A microscopic image of the plant-parasitic nematode which can cause replant disease in cherry trees. (photo courtesy of Tristan Watson)

UBC researchers say root disease may be prevented by using compost with young cherry trees

Material currently thought of as garbage may be the answer to preventing root disease in cherry orchards without the use of fumigation, according to new research from UBC Okanagan.

PhD student Tristan Watson, co-supervisors adjunct professor Tom Forge and Biology Professor Louise Nelson, and colleagues at Agriculture and Agri-Food Canada’s Summerland Research and Development Centre (AAFC-SuRDC) recently published research examining how agricultural waste compost and chipped bark mulch can help improve growth of newly-planted sweet cherry trees and protect them from replant disease.

UBC student Tristan Watson conducts research on root disease in cherry orchards.

“Replant disease—the poor growth of fruit trees planted into soil previously used for tree-fruit production—presents a significant barrier to establishing productive orchards on old orchard soil,” explains Forge, who conducts research at AAFC-SuRDC. “Newly planted trees impacted by this disease often show reduced shoot growth, root necrosis, and a reduction in root biomass.”

Over time, populations of several types of soil-borne pests including plant-parasitic nematodes—microscopic roundworms—build up under established orchard trees, explains Watson. Then, when an old orchard is pulled out to replant a newer variety or different type of fruit crop, those soil pests can severely affect the young trees. Left untreated, the disease can delay fruit production, decrease quality, and reduce yield, thus preventing an orchard from reaching an acceptable level of productivity.

“In the past, chemical fumigants were often used to kill the pathogenic organisms in the soil before new trees are planted,” he says. “These fumigants are meant to kill everything in the soil, and unfortunately this includes beneficial micro-organisms.”

During his research in a former apple orchard, Watson used agricultural waste compost, and chipped bark mulch, on newly-planted cherry trees. The compost was applied to the planting row of some cherry trees as they were planted, and for other plots of trees in the study high carbon organic mulch was applied to the surface after the trees were planted.

Watson says the organic applications—both the compost and the bark mulch, but especially the combined treatment—significantly reduced infestation of the cherry roots by root lesion nematodes.

Most importantly, there were corresponding increases in early tree growth that have continued three years into the research.

“The recycling of waste is key to this research,” says Watson. “There is a definite reduction in the pest population that continued into three growing seasons. Replant disease is an issue around the world for all tree fruits and this is a great option for conventional and organic farmers.”

“Overall, using compost and bark mulch show potential as alternatives to fumigation for improving early growth of sweet cherry trees in pathogen-infested soil,” he says. “I’m hoping the research can be expanded to wine grapes and other tree fruits including peaches, pears and plums.  ”

Watson’s research was recently published in Applied Soil Ecology and was supported with funding from Agriculture and Agri-Food Canada Agricultural Innovations Program, the BC Fruit Growers’ Association, and the BC Cherry Association.

About UBC’s Okanagan campus

UBC’s Okanagan campus is an innovative hub for research and learning in the heart of British Columbia’s stunning Okanagan Valley. Ranked among the top 20 public universities in the world, UBC is home to bold thinking and discoveries that make a difference. Established in 2005, the Okanagan campus combines a globally recognized UBC education with a tight-knit and entrepreneurial community that welcomes students and faculty from around the world. For more visit ok.ubc.ca

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UBC research provides new clues to how trees adapt to a changing climate

Jason Pither is an associate professor of biology at UBC’s Okanagan campus.

As Canada’s vast boreal and tundra ecosystems experience dramatic warming due to climate change, trees are rapidly spreading north. New research from UBC’s Okanagan Campus suggests some of these trees could be getting help from a surprising source: fungi that have lain dormant underground for thousands of years.

“The idea that long-dormant, symbiotic fungi could help trees migrate during periods of rapid climate change has been around for decades, but no one had taken it seriously enough to investigate,” says the study’s co-author Jason Pither, associate professor of biology at UBC Okanagan. “Could fungi actually remain dormant and viable for thousands of years and be resurrected by plants growing today? Our research suggests it’s possible.”

