Agriculture in the Boreal Forest: Exploring Soil Carbon, Fertility, and Land Use Change to Support Sustainable Northern Food Systems

dc.contributor.advisorJacobs, Shoshanah
dc.contributor.advisorTuretsky, Merritt
dc.contributor.authorBysouth, David of Integrative Biologyen_US of Guelphen of Philosophyen_US Biologyen_US
dc.description.abstractThe traditional food system of many northern communities is currently being challenged by the increasing prevalence of natural disturbances brought on by disproportionate climatic warming. To alleviate resulting issues of food insecurity, northern communities are incorporating agriculture as a supplemental piece to their food system due to the increased temperatures, longer growing seasons, and changes to nutrient availability associated with climate change. However, the boreal forest represents the largest pool of soil organic carbon (SOC) in the terrestrial environment and land use change associated with agricultural cultivation has the potential to release large amounts of carbon to the atmosphere. With the unique challenges associated with cultivating northern soils, farmers have an interest in soil data that facilitates an understanding of how agriculture impacts soil fertility and SOC, and how effective their management practices are for the conditions they cultivate. To alleviate these knowledge gaps, we partnered with the communities of Kakisa and Enterprise and seven farmers in the Northwest Territories (NWT), Canada during this thesis to address the following broad objectives, 1) Understand global trends in boreal forest soil organic carbon stock dynamics in cultivated landscapes, 2) Assess variability, drivers, and relationships between soil fertility and soil organic carbon stocks in pre-cultivation sited across the partnered communities, 3) Use southern NWT farms as a case study to understand the impact of agricultural land use change and management on soil carbon and fertility in the boreal forest. Results of this interdisciplinary work indicate that SOC stocks decline 69  1% globally and 66  1% in our partnered NWT farm sites in the first 30 years after cultivation. Additionally, we determined there was an inverse relationship between SOC and soil fertility in pre-cultivation soils, but a positive relationship between SOC and macronutrient fertility in soils that are currently cultivated in the NWT. Further, our results indicate that compost addition in conjunction with a ‘no till’ approach promotes higher soil fertility and SOC stocks. Together, this thesis provides an understanding of soil fertility and SOC dynamics in boreal agricultural soils and can be utilized by communities to make subsequent land management decisions.en_US
dc.description.sponsorshipNorthern Agriculture Futures
dc.identifier.citationBysouth, D., Turetsky, M., & Spring, A. (2021, April). Agriculture in the Boreal Forest: Understanding the Impact of Land Use Change on Soil Carbon for Developing Sustainable Community Food Systems. In EGU General Assembly Conference Abstracts (pp. EGU21-6071).
dc.publisherUniversity of Guelphen
dc.rights.licenseAll items in the Atrium are protected by copyright with all rights reserved unless otherwise indicated.
dc.subjectboreal agricultureen_US
dc.subjectsoil organic carbonen_US
dc.subjectNorthwest Territoriesen_US
dc.subjectcommunity researchen_US
dc.subjectsoil fertilityen_US
dc.subjectland use changeen_US
dc.titleAgriculture in the Boreal Forest: Exploring Soil Carbon, Fertility, and Land Use Change to Support Sustainable Northern Food Systemsen_US


Original bundle
Now showing 1 - 1 of 1
Thumbnail Image
4.42 MB
Adobe Portable Document Format
PhD Thesis