Adam Yates

Assistant Professor

Graduate Opportunities

  • PhD - Grand River Watershed Project
  • MSc Lower Great Lakes Tributaries Project
  • MSc - TobaccCreek Model Watershed

    • Research Interests

    Human modification of the landscape is a global threat to the physical, chemical and ecological integrity of aquatic ecosystems. Our ability to protect these important ecosystems through policy is hindered by a limited understanding of the effects of human activities on aquatic ecosystem condition. My research programme addresses this problem by generating critical scientific knowledge with regards to relationships between human activities and ecological condition of aquatic ecosystems with the purpose of developing knowledge and decision support tools that can be used to inform environmental planning, protection and restoration policies and practices. I meet this overarching goal through three complementary and interactive avenues of research grounded within the field of water science:

    1. Description of natural and anthropogenic characteristics of aquatic landscapes;
    2. Development of techniques for assessment of aquatic ecosystems;
    3. Assessment of the effects of human modification of the environment on aquatic ecosystems.

    1. Description of natural and anthropogenic characteristics of aquatic landscapes
    Driven by interest in understanding how and why human activities vary across landscapes my lab uses GIS as well as spatial and quantitative analyses to develop techniques for describing variation in landscape structure. These data provide the basis for generating and testing hypotheses regarding the development of assessment techniques and the effects of human activities on the condition of aquatic ecosystems

    2. Development of techniques for environmental assessment of aquatic ecosystems
    My lab is interested in developing indicators and assessment systems that can be used to generate accurate and informed reports on the condition of aquatic ecosystems exposed to human activities. Interests include testing measures of ecosystem structure (e.g., aquatic invertebrate and fish assemblages) and ecosystem function (e.g., ecosystem metabolism) through extensive field research studies. In addition to indicator development my lab has a strong research interest in the reference condition approach and its development as a technique for biological assessments including how to define reference condition, especially in populated environments, and exploring natural variability in reference conditions.

    3. Effects of human modification of the environment on aquatic ecosystems
    My lab’s research programme generates critical understanding of the effects of human modification and management of landscapes on aquatic ecosystems using the assessment techniques my lab develops. In particular, my lab is interested in the effects of agriculture and agricultural management practices on aquatic ecosystems with the goal of drawing correlative and mechanistic linkages between human activities and ecosystem condition that can be used to generate models for improved environmental management.

    Graduate students in my lab can expect to have an interdisciplinary experience grounded in physical geography, biology and geographic information sciences with opportunities to incorporate social science components. During the course of their program students in my lab will develop and strengthen a wide variety of highly transferrable skills in aquatic systems field research, GIS and statistical analysis.

    Publications (past 7 years)

    Refereed Journals

    Yates AG, Culp JC, and Chambers PA. 2011. Estimating nutrient production from human activities in subcatchments of the Red River, Manitoba. Journal of Great Lakes Research, doi:10.1016/j.jglr.2011.04.009.

    Yates AG, Bailey RC. 2011. Effects of taxonomic group, spatial scale and descriptor on the relationship between human activity and stream biota. Ecological Indicators, 11:759-771.

    Corriveau J, Chambers PA, Yates AG, Culp JM. 2011. Snowmelt and its role in the hydrologic and nutrient budgets of prairie streams. Water Science and Technology, doi:10.2166/wst.2011.676

    Yates AG, Bailey RC. 2010. Selecting objectively defined reference sites for stream bioassessment programs. Environmental Monitoring and Assessment, 170: 129-140.

    Yates AG, Bailey RC. 2010. Improving the description of human activities potentially affecting rural stream ecosystems. Landscape Ecology, 25:371-373.

    Yates AG, Bailey RC. 2010. Covarying patterns of macroinvertebrate and fish assemblages along natural and human activity gradients: implications for bioassessment. Hydrobiologia, 254:147–155.

    Culp JM, Armanini DG, Dunbar MJ, Orlofske JM, Poff L, Pollard AI, Yates AG, Hose GC. 2010. Incorporating traits in aquatic biomonitoring to enhance causal diagnosis and prediction. Integrated Environmental Assessment and Management, 7: 187-197.

    Koscinski D, Yates AG, Handford P, Lougheed SC. 2009. Effects of landscape and history on diversification of a montane, stream-breeding amphibian. Journal of Biogeography, 36:25- 255-265.

    Yates AG, Bailey RC, Schwindt JA. 2007. Effectiveness of best management practices in improving stream ecosystem quality. Hydrobiologia, 583:331-344.

    Bailey RC, Reynoldson TB, Yates AG, Bailey J, Linke S. 2007. Integrating stream bioassessment and landscape ecology as a tool for landuse planning. Freshwater Biology, 52:908-917.

    Yates AG, Bailey RC. 2006. The stream and its altered valley: Integrating landscape ecology into environmental assessments of agro-ecosystems. Environmental Monitoring and Assessment, 114:257-271.

    Yates AG, Bailey RC, Schwindt JA. 2006. No-till cultivation improves stream ecosystem quality. Journal of Soil and Water Conservation, 583:331-344.

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    Adam Yates

     

    Courses Taught