In collaboration with Brian Pickles, a former UBC postdoctoral researcher now lecturer at the University of Reading in the UK, Pither sifted through research from around the world and across many different disciplines. They found that all the key ingredients to allow this to happen were there.

For example, some common types of fungi produce spores with characteristics that should allow them to survive over extremely long periods of time, especially in cold environments like those found in Canada’s vast permafrost regions.

While it may seem farfetched to some, Pither says this “paleosymbiosis hypothesis” deserves serious consideration. If upheld, the implications could be significant.

“Fungi that were active and successful during past climate conditions could help Canada’s forests withstand the stresses of modern climate change.”

The study appears in the June 2017 issue of FEMS Microbiology Ecology and was conducted with financial support from the Natural Sciences and Engineering Research Council of Canada (Discovery Grants program).

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Mary Stockdale is an adjunct professor of geography at UBC’s Okanagan campus.

Fascinated by food, professor looks at the system as a circle, not a chain

Mary Stockdale represents one of the original cornerstones of the global food system: farmers.

With a family history in sheep farming, Stockdale has long been closely tied to organic agriculture. And, as a self-proclaimed food activist, Stockdale promotes everything from eating locally-produced food and supporting farmers, to community gardens to healthy food access for all.

Now, as an adjunct professor at UBC’s Okanagan campus, Stockdale has found another way to promote sustainable food systems. She has created a new course, Food Systems I: System Thinking, which looks at the food system as a circle, rather than a chain.

“We’re going to work our way through the food system, learning about each component,” says Stockdale. “The course will cover food production, processing, distribution, consumption, and finally, waste—which in an ideal sustainable system is turned into compost for more food production.”

The new course, which starts in September,  is also the first campus course of its type open to students across the university, regardless of their program of study.

Stockdale says while students will come into the course with their own professional development in mind, it designed to complement their studies through its overview of the food system.

“There are a lot of niches in the food system where jobs can be found, especially here in the Okanagan,” says Stockdale. “There is potential for innovative work in agriculture, food processing, local food restaurants and retail outlets, agri-tourism, food education, local economic development and planning, and so much more.”

While theory will be a key component, the course will also include opportunities to see theory put into practice. Field trips to local farms and large institutions where food is served will allow students to analyze components of the food system in real life.

“Food affects all of us,” Stockdale adds. “Food is culture, food is politics, food is nutrition and health, food is the environment, food is economics, food is a basic human right, and food is a pleasure. Food is fascinating.”

“Through this course, students will start to understand how important it is for all the components of the food system to work together. It’s about our impact on the world through the foods we choose to eat.”

Open to all UBC students and starting this September, the new Food Systems I: System Thinking (GEOG 221) requires no prerequisites. Registration opens in June.

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Strategies to protect critical habitat not always followed

A new study from UBC’s Okanagan campus has found that in many cases, Canada isn’t following federal legislation requiring the protection of threatened or endangered species and could be placing them further at risk of extinction.

Canadian endangered species legislation requires developing a Recovery Strategy for every species listed as threatened or endangered to help their recovery and protect them from harmful human activities. These strategies are supposed to identify habitats critical to the species’ survival.

“The legislation is crystal clear,” says the study’s co-author Karen Hodges, associate professor of biology at UBC Okanagan. “Once a species is listed as endangered or threatened, we have specific timelines to develop a Recovery Strategy that identifies the critical habitat for that species.”

But Hodges says that habitat protection work just isn’t happening, or it happens years later than the required timelines. Hodges and her co-author Sarah Bird, who undertook this research while an undergraduate student in the UBC Okanagan biology program, found that of the 391 species under the protection of the Canadian Species at Risk Act (SARA), only 11.8 per cent had critical habitats fully identified, while more than 60 per cent had no critical habitat designation at all.

Hodges and Bird arrived at their conclusion after analyzing all SARA-listed species and their recovery strategies dating up to August 2015. They also studied lawsuits involving the Species at Risk Act since its adoption in 2002, several of which challenge these failures to designate critical habitat.

