Tag Archives: Forestry

Agroforestry: any takers?

Agroforestry, the practice of growing crops or tending livestock while purposefully managing trees on the same parcel of land, can provide security of fuel wood and food in rural areas of the developing world. Increased access to healthcare in many African countries has spurred population growth over the past couple of decades. Malnourishment remains a problem, and as the number of people per acre of farmland increases, maintaining food security may require changes in agricultural practices.

As a second-year PhD student in the Forest Ecosystems and Society department in the College of Forestry, Sonia Bruck knows this isn’t a simple task. Communities around the world who are exposed to agroforestry practices tend to adopt them at low rates, which often depend on residents’ wealth and education. Working with the World Agroforestry Centre (ICRAF), a non-governmental organization in Kenya, Sonia will travel to the town of Mbola in the Uyui district of eastern Tanzania in September. She will be living there for seven months, examining how and why these and other factors might play a role in how people decide to adopt agroforestry practices. A Tanzanian regional office of ICRAF has already promoted the intercropping of pigeon pea and cassava with Gliricidia sepium (a nitrogen fixing tree), but despite this being a biologically sound strategy, it hasn’t caught on among everyone in Mbola. So if there are cultural or socioeconomic barriers to adopting these techniques, she wants to know about them.

An agroforestry system in North Carolina – Longleaf pine alley cropping, where corn and soybeans were alternated near an open agricultural field.

Knowing that wealthier villagers are able to place more risk into implementing a new agroforestry technique might be only one facet. Health, household division of labor, number of children per household, and access to food may also factor into whether people decide to adopt this strategy. Sonia is developing a quantitative survey to gather data like these, and plans to administer it to 600 residents once she arrives in Mbola. She will then analyze the survey data and schedule focus groups to allow residents to provide more context, especially if there are relationships between variables that don’t seem to make sense. According to rational choice theory, we’re all rational actors – so Westerners like us might be missing important cultural preferences that could guide farmers’ agricultural decisions in rural Tanzania. Sonia hopes that her findings will help ICRAF target households that could benefit from implementing agroforestry.

(From left to right) Jeremais Mowo (Regional Coordinator for Eastern and Southern Africa), Sonia Bruck, and Badege Bishaw (her adviser) at ICRAF.

When Sonia departs for Tanzania, she certainly will not be a stranger to international travel. Her father, a professor of plant pathology, taught a field course in the Peruvian Amazon, and she first got to tag along as a fourteen-year-old. The heat, humidity, and occasional threat of vampire bats didn’t seem to deter her when she studied abroad for a summer in Brazil, as an undergraduate at Appalachian State University majoring in Sustainable Development and Environmental Studies. She has also traveled extensively across Central and South America, and recently to the Philippines, Thailand, and Nepal to catch up with friends stationed in the Peace Corps and learn more about local cultures.

Sonia near Silver Falls, Oregon

To hear more about Sonia’s research and experiences traveling and living abroad, be sure to tune in to KBVR Corvallis 88.7 FM this Sunday May, 27 at 7 pm, stream the live interview at kbvr.com/listen, or find it in podcast form next week on Apple Podcasts.

If you’re interested in participating in agroforestry in the Pacific Northwest please visit: http://pnwagro.forestry.oregonstate.edu/

Comunicación Científica con Franco

Kristen Finch interviewing Francisco Guerrero for this special episode. (Photo by Adrian Gallo)

This week on Inspiration Dissemination we will be featuring a previous guest: Francisco Guerrero, a PhD student in the Department of Forest Engineering, Resources, and Management. Francisco’s first interview aired on October 18, 2015, and we called him back for a follow-up because he has been selected for the American Association for the Advancement of Science (AAAS) Mass Media Science and Engineering Fellowship. As a fellow, Franco will be writing feature stories about climate change and health for CNN en Español. Part of the fellowship will involve helping with film production, as well. FUN FACT last time Franco was on the show, he told us that he always wanted to be a movie producer. Franco will take this amazing opportunity during the final push for his PhD research to enhance his science communication skills and gain experience in production and video broadcasting.

This special interview will begin at 6:30 pm on May 6, 2018. We will be asking Franco about the application process, his responsibilities as a fellow, and his goals for the fellowship. After our interview with Franco, we will rebroadcast his first interview on Inspiration Dissemination at 7 pm.

Tune in to KBVR Corvallis 88.7 FM at 6:30 pm to hear about the AAAS Fellowship and learn about Franco’s research in the College of Forestry. Not a local listener? No sweat! Stream the show live on line or hear the podcast next week.

Franco wants to hear from you! Tweet him with ideas for CNN Español, specifically stories about Climate Change and Health. 

The folks behind the episode: Francisco Guerrero, Kristen Finch, and Lillian Padgitt-Cobb. (Photo by Adrian Gallo)

Ways and Means: Attitudes Toward Methods of Restoring American Chestnut Trees

“The Christmas Song” or “Chestnuts Roasting on an Open Fire” by Bob Wells and Mel Tormé is an iconic song in American culture, but most Americans will never experience a chestnut roast (at least not with American chestnuts).

