Pamela Matson
Richard and Rhoda Goldman Professor of Environmental Studies and Senior Fellow at the Woods Institute, Emerita
Earth System Science
Bio
PAMELA MATSON is an interdisciplinary sustainability scientist, academic leader, and organizational strategist. She served as dean of Stanford University’s School of Earth, Energy and Environmental Sciences from 2002-2017, building interdisciplinary departments and educational programs focused on resources, environment and sustainability, as well as co-leading university-wide interdisciplinary initiatives. In her current role as the Goldman Professor of Environmental Studies and Senior Fellow in the Woods Institute for the Environment, she leads the graduate program on Sustainability Science and Practice. Her research addresses a range of environment and sustainability issues, including sustainability of agricultural systems, vulnerability and resilience of particular people and places to climate change, and characteristics of science that can contribute to sustainability transitions at scale.
Dr. Matson serves as chair of the board of the World Wildlife Fund-US and as a board member of the World Wildlife Fund-International and several university advisory boards. She served on the US National Academy of Science Board on Sustainable Development and co-wrote the National Research Council’s volume Our Common Journey: A transition toward sustainability (1999); she also led the NRC committee on America’s Climate Choices: Advancing the Science of Climate Change. She was the founding chair of the National Academies Roundtable on Science and Technology for Sustainability, and founding editor for the Annual Review of Environment and Resources. She is a past President of the Ecological Society of America. Her recent publications (among around 200) include Seeds of Sustainability: Lessons from the Birthplace of the Green Revolution (2012) and Pursuing Sustainability (2016).
Pam is an elected member of the National Academy of Science and the American Academy of Arts and Sciences, and is a AAAS Fellow. She received a MacArthur Foundation Award, contributed to the award of the Nobel Prize to the Intergovernmental Panel on Climate Change, among other awards and recognitions, and is an Einstein Fellow of the Chinese Academy of Sciences.
Dr. Matson holds a Bachelor of Science degree with double majors in Biology and Literature from the University of Wisconsin (Eau Claire), a Master degree in Environmental Science and Policy from Indiana University’s School of Public and Environmental Affairs, a Doctorate in Forest Ecology from Oregon State University, and honorary doctorates from Princeton, McGill and Arizona State Universities. She spent ten years as a research scientist with NASA-Ames Research Center before moving to a professorship at the University of California Berkeley and, in 1997, to Stanford University.
Academic Appointments
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Fac Ret Replacement Teaching, Earth System Science
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Affiliate, Precourt Institute for Energy
Administrative Appointments
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Faculty Director for the Sustainability, Science, and Practice Master's Program, Stanford University (2017 - 2023)
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Senior Fellow, Woods Institute for the Environment (2005 - 2023)
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Naramore Dean of the School of Earth, Energy and Environmental Sciences, Stanford University (2002 - 2017)
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Co-director Center for Environmental Science and Policy, Stanford University (2000 - 2002)
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Sant Director of the Earth Systems Program, Stanford University (1999 - 2002)
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Richard and Rhoda Goldman Professor in Environmental Sciences, Stanford University (1997 - 2023)
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Professor, University of California, Berkeley (1993 - 1998)
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Research Scientist, NASA-Ames Research Center (1983 - 1993)
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Post-doctoral Fellow Department of Entomology, North Carolina State University (1983 - 1983)
Honors & Awards
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Honorary Degree, University of Wisconsin Eau Claire (2023)
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Excellence in Teaching, Stanford Earth (2022)
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Foundation Fellow, International Science Council (2022)
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Faculty Women's Forum Deborah Rhode Lifetime Achievement Award, Stanford University (2021)
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Tellus Mater Distinguished Fellow, Cambridge University (2019)
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Honorary Doctorate, McGill University (2017)
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Honorary Doctorate, Princeton University (2017)
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Fellow, California Academy of Sciences (2015)
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Doctor of Science Honorary Degree, Arizona State University (2014)
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Honorary Member, British Ecological Society (2013)
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Sustainability Science Award, Ecological Society of America (2013)
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Top 100 Women of Influence, Silicon Valley Business Journal (2013)
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Fellow, Ecological Society of America (2012)
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Einstein Visiting Professor, Chinese National Academy (2011)
