Jared DeForest

Jared DeForest, portrait
Professor & Chair
Porter 419
Ohio Center for Ecology and Evolutionary Studies (OCEES)
Environmental and Plant Biology
email address deforest@ohio.edu

Recent News (opens in a new window)

Education

Ph.D., University of Michigan, 2004

Other Websites

Forest Soil Ecology Lab (opens in a new window)

Optimized Lab Protocols for Testing Soils (opens in a new window)

Research

My research goals are to improve our predictive understanding of how the physical environment alters the structure and function of ecosystems, either natural or anthropogenic. Most of my research involves investigating how soil microbes mediating the cycling of carbon, nitrogen, and phosphorus and its impact on tree productivity based on mycorrhizal associations. One decade-long project involves understanding the role of elevated soil pH and/or phosphorus influencing soil microbial functional capacity and forest carbon sequestration. My research draws from soil science, ecosystem ecology, microbial ecology, and forestry. 

Courses

  • PBIO 4/5380: Soils & Ecosystems (Fall)
  • PBIO 2480: Dendrology (Spring)
  • PBIO 3/5240: Plant Physiology (Spring 2024)

Departmental Service

  • Department Chair

Professional Service

Selected References

Within the last 5 years:

DeForest, J.L., 2024. Mitigating Generative AI Inaccuracies in Soil Biology. Soil Biology and Biochemistry, p.109510. https://doi.org/10.1016/j.soilbio.2024.109510

Wagenknecht, R.L., DeForest, J.L., Linthicum, M., Roberts, D. and Snell, R.S., 2023. Tree regeneration response to a shifting soil nutrient economy depends on mycorrhizal association and age. Forest Ecology and Management DOI: https://doi.org/10.1016/j.foreco.2022.120580 (opens in a new window)

Smemo, K.A., Petersen, S.M., Kluber, L.A., Shaw, A.N., DeForest, J.L., 2021. Temporal soil enzyme patterns provide new insights into the nutrient economy of acidic hardwood forests (opens in a new window). Biogeochemistry.

DeForest, J.L., Dorkoski, R., Freedman, Z.B., Smemo, K.A. (2021) Multi-year soil microbial and extracellular phosphorus enzyme response to lime and phosphate addition in temperate hardwood forests (opens in a new window). Plant and Soil.

Mason, L.M., Eagar, A., Patel, P., Blackwood, C.B., DeForest, J.L., 2020. Potential microbial bioindicators of phosphorus mining in a temperate deciduous forest (opens in a new window). Journal of Applied Microbiology, 130, 109-122.

DeForest, J.L. and Moorhead D.L. (2020) Effects of elevated pH and phosphorus fertilizer on the ecoenzymatic stoichiometry of organic and mineral soils in an acidic mixed mesophytic deciduous forest (opens in a new window). Soil Biology and Biochemistry, 150: 107996.

Dove, N.C., Arogyaswamy, K., Billings, S.A., Bothoff, J.K., Carey, C.J., Cisco, C., DeForest, J. L., Fairbanks, D., Fierer, N., Kaye, J.P., Lohse, K. A., Maltz, M.R., Mayora, E., Pett-Ridge, J., Yang, W.H., Hart, S.C., Aronson, E.L. (2020) Continental-scale patterns of extracellular enzyme activity in the subsoil: an overlooked reservoir of microbial activity (opens in a new window). Environmental Research Letters, 15 1040a1.

DeForest, J.L. and Otuya, R.K. (2020). Soil nitrification increases with elevated phosphorus or soil pH in an acidic mixed mesophytic deciduous forest (opens in a new window). Soil Biology & Biochemistry, 142: 107716.

DeForest, J.L., and Snell, R.S. (2020). Tree growth response to shifting soil nutrient economy depends on mycorrhizal associations (opens in a new window). New Phytologist, 225:2557-2566.