A mighty blight

The American chestnut was a widespread North American native tree that covered nearly 200,000 miles of Appalachian forest. In 1904, the American chestnut trees in the Bronx Zoo were dying from a then unknown disease, Chestnut Blight. In the next forty years, Chestnut Blight spread across the estimated 4 billion American chestnut trees. Now American Chestnut trees are seen only as giant stumps, juveniles never reaching maturity, and rarely, adult fruit-bearing trees.

Since the decline of the American chestnut, Appalachian forests have changed. Chestnuts have been replaced by oaks, and it is likely that many organisms that relied on the chestnut trees for food or shelter have had to adapt to new conditions or have been displaced. The loss of the chestnut also led to the loss of financial income for many Appalachian people. In addition to chestnuts as a food source, the American chestnut provided decay resistant timber and tannins for tanning hide. The American chestnut and its decline is remembered through oral and written history. Members of older generations from Appalachia tell stories of enormous trees and later forests of white wooden chestnut skeletons.

Restoring the chestnut

Josh skiing in the mountains of Big Sky, Montana.

The restoration of the chestnut is an active project that faces many challenges. First, few Americans have seen an American chestnut tree, and few are familiar with their decline via Chestnut Blight. Since the restoration of the American chestnut would require policy changes and action across 200,000 miles, spanning multiple state governments, it is necessary to assess the extent the public might disfavor or favor this restoration. Our guest this week,Josh Petit from Forest Ecosystems and Society, is seeking to understand the attitudes of Americans toward the chestnut restoration. In particular, Josh is surveying a sample of the US population to compare attitudes toward a controversial method of chestnut restoration,  the use of genetic engineering.

Ways and Means

You may be familiar with genetic engineering to modify the genome of an organism to achieve a specific goal. Many of the crops we eat have in some way been modified to aid harvest, growth, and/or resistance to pests and disease. The methods for restoring the American chestnut are:

  • Selective breeding with related, blight-resistant Asian chestnuts
  • Modifying the genome of American chestnuts with Asian or other related chestnut genes (cisgenics)
  • Modifying the genome of American chestnuts with foreign genes or genes from wheat (transgenics)

Josh conducting research during a study abroad program in tropical North Queensland, Australia.

It is important to assess the attitudes of the public to transgenics because the introduction of  genes from wheat has been the most successful method at enhancing resistance toward chestnut blight. Recently, negative media has led to the misunderstanding that genetically modified organisms (GMOs) have adverse effects on consumers (humans) and ecosystems. However, these claims are not based in sound science and have been refuted. Although GMOs are being supported as alternatives to crop and forest species extinction, ultimately chestnut restoration relies on majority vote in favor or against a specific strategy. Thus, assessing attitudes toward restoration methods is tantamount to restoration efforts.

The Guy for the Job

A native of Ohio, Josh Petit attended Xavier University and majored in Political Science. He credits a Semester at Sea for broadening his world view and exposing him to different cultures. He learned that culture is important in all aspects of daily life. In retrospect, perhaps it is no surprise that he is currently studying an iconic tree and how culture has driven attitudes toward its restoration.

Josh participating in a Fijian traditional village celebration and homestay–taking turns playing guitar.

Josh became interested in ecology, biology, and the interface of the two with humans while working for Q4 International Marketing an ecotourism company in Panama. This lead him to pursue a Master’s in Natural Resources with a marine ecology focus from Virginia Tech. However, his most recent work withOregon Parks and Recreation Department lead him to pursue a PhD at Oregon State University. With the State Parks, Josh conducted surveys in Oregon Parks and sought to connect behavior, impacts, and social science to ecology and recreation. Now at Oregon State University, Josh is working with Mark Needham andGlenn Howe to understand the drivers of attitudes toward using biotechnologies for restoring American chestnut trees.

Hear more about Josh’s research and his journey to now this week on Inspiration Dissemination. Tune in to KBVR Corvallis 88.7FM on Sunday July, 30 at 7 pm, or live stream the show.

Keeping Oregon Forests Green: What Swiss Needle Cast Disease is Teaching Us About Forestry

I’ll never forget driving through the steep and windy I5 corridor of the Klamath Mountains when I moved to Oregon. Wet roads bordered by thick fog with protruding trees that were lusciously green. Very, very green. This concept of ‘Keeping Oregon Green’ started as a fire prevention act, and Oregon’s color is a quality that visitors and residents adore. Unfortunately there is sleeping giant that is gaining momentum, slowly turning Oregon’s forests from green to yellow with an eventual needle fall of the iconic state tree. This color change is from a microscopic fungus that all Douglas-fir trees have around the world, but for some reason it’s only harming the trees along the Oregon coast range. Our guest, a 4th year PhD student Patrick Bennett, is peeling away the layers of complexity to reveal why Oregon’s green forests are dwindling.

Aerial view of Douglas-fir stand with Swiss needle cast near Tillamook, Oregon. Chlorotic (yellow) foliage is a major symptom of the disease.

Douglas-fir needles with pseudothecia (fruiting bodies) of the fungus (Phaeocryptopus gaeumannii) emerging from the stomata.