“Habitat loss is a primary cause of species loss,” adds Hodges. “Current implementation of SARA is sorely lagging and simply isn’t providing the majority of species the protection the law requires. Without using these legal tools to the fullest extent possible, we run the very real risk of losing some of these species forever.”

The study was published in Environmental Science & Policy with funding support from the Natural Sciences and Engineering Research Council.

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Louise Sidley, left, and David Sidley speak to family and friends gathered after the sculpture “Pair of Deer” was officially unveiled at UBC’s Okanagan campus.

Student’s father creates bronze deer in memory of his son

Two bronze deer now grace the grounds of UBC’s Okanagan campus, a gift that will forever stand as a legacy to former undergraduate student River Sidley.

River died suddenly in 2014 and received a posthumous Bachelor of Science degree in June 2015.

The artwork, “Pair of Deer” was created by River’s father David, a sculptor from Rossland, BC. The family, grateful for the experience their son had at the university, donated the bronze sculptures as a way of commemorating River’s memory.

“In appreciation of UBC Okanagan, and in honour of River, I decided to install these sculptures on the campus,” says David Sidley. “Hopefully, they will be enjoyed for years to come and remind people of my son who probably would have made a name for himself here as well.”

The bronzes, which were conceived in Rossland at the artist’s studio and then cast in Kelowna, were installed in the campus courtyard in time for June’s convocation celebrations.

“UBC Okanagan gratefully welcomes David Sidley’s beautiful artwork to the campus,” says UBC Deputy Vice-Chancellor and Principal Deborah Buszard. “The sculpture is a moving tribute from a parent to his departed son. River felt at home on this campus and we were honoured to choose a prominent location for the work as a reflection of the Sidley family’s embrace of our learning community.”

“His important work adds breadth to our collection and resonates well with existing outdoor artworks on campus,” says Susan Belton, curator of UBC Okanagan’s Public Art Collection.

River was studying at the Bamfield Marine Science Centre at the time of his passing, leading the Sidley family to endow the River Timothy Sidley Memorial Award in 2015. The award supports a UBC Okanagan student who shares River’s love for marine biology and who is pursuing additional studies at the Bamfield Marine Science Centre.

River’s mother Louise, who received her Masters of Fine Arts from UBC in 2010, says her son had found his life passion at Bamfield and through the award in River’s name the family wishes to honour his life.

“We wanted to carry on River’s potential, and it’s been really meaningful for us because we’ve been able to see the recipients, and we have formed relationships with new students. That’s been very energizing for us,” says Louise. “UBC has been incredibly supportive of us as a family trying to grow and to learn, and it’s nice to keep our connection to the campus with this scholarship and the deer.”

The family ties with UBC are deep and the Sidleys were filled with pride when River’s sister Sage graduated from UBC Okanagan campus in 2016 with a Bachelor of Fine Arts. The family is now in the process of establishing a second award at UBC Vancouver to further honour their son’s memory and support even more UBC students.

“I think our relationship with UBC has helped our whole family deal with our loss because of the legacy we’re able to leave behind,” Louise adds.

The deer were installed into the university’s courtyard, a spot where students and faculty gather for occasions throughout the year. The artwork was officially unveiled on June 16.

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More than 1,650 students will receive their degrees at UBC’s Okanagan campus this week.

For many, it’s one of the biggest milestones of their lives—graduating from university. At UBC’s Okanagan campus, nearly 1,650 students will reach that milestone this week as the university gears up for six convocation ceremonies.

Convocation starts Thursday, with four ceremonies, and wraps up Friday with two additional ceremonies. During these two days, UBC will confer 33 doctoral degrees, 148 master degrees, 1,465 undergraduate degrees and an honorary degree to Canadian artist Alex Janvier.

This is the twelfth graduating class at UBC’s Okanagan campus and the number of graduates has more than tripled since 2006, when UBC Okanagan’s very first graduating class of 468 crossed the stage.

