Dr. Roderick Lammers received his Bachelor’s degrees from Purdue University. He then received his Ph.D. and M.S. degrees from Colorado State University working on modeling the water quality impacts of stream channel erosion. After earning his degrees, he worked as a postdoctoral associate and research scientist at the University of Georgia. Dr. Lammers joined Central Michigan University as an Assistant Professor in 2021.
Dr. Lammers’ research is focused on using computer modeling to better understand complex water resources problems and designing solutions. He works mostly on urban stormwater, stream channel restoration, and flood management. He also has experience as an engineering consultant working on environmental remediation and water management.
- Ph.D., Civil & Environmental Engineering, Colorado State University, 2018
- M.S., Civil & Environmental Engineering, Colorado State University, 2015
- B.S., Ecological Engineering, Purdue University, 2012
- B.S., Ecological & Evolutionary Biology, Purdue University, 2012
Research & Teaching
- Urban Stormwater Management
- Stream Restoration
- Nitrogen and Phosphorus Pollution
- Natural Infrastructure
- Flood Management
- Water Resources Engineering
Link to google scholar page: https://scholar.google.com/citations?user=oJ0m5skAAAAJ&hl=en
Lammers R.W., Dell T.A., and Bledsoe B.P. 2020. Integrating stormwater management and stream restoration strategies for greater water quality benefits.
Journal of Environmental Quality, 49(3): 569-581. DOI:
Lammers R.W., Bledsoe B.P. 2019. Quantifying pollutant loading from channel sources: Watershed-scale application of the River Erosion Model. Journal of Environmental Management, 234: 104-114. DOI: 10.1016/j.jenvman.2018.12.074
- Parker S.R., Adams S.K.,
Lammers R.W., Stein E.D., and Bledsoe B.P. 2019. Targeted hydrologic model calibration to improve prediction of ecologically-relevant flow metrics.
Journal of Hydrology, 573: 546-556. DOI:
Lammers R.W., Bledsoe B.P. 2018. A network scale, intermediate complexity model for simulating channel evolution over years to decades. Journal of Hydrology, 566: 886-900. DOI:
Lammers R.W., Bledsoe B.P. 2018. Parsimonious sediment transport equations based on Bagnold’s stream power approach.
Earth Surface Processes and Landforms, 43(1): 242-258. DOI: 10.1002/esp.4237
Lammers R.W., Bledsoe B.P. 2017. What role does stream restoration play in nutrient management? Critical Reviews in Environmental Science & Technology, 47(6): 335-371. DOI: 10.1080/10643389.2017.1318618
Lammers R.W., Bledsoe B.P., and Langendoen E.J. 2017. Uncertainty and sensitivity in a bank stability model: Implications for estimating phosphorus loading. Earth Surface Processes and Landforms, 42(4): 612-623. DOI: