Mark Hunter

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Mark Hunter

Henry A. Gleason Collegiate Professor

Office Location(s): 2053 / 2082 Kraus Natural Science Building
Phone: 734.647.3691
Fax: 734.763.0544
Hunter Lab Website
View Curriculum Vitae

  • Fields of Study
    • Population ecology, plant herbivore interactions, ecosystem processes
  • About

    Academic background

    B.A. Zoology (with honors), University of Oxford, Oxford, UK, Ph.D. in Community Ecology, University of Oxford, UK

    Research interests

    My research links population processes and ecosystem processes in terrestrial environments. I am particularly interested in feedback processes that operate between the population dynamics of herbivores and the quality of plants upon which they feed. I use a combination of approaches and techniques including field experiments, laboratory experiments, mathematical modeling, soil chemistry, plant chemistry, and stable isotope analysis. In addition to the development of theory, I apply what we learn to environmental issues including climate change, pest dynamics, and invasive species.

    Current/Recent research projects

    I divide my time among several related research activities. First, I am interested in the role of plant chemistry in the population dynamics of herbivores. I usually study the insects that feed on plants and their interactions with natural enemies. Plants can be nutritionally poor and well-defended against herbivores, yet we still know relatively little about how spatial and temporal variation in plant quality influences population change in insect herbivores. Moreover, the natural enemies of insects (including other arthropods, birds, and pathogens) vary in efficacy depending upon the quality of plants upon which herbivores are feeding. I use experiments, chemical analyses, and modeling to explore these interactions. Second, there are links between the population dynamics of herbivores and ecosystem processes in the habitats in which they live. Herbivores influence nitrogen and carbon cycles, largely through their effects on soil processes. In turn, soil quality and nutrient availability "feed back" to influence the population dynamics of herbivores and the food webs that they support. Using field and laboratory experiments, and stable isotope techniques, I try to estimate the strength of these feedback processes and their consequences for population and ecosystem dynamics. Finally, I apply ecological theory to environmental issues. I have worked on the dynamics and control of insect pests, the consequences of species invasions, and the effects of transgenic crops on agro ecosystems.


    I have taught a number of courses over the years, including population ecology, community ecology, and entomology.

    Current/recent teaching
    BIO 171
    Introductory Biology
    EEB 472 Plant-Animal Interactions

  • Education
    • Ph.D., Community Ecology, University of Oxford
  • Research Areas of Interest
    • Population ecology, chemical ecology, population/ecosystem interactions
  • Graduate students
    • Leslie Decker, Amanda Meier, Johanna Nifosi, Kristel Sanchez