Deputy Vice-Chancellor and Principal of the Okanagan campus Deborah Buszard says this year’s graduates join the more than 325,000 alumni who have successfully graduated from UBC and continue to be members of the UBC community.

“Members of this, our twelfth, graduating class have already shown themselves to be accomplished change-makers and innovators on campus and in the community,” says Buszard. “They are extraordinarily talented and I have no doubt they will be a force for positive change wherever they go.”

While Convocation is a time to celebrate students, UBC also recognizes outstanding faculty at the event. Ramon Lawrence, an associate professor in Computer Science and Christine Schreyer, an associate professor of anthropology, will be presented with the Award for Teaching Excellence and Innovation. And Security Manager Michael Gesi will be presented with the President’s Service Award for Excellence.

Convocation ceremonies will be webcast live at: graduation.ok.ubc.ca/event/live-webcast

Thursday, June 8

8:30 a.m.—Irving K. Barber School of Arts and Sciences
All Ph.D., master, or undergrad degrees for students in: Biochemistry and Molecular Biology, Biology, Chemistry, Earth and Environmental Sciences, Ecology and Evolutionary Biology, Environmental Chemistry, Environmental Sciences, Freshwater Sciences, General Studies (Science), Interdisciplinary Studies (Sciences), Microbiology, Zoology

11 a.m.—Irving K. Barber School of Arts and Sciences 
All Ph.D., master, or undergrad degrees for students in: Anthropology, Computer Science, Economics, Gender and Women’s Studies, General Studies (Arts), Geography, History, Indigenous Studies, Interdisciplinary Studies (BSAS – Arts), International Relations, Mathematics, Physics, Statistics

1:30 p.m.—Irving K. Barber School of Arts and Sciences & Faculty of Creative and Critical Studies
All Ph.D., master, or undergrad degrees for students in: Art History, Creative Writing, Cultural Studies, English, French, Interdisciplinary Performance, Interdisciplinary Studies (FCCS), Philosophy, PPE, Political Science, Psychology, Sociology, Spanish, Visual Arts

4 p.m.—Faculty of Applied Science: School Of Engineering
All Ph.D., master, or undergrad degrees for students in Civil Engineering, Electrical Engineering, Mechanical Engineering

Friday, June 9

8:30 a.m.—Faculty of Education; Faculty of Management
All Ph.D., master, or undergrad degrees for Education, Interdisciplinary Studies, and Management

11 a.m.—Faculty of Health and Social Development: School of Health and Exercise Sciences; School of Nursing; School of Social Work
All Ph.D., master, or undergrad degrees for Human Kinetics, Interdisciplinary Studies, Nursing, and Social Work

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The post More than 1,650 students graduate from UBC Okanagan this week appeared first on UBC's Okanagan News.

More than 1,650 students will receive their degrees at UBC’s Okanagan campus this week.

For many, it’s one of the biggest milestones of their lives—graduating from university. At UBC’s Okanagan campus, nearly 1,650 students will reach that milestone this week as the university gears up for six convocation ceremonies.

Convocation starts Thursday, with four ceremonies, and wraps up Friday with two additional ceremonies. During these two days, UBC will confer 33 doctoral degrees, 148 master degrees, 1,465 undergraduate degrees and an honorary degree to Canadian artist Alex Janvier.

This is the twelfth graduating class at UBC’s Okanagan campus and the number of graduates has more than tripled since 2006, when UBC Okanagan’s very first graduating class of 468 crossed the stage.

Deputy Vice-Chancellor and Principal of the Okanagan campus Deborah Buszard says this year’s graduates join the more than 325,000 alumni who have successfully graduated from UBC and continue to be members of the UBC community.

“Members of this, our twelfth, graduating class have already shown themselves to be accomplished change-makers and innovators on campus and in the community,” says Buszard. “They are extraordinarily talented and I have no doubt they will be a force for positive change wherever they go.”

