Jill S Baron, PhD
Dr. Jill Baron is a senior scientist with the U.S. Geological Survey, and a Senior Research Ecologist with the Natural Resource Ecology Laboratory at Colorado State University.
Jill Baron is founder and Co-Director of the John Wesley Powell Center for Earth System Science Analysis and Synthesis. She was the North American Director of the International Nitrogen Initiative 2014-2019 and is Co-Lead for Component 1 (Tools and methods for understanding the nitrogen cycle) of the International Nitrogen Management System. Baron was President of the Ecological Society of America in 2014, is a Certified Professional Ecologist, and a Fellow of the ESA and the American Association for the Advancement of Science (AAAS).
She was named a Woman of Vision in 2015 by Colorado Women of Influence for her work advancing women’s role in science. Baron has been active in US National Climate Assessment efforts, has given testimony to Congress on western acid rain and climate change issues, and serves on a National Academy of Science, Engineering and Medicine Committee on Assessing Causality from a Multidisciplinary Evidence Base for National Ambient Air Quality Standards. She is founder and Principal Investigator of the Loch Vale Watershed long-term ecological monitoring and research program in Rocky Mountain National Park, an instrumented catchment that in 2022 will celebrate 40 years of continuous records.
Professional Experience
2009-present Co-Director, John Wesley Powell Center for Earth System Science Analysis and Synthesis
2016-present Senior Scientist, U.S. Geological Survey, Fort Collins CO
1996-2015 Research Ecologist; U.S. Geological Survey, Fort Collins, CO
1986-present Senior Research Scientist; Natural Resource Ecology Laboratory, Colorado State University, Fort Collins, CO
2000-present Advising faculty, CSU Graduate Degree Program in Ecology
1993-1996 Research Ecologist; National Biological Service, Mountain Ecosystems Section, Fort Collins, CO
1976-1993 Research Biologist-National Park Service; Great Smoky Mountains National Park TN; Gulf Islands National Seashore MS; Water Resources Division, Washington D.C. and CO
Education and Certifications
Ph.D. Ecosystem Ecology, Colorado State University, 1991
M.S. Land Resources, University of Wisconsin - Madison, 1979
B.S. Plant Sciences, Cornell University, 1976
Affiliations and Memberships*
Present: Natural Resource Ecology Laboratory, Colorado State University, Senior Scientist
Present: Graduate Degree Program in Ecology, Colorado State University, Advising Faculty
Present: Department of Ecosystem Science and Sustainability, Colorado State University, Faculty Affiliate
Science and Products
Long-term nitrogen addition shifts the soil nematode community to bacterivore-dominated and reduces its ecological maturity in a subalpine forest
Wanted: Future leaders for ESA
Adding a nitrogen footprint to Colorado State University’s sustainability plan
Land before water: The relative temporal sequence of human alteration of freshwater ecosystems in the conterminous United States
Grand challenges for integrated USGS science — A workshop report
Synthesis centers as critical research infrastructure
The Nitrogen Footprint Tool network: A multi-institution program to reduce nitrogen pollution
Best practices for virtual participation in meetings: Experiences from synthesis centers
Earth Stewardship: An initiative by the Ecological Society of America to foster engagement to sustain Planet Earth
Key ecological responses to nitrogen are altered by climate change
Managing nutrients, water, and energy for producing more food with low pollution (MoFoLoPo); What would success look like?
The differing biogeochemical and microbial signatures of glaciers and rock glaciers
Science and Products
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Long-term nitrogen addition shifts the soil nematode community to bacterivore-dominated and reduces its ecological maturity in a subalpine forest
Nitrogen deposition from anthropogenic sources is a global problem that reaches even the most remote ecosystems. Responses belowground vary by ecosystem, and have feedbacks to geochemical processes, including carbon storage. A long-term nitrogen addition study in a subalpine forest has shown carbon loss over time, atypical for a forest ecosystem. Loss of microbial biomass is likely linked to lowerAuthorsE. Ashley Shaw, Claudia M. Boot, John C. Moore, Diana H. Wall, Jill BaronWanted: Future leaders for ESA
A scientific society like ESA is not just an office, nor an annual meeting, nor one or more journals, and it cannot operate without volunteer leadership. ESA is its members. It is the collective efforts of many individuals that create a vibrant organization. Members step forward in service to the society and to the community review journal articles, organize symposia and field trips at the AnnuaAuthorsJill Baron, Catherine O'RiordanAdding a nitrogen footprint to Colorado State University’s sustainability plan
As a large land grant university with more than 32,000 students, Colorado State University has both on-campus non-agricultural and agricultural sources of nitrogen (N) released to the environment. We used the Nitrogen Footprint Tool to estimate the amount of N released from different sectors of the university for the CSU 2014 academic year. The largest on campus sources were food production, utiliAuthorsJacob Kimiecik, Jill Baron, Timothy Weinmann, Emily TaylorLand before water: The relative temporal sequence of human alteration of freshwater ecosystems in the conterminous United States
Human alteration of ecosystems prior to Euro-American contact in the area that became the conterminous United States disproportionately affected terrestrial systems compared to freshwater ecosystems, primarily through the use of fire and agriculture in some regions of the United States. After circa 1600 AD, trapping of beaver, along with intensive modification of rivers and wetlands for navigationAuthorsEllen Wohl, Katherine B. Lininger, Jill BaronGrand challenges for integrated USGS science — A workshop report
