:
Northern BC Archives, Aleza Lake Experiment Station Collection
University of California, In Memorium
Barr, Percy M. 1946 The Research Program of Blodgett Forest of the University of California,Journal of Forestry, 44(10). pp. 738-741(4).

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Welcome to the Aleza Lake Research Forest

The staff at ALRF are very excited about this new opportunity to share and connect with people out there who are interested in the same forest management and conservation topics as we are. Our industry, our research, our approach to education are evolving all the time and each day we spend at our forest presents new knowledge, new challenges and new questions. In this space we hope to share the broad range of activities that occupy our time in managing a small scale forestry operation for research and education.

Hope to see you here again soon!

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