Rachel Lasley-Rasher, PhD
SHE | HER | HERS
- Associate Professor of Biology
Education
- PhD, Biology, Georgia Institute of Technology
- BS, Marine Biology, University of the Virgin Islands
Research Interests
I am a zooplankton ecologist. I study the big impacts of small organisms that occupy basal trophic levels. These animals play a critical role in transferring energy to higher consumers including many commercially important fish. I am most interested in interdisciplary research questions that relate individual-scale behaviors such as predator avoidance, mate finding, and migration to community and ecosystem-scale effects. I have always been intrigued as to how small animals navigate the vast, viscous, and dilute world that is the marine environment.
My previous work includes determining the indirect effects of predators on copepod reproductive success and measuring the behavioral effects of ingesting toxic algae on copepod swimming behavior and predator encounter. More recently, I have used historic fish diet data from the National Oceanic and Atmospheric Administration (NOAA) to quantify the abundance patterns of small shrimp across the Northeastern U.S. shelf ecosystem.
Currently, I am working on a project to determine how the estuarine food web has changed following a historic restoration effort in the Penobscot River. The Penobscot River restoration is one of the largest habitat restoration projects in our nation’s history, opening thousands of kilometers of riverine habitat for migratory fish, such as river herring. I am working with collaborators from NOAA and the University of Maine to see how the dramatic increase in river herring is affecting zooplankton distribution and abundance.
Dr. Lasley-Rasher joined the Biology Department at USM in 2017. Previously, she was a postdoctoral fellow at the University of Maine, and she served as the Research Coordinator for the Maine Sea Grant program. She is a marine ecologist who studies effects of prey behavior on predator-prey interactions and large-scale dynamics at the population, community, and ecosystem levels.
Dr. Lasley-Rasher teaches courses in ecology (BIO 203, BIO 337) and organismal biology (BIO 351), and she contributes to the evolution, biodiversity, and ecology course (BIO 107) within the introductory biology sequence.
Selected Publications
Webb, A., Wilson, K.A. and Lasley-Rasher, R. (2024) Juvenile Alewife (Alosa pseudoharengus) Movement and Residency in a Northern Temperate Estuary. Estuaries and Coasts 47, 851–864. https://doi.org/10.1007/s12237-024-01333-y
Ishaq, S.L., Hosler, S., Dankwa, A., Jekielek, P., Brady, D.C., Grey, E., Haskell, H., Lasley-Rasher, R., Pepperman, K., Perry, J., Beal, B., and Bowden, T.J. (2023) Bacterial community trends associated with sea scallop, Placopecten magenllanicus, larvae in a hatchery system. Aquaculture Reports 32, 101693. https://doi.org/10.1016/j.aqrep.2023.101693.
Chapman, E.J., Byron, C.J., Lasley-Rasher, R., Lipsky, C., Stevens, J.R. and Peters, R. (2020) Effects of climate change on coastal ecosystem food webs: implications for aquaculture. Marine Environmental Research, p. 105103.
Cortial, G., Woodland, R., Lasley-Rasher, R. and Winkler, G. (2019) Phylogeography of Neomysis americana (Crustacea, Mysida), focusing on the St. Lawrence system. Journal of Plankton Research, https://doi.org/10.1093/plankt/fbz050.
Education
- PhD, Biology, Georgia Institute of Technology
- BS, Marine Biology, University of the Virgin Islands
Research Interests
I am a zooplankton ecologist. I study the big impacts of small organisms that occupy basal trophic levels. These animals play a critical role in transferring energy to higher consumers including many commercially important fish. I am most interested in interdisciplary research questions that relate individual-scale behaviors such as predator avoidance, mate finding, and migration to community and ecosystem-scale effects. I have always been intrigued as to how small animals navigate the vast, viscous, and dilute world that is the marine environment.
My previous work includes determining the indirect effects of predators on copepod reproductive success and measuring the behavioral effects of ingesting toxic algae on copepod swimming behavior and predator encounter. More recently, I have used historic fish diet data from the National Oceanic and Atmospheric Administration (NOAA) to quantify the abundance patterns of small shrimp across the Northeastern U.S. shelf ecosystem.
Currently, I am working on a project to determine how the estuarine food web has changed following a historic restoration effort in the Penobscot River. The Penobscot River restoration is one of the largest habitat restoration projects in our nation’s history, opening thousands of kilometers of riverine habitat for migratory fish, such as river herring. I am working with collaborators from NOAA and the University of Maine to see how the dramatic increase in river herring is affecting zooplankton distribution and abundance.