It is estimated that Swiss Needle Cast disease is affecting nearly 1,000,000 acres in Oregon and Washington alone leading to economic losses estimated at $128 million per year. The fungus covers the stomata, openings in the needles, used to exchange air and water essential for plant metabolism. As more of these stomata become clogged the tree cannot make enough glucose so the needle dies, turns yellow, and eventually the needle falls off entirely. Douglas-fir trees typically keep needles for five years, but in heavily affected areas the needles last one year before falling off leaving the tree extremely thin and frail. Even though the fungus does not directly cause death, it leaves our iconic state tree highly susceptible to drought, beetles, nutrient limitations, and wildfires.

This disease was first discovered in Switzerland, hence the name Swiss Needle Cast, in the 1920’s. At that time it was only negatively affecting Douglas-fir trees planted outside their native habitat. But since the 1980’s the natively planted Douglas-fir trees, within a narrow band parallel to the coast range, are showing annual growth decreases by as much as 50%. Recently there have been advancements in molecular biology and computing power that allow researchers to identify the genetic heritage of pathogens. Using these tools scientists can focus on population genetics to figure out why there is such a discrete area affected along the Oregon coast range. Some evidence points to  warming winters and fungal-subspecies expansion as reasons for the spread of this fungal disease. But Patrick has indications to suggest it’s death by a thousand cuts and begs the question of whether the future of forestry is in danger.

Growing up in southern California Patrick wasn’t exposed to the forests he studies today. It wasn’t until he attended Humboldt State University where he got his first exposure to towering canopies and ecology. His first research experience was in the Lassen Volcanic National Park in California where his advisor, Dr. Patricia Siering, pushed him to develop his own scientific study. Needless to say he was hooked on science and after taking a mycology class he also knew he was jazzed on studying mushrooms so he continued his passions that lead him to Oregon State University.

Dr. Patricia Siering (Humboldt State University – Biology Department) collecting boiling hot sulfuric acid from Boiling Springs Lake in Lassen Volcanic National Park in Northern California with the help of undergraduates and graduate students.

Patrick Bennett is a 4th year PhD student in Dr. Jeff Stone’s lab in the department of Botany and Plant Pathology housed in the College of Agricultural Sciences where he is investigating how population genetics can be used to better understand the factors contributing to the recent emergence of Swiss Needle Cast as a damaging forest pathogen in the native range of Douglas-fir. Be sure to tune in Sunday April 30th at 7PM on KBVR Corvallis 88.7FM or by listening live.

Horse Farms to Tree Farms: Studying the Relationship Between Land Management and Biodiversity

If you wander forests of the Oregon Coast Range you might encounter a strange sight: exclosures made of timber and steel-braided wire, standing in a clear-cut forest. These exclosures, which stand 100-feet long, 50-feet wide and 8-feet high, are the research and work of Thomas Stokely, a PhD candidate in the department of Forest Ecosystems & Society in the College of Forestry. The exclosures were constructed to study the impact of deer and elk grazing on tree growth, and to address a larger research question in forestry management: What does intensive forest management mean for biodiversity?

Completion of exclosure construction in the Oregon Coast Range

Completion of exclosure construction in Oregon Coast Range

To study the impact of deer and elk on commercial tree growth, Thomas constructed constructed 28 stands in which a team of researchers manipulated the intensity of herbicide spray treatments in each area (non-sprayed, light, moderate and intensive herbicide treatments). For six years, under the direction of his adviser Matthew Betts, Thomas and has measured plant communities, arthropods, herbivory and plantation development inside these exclosures and in open plots where wildlife is allowed free access.

Thomas Stokely cutting fence rows through logging slash and large stumps to construct wildlife exclosures

PhD student, Thomas Stokely cutting fence rows through logging slash and large stumps to construct wildlife exclosures

The exclosure research in the Oregon Coast Range relates to Thomas’s goals as a scientist who’s invested in understanding how industry impacts biodiversity. “As the world population grows, we need more resources,” he said. “We want to value the product, but we also value biodiversity and wildlife habitat. Is there a way we can manage for both timber production and wildlife habitat? If so, what role do biodiversity and wildlife play in the management of natural resources? If management alters biodiversity or excludes wildlife, what are the implications for ecosystem functioning?” These are questions that continue to drive his research and his career path.

Mature Roosevelt elk bulls browsing through a plantation with exclosure in the background

Mature Roosevelt elk bulls browsing through a plantation with exclosure in the background

Thomas has been interested in plant-animal interactions and the environment since he was a child. Growing up on a horse farm in southwest Missouri, he watched horses grazing and wondered about their relationship with the habitat in and around the farm. He first considered studying the policy side of humanity’s relationship with the natural world, but political science wasn’t a good fit—he wanted to pursue a more hands-on approach to studying biodiversity. After reading about the reintroduction of wolves in Yellowstone, he knew he wanted to work directly with land and habitat management. He earned a BS in environmental science at University of Missouri before coming to Oregon State. Upon completing his PhD, Thomas plans to work in applied ecology where he hopes to use science to guide land management and conservancy practices.

Tune in to hear our conversation with Thomas Stokely on Sunday, November 13th at 7:00 pm on 88.7 FM KBVR Corvallis or listen live online