Jonathan Kennen
Jonathan is the supervisory scientist overseeing the New Jersey Water Science Center Water-Quality Processes Section. He has worked to advance ecological and ecohydrological science as part of the USGS National Water-Quality Assessment Program (NAWQA), National Water Census (NWC), Water Availability and Use Science Program (WAUSP) and Integrated Water Prediction (IWP) Program.
Dr. Kennen currently conducts and coordinates a highly diverse range of research to address the informational needs of the USGS, its partners, state agencies and NGOs. His research is centered on three primary areas: 1) evaluating the effects of hydrologic modification on stream assemblages, 2) assessing the effects of anthropogenic activities on aquatic ecosystem structure and function and 3) modeling flow alteration-ecology response relations. He is a co-developer of the USGS Hydroecological Integrity Assessment (HIT) Process which implements a set of tools for setting environmental-flow standards and comparing past and proposed streamflow alterations. Other ongoing research efforts include assessing the effects of water-supply development on aquatic assemblages, modeling the responses of stream macroinvertebrate and fish assemblages to land use changes, evaluating methods to support TMDL processes using hydrologic modification as a surrogate for aquatic life impairment, assessing ecological trends, and evaluating the effects of climate change on hydrological and ecological response. Dr. Kennen also represents the U.S. Geological Survey on multi-agency technical advisory committees addressing complex ecological, hydrological, water-quality, management, and natural resource issues and currently serves on the New Jersey Science Advisory Board (Ecological Processes Committee) and the Advisory Council for the New Jersey Water Resources Research Institute.
Professional Experience
2010-present, Member of New Jersey Science Advisory Board (Ecological Processes Committee).
2007, Co-developer of the USGS Hydroecological Integrity Assessment (HIT) Process which implements a set of tools for setting environmental-flow standards, and comparing past and proposed streamflow alterations.
2003-present, Member of New Jersey IBI Technical Advisory Committee.
2002-present, Member of Advisory Council of the New Jersey Water Resources Research Institute.
1996-present, Member of the Interagency Macroinvertebrate Biomonitoring Workgroup.
Referee for various journals including: Society for Freshwater Science, Ecohydrology, Freshwater Biology, Ecological Modelling, North American Journal of Fisheries Management, and American Water Resources Association.
Education and Certifications
Ph.D. Fisheries Biology, SUNY - College of Environmental Science and Forestry, Syracuse, NY
M.S. Aquatic Entomology, SUNY - College of Environmental Science and Forestry, Syracuse, NY
B.S. Biology, Longwood College, Farmville, VA
A.A. Liberal Arts, Suffolk Community College Selden, New York Professional Membership
Affiliations and Memberships*
Society for Freshwater Science
Sigma Xi
American Fisheries Society
American Institute of Fishery Research Biologists Professional Service
Science and Products
Use of an integrated flow model to estimate ecologically relevant hydrologic characteristics at stream biomonitoring sites
Development of the Hydroecological Integrity Assessment Process for Determining Environmental Flows for New Jersey Streams
Users' manual for the Hydroecological Integrity Assessment Process software (including the New Jersey Assessment Tools)
Effects of landscape change on fish assemblage structure in a rapidly growing metropolitan area in North Carolina, USA
Relation of Environmental characteristics to the composition of aquatic assemblages along a gradient of urban land use in New Jersey, 1996-98
Revised Protocols for Sampling Algal, Invertebrate, and Fish Communities as Part of the National Water-Quality Assessment Program
Evaluating temporal changes in stream condition in three New Jersey rive basins by using an index of biotic integrity
Water quality in the Long Island-New Jersey coastal drainages, New York and New Jersey, 1996–98
Trace elements and organochlorine compounds in bed sediment and fish tissue at selected sites in New Jersey streams— Sources and effects
Relation of macroinvertebrate community impairment to catchment characteristics in New Jersey streams
Relation of Benthic macroinvertebrate community impairment to basin characteristics in New Jersey streams
Science and Products
Use of an integrated flow model to estimate ecologically relevant hydrologic characteristics at stream biomonitoring sites
Development of the Hydroecological Integrity Assessment Process for Determining Environmental Flows for New Jersey Streams
Users' manual for the Hydroecological Integrity Assessment Process software (including the New Jersey Assessment Tools)
Effects of landscape change on fish assemblage structure in a rapidly growing metropolitan area in North Carolina, USA
Relation of Environmental characteristics to the composition of aquatic assemblages along a gradient of urban land use in New Jersey, 1996-98
Revised Protocols for Sampling Algal, Invertebrate, and Fish Communities as Part of the National Water-Quality Assessment Program
Evaluating temporal changes in stream condition in three New Jersey rive basins by using an index of biotic integrity
Water quality in the Long Island-New Jersey coastal drainages, New York and New Jersey, 1996–98
Trace elements and organochlorine compounds in bed sediment and fish tissue at selected sites in New Jersey streams— Sources and effects
Relation of macroinvertebrate community impairment to catchment characteristics in New Jersey streams
Relation of Benthic macroinvertebrate community impairment to basin characteristics in New Jersey streams
*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government