Executive SummaryThe U.S. Geological Survey (USGS) has a long history of advancing the traditional Earth science disciplines and identifying opportunities to integrate USGS science across disciplines to address complex societal problems. The USGS science strategy for 2007–2017 laid out key challenges in disciplinary and interdisciplinary arenas, culminating in a call for increased focus on a numbeAuthorsKaren E. Jenni, Martin B. Goldhaber, Julio L. Betancourt, Jill S. Baron, Sky Bristol, Mary Cantrill, Paul E. Exter, Michael J. Focazio, John W. Haines, Lauren E. Hay, Leslie Hsu, Victor F. Labson, Kevin D. Lafferty, K. A. Ludwig, Paul C. D. Milly, Toni L. Morelli, Suzette A. Morman, Nedal T. Nassar, Timothy R. Newman, Andrea C. Ostroff, Jordan S. Read, Sasha C. Reed, Carl D. Shapiro, Richard A. Smith, Ward E. Sanford, Terry L. Sohl, Edward G. Stets, Adam J. Terando, Donald E. Tillitt, Michael A. Tischler, Patricia L. Toccalino, David J. Wald, Mark P. Waldrop, Anne Wein, Jake F. Weltzin, Christian E. ZimmermanSynthesis centers as critical research infrastructure
Demand for the opportunity to participate in a synthesis-center activity has increased in the years since the US National Science Foundation (NSF)–funded National Center for Ecological Analysis and Synthesis (NCEAS) opened its doors in 1995 and as more scientists across a diversity of scientific disciplines have become aware of what synthesis centers provide. The NSF has funded four synthesis centAuthorsJill Baron, Alison Specht, Eric Garnier, Pamela Bishop, C. Andrew Campbell, Frank W. Davis, Bruno Fady, Dawn Field, Louis J. Gross, Siddeswara M. Guru, Benjamin S Halpern, Stephanie E. Hampton, Peter R. Leavitt, Thomas R. Meagher, Jean Ometto, John N. Parker, Richard Price, Casey H. Rawson, Allen Rodrigo, Laura A. Sheble, Marten WinterThe Nitrogen Footprint Tool network: A multi-institution program to reduce nitrogen pollution
Anthropogenic sources of reactive nitrogen have local and global impacts on air and water quality and detrimental effects on human and ecosystem health. This paper uses the nitrogen footprint tool (NFT) to determine the amount of nitrogen (N) released as a result of institutional consumption. The sectors accounted for include food (consumption and upstream production), energy, transportation, fertAuthorsElizabeth A. Castner, Allison M. Leah, Neal Leary, Jill Baron, Jana E. Compton, James N. Galloway, Meredith G. Hastings, Jacob Kimiecik, Jonathan Lantz-Trissel, Elizabeth de la Riguera, Rebecca RyalsBest practices for virtual participation in meetings: Experiences from synthesis centers
The earth environment is a complex system, in which collaborative scientific approaches can provide major benefits by bringing together diverse perspectives, methods, and data, to achieve robust, synthetic understanding (Fig. 1). Face-to-face scientific meetings remain extremely valuable because of the opportunity to build deep mutual trust and understanding, and develop new collaborations and somAuthorsStephanie E. Hampton, Benjamin S. Halpern, Marten Winter, Jennifer K. Balch, John N. Parker, Jill Baron, Margaret Palmer, Mark P. Schildhauer, Pamela Bishop, Thomas R. Meagher, Alison SpechtEarth Stewardship: An initiative by the Ecological Society of America to foster engagement to sustain Planet Earth
The Ecological Society of America (ESA) has responded to the growing commitment among ecologists to make their science relevant to society through a series of concerted efforts, including the Sustainable Biosphere Initiative (1991), scientific assessment of ecosystem management (1996), ESA’s vision for the future (2003), Rapid Response Teams that respond to environmental crises (2005), and the EarAuthorsF. Stuart Chapin, Steward T. A. Pickett, Mary E. Power, Scott L. Collins, Jill S. Baron, David W. Inouye, Monica G. TurnerKey ecological responses to nitrogen are altered by climate change
Climate change and anthropogenic nitrogen deposition are both important ecological threats. Evaluating their cumulative effects provides a more holistic view of ecosystem vulnerability to human activities, which would better inform policy decisions aimed to protect the sustainability of ecosystems. Our knowledge of the cumulative effects of these stressors is growing, but we lack an integrated undAuthorsT.L. Greaver, C.M. Clark, J.E. Compton, D. Vallano, A. F. Talhelm, C.P. Weaver, L.E. Band, Jill Baron, E.A. Davidson, C.L. Tague, E. Felker-Quinn, J.A. Lynch, J.D. Herrick, L. Liu, C.L. Goodale, K. J. Novak, R. A. HaeuberManaging nutrients, water, and energy for producing more food with low pollution (MoFoLoPo); What would success look like?
Synthetic nitrogen (N) fertilizer has enabled modern agriculture to greatly improve human nutrition during the 20th century, but it has also created unintended human health and environmental pollution challenges for the 21st century. Averaged globally, about half of the fertilizer N applied to farms is removed with the crops, while the other half remains in the soil or is lost from farmers’ fieldsAuthorsJill BaronThe differing biogeochemical and microbial signatures of glaciers and rock glaciers
Glaciers and rock glaciers supply water and bioavailable nutrients to headwater mountain lakes and streams across all regions of the American West. Here we present a comparative study of the metal, nutrient, and microbial characteristics of glacial and rock glacial influence on headwater ecosystems in three mountain ranges of the contiguous U.S.: The Cascade Mountains, Rocky Mountains, and SierraAuthorsTimothy S. Fegel, Jill Baron, Andrew G. Fountain, Gunnar F. Johnson, Edward K. Hall - News
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*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