While Convocation is a time to celebrate students, UBC also recognizes outstanding faculty at the event. Ramon Lawrence, an associate professor in Computer Science and Christine Schreyer, an associate professor of anthropology, will be presented with the Award for Teaching Excellence and Innovation. And Security Manager Michael Gesi will be presented with the President’s Service Award for Excellence.

Convocation ceremonies will be webcast live at: graduation.ok.ubc.ca/event/live-webcast

Thursday, June 8

8:30 a.m.—Irving K. Barber School of Arts and Sciences
All Ph.D., master, or undergrad degrees for students in: Biochemistry and Molecular Biology, Biology, Chemistry, Earth and Environmental Sciences, Ecology and Evolutionary Biology, Environmental Chemistry, Environmental Sciences, Freshwater Sciences, General Studies (Science), Interdisciplinary Studies (Sciences), Microbiology, Zoology

11 a.m.—Irving K. Barber School of Arts and Sciences 
All Ph.D., master, or undergrad degrees for students in: Anthropology, Computer Science, Economics, Gender and Women’s Studies, General Studies (Arts), Geography, History, Indigenous Studies, Interdisciplinary Studies (BSAS – Arts), International Relations, Mathematics, Physics, Statistics

1:30 p.m.—Irving K. Barber School of Arts and Sciences & Faculty of Creative and Critical Studies
All Ph.D., master, or undergrad degrees for students in: Art History, Creative Writing, Cultural Studies, English, French, Interdisciplinary Performance, Interdisciplinary Studies (FCCS), Philosophy, PPE, Political Science, Psychology, Sociology, Spanish, Visual Arts

4 p.m.—Faculty of Applied Science: School Of Engineering
All Ph.D., master, or undergrad degrees for students in Civil Engineering, Electrical Engineering, Mechanical Engineering

Friday, June 9

8:30 a.m.—Faculty of Education; Faculty of Management
All Ph.D., master, or undergrad degrees for Education, Interdisciplinary Studies, and Management

11 a.m.—Faculty of Health and Social Development: School of Health and Exercise Sciences; School of Nursing; School of Social Work
All Ph.D., master, or undergrad degrees for Human Kinetics, Interdisciplinary Studies, Nursing, and Social Work

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New genetic markers in sockeye salmon that can help improve management of fish populations. Photo credit: Kyle Hawes

The markers, called single nucleotide polymorphisms, are individual locations in the genome that, in this case, allow researchers to distinguish between the different variants of sockeye salmon: those that spawn on lakeshore or island beaches and those that spawn in rivers and streams.

“The obvious practical application is in fisheries management,” says study senior author Michael Russello, biology professor at UBC Okanagan. “Until now, it was quite challenging and even impossible, in some cases, to identify these different variants outside the spawning season. But the new genetic markers provide a fast, inexpensive and accurate way to tell them apart.”

Michael Russello is a biology professor at UBC Okanagan.

The ability for fisheries managers to precisely identify and monitor the abundance of different sockeye salmon populations is important to helping maintain healthy fish stocks, says Russello. The Ecological and Conservation Genomics Lab is working with fisheries managers to help classify kokanee, a freshwater form of sockeye salmon, to more accurately estimate population numbers, an important key in monitoring the impacts of changes to their habitat and hopefully in preventing future declines in the salmon run.

Russello and former UBC Okanagan post-doctoral associate Andrew Veale (now at the University of Otago) studied populations across the range of sockeye salmon in the United States, Canada, Russia and Japan at these areas in the genome. What they found was remarkably consistent genetic patterns for shore- and stream-spawning sockeye, despite spawning locations spanning different continents.

“What’s really exciting are the clues this provides for better understanding the genetic basis of how new forms arise in nature,” adds Russello. “In this case, we can estimate that the different sockeye salmon types diverged some 3.8 million years ago, much earlier than we would have predicted. There is incredible potential here to better understand the complex evolutionary history of this species.”

The study was published in Scientific Reports, an online journal from the publishers of Nature, and was supported by funding from Genome British Columbia, Okanagan Aquatic Enterprises, BC Ministry of Forests, Lands and Natural Resource, and BC Hydro.

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