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Eminent Ecologist Award, Colorado State University (2009)
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Major contributor to Nobel Peace prize awarded to Intergovernmental Panel on Climate Change, Norwegian Nobel Committee (2007)
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The 2005 Richard W. Lyman Award, Stanford University (2005)
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McMurtry University Fellow for Undergraduate Education, McMurtry University (2002)
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National Associate, National Academy of Sciences (2002)
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Leopold Leadership Fellow, Leopold Leadership Program (1999)
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Richard and Rhoda Goldman Professorship, Stanford University (1999)
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Distinguished Alumni Award, Oregon State University (1998)
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School of Public and Environmental Affairs Distinguished Alumni Award, Indiana University (1998)
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AAAS Fellow, American Academy of Arts and Sciences (1997)
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Distinguished Alumni Award, University of Wisconsin-Eau Claire (1996)
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MacArthur Fellow, MacArthur Fellowship (1995-2000)
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Elected Member, National Academy of Sciences (1994)
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Exceptional Service Medal, NASA (1993)
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Elected Member, American Academy of Arts and Sciences (1992)
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Fellow, Ames (NASA) Associate (1992)
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Research Paper Award, Oregon State University (1984)
Boards, Advisory Committees, Professional Organizations
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External to Stanford:, __ (1992 - Present)
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Member, National Council, World Wildlife Fund (2023 - Present)
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Member, Board, World Resources Institute (2023 - Present)
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Ex-Officio, Board on International Scientific Organizations (2022 - Present)
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Member, Flagship Institute of Sustainability, Strategic Planning Committee, Tohoku University (2022 - 2022)
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Member, ISC Board Subcommittee for Science, International Science Council (2021 - Present)
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Member, ISC Governing Board, International Science Council (2021 - Present)
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Chair, Advisory Board, Gund Institute (University of Vermont) (2018 - Present)
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Chair, US Board of Trustees, World Wildlife Fund (2018 - 2022)
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Member, International Board of Directors, World Wildlife Fund (2018 - 2022)
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Member, Advisory Council, FutureEarth (2018 - 2020)
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Member, Board of Directors, FFAR (Foundation for Food and Agriculture Research) (2014 - 2015)
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Vice Chair, Board of Trustees, World Wildlife Fund (2012 - 2018)
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Member, Board of Trustees, ClimateWorks (2011 - 2020)
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Member, External Advisory Board for School of Global Environmental Sustainability, Colorado State University (2010 - 2016)
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Member, Advisory Board, National Park System (2010 - 2012)
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Member, Advisory Board, Climate Central, Inc. (2009 - 2012)
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Member, NAS Committee on America's Climate Choices, National Academy of Science (2009 - 2012)
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Member, NAS Committee on Climate, Energy and National Security, National Academy of Science (2009 - 2011)
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Member, NAS Science Ambassador Program Advisory Board, National Academy of Science (2009 - 2010)
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Member, NAS Certification Committee, National Academy of Science (2009 - 2009)
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Member, Board of Advisors, Global Institute of Sustainability, Arizona State University (2007 - 2021)
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Member, Advisory Board, Department of Ecology and Evolutionary Biology, Princeton University (2007 - 2019)
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Member, Editorial Board, Proceedings of the National Academy of Sciences (2006 - 2015)
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Founding Editor and Editorial Board Member, Annual Review of Environment and Resources (2002 - 2015)
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Member, Board of Trustees, World Wildlife Fund (2003 - 2022)
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Founding Editor and Editorial Board Member, Annual Review of Energy and the Environment (2001 - 2015)
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Founding Co-Chair, NAS Roundtable on Science and Technology for Sustainability, National Academy of Sciences (2001 - 2009)
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Advisory Committee for Environmental Program, Luce Foundation (2001 - 2007)
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Chair, Section on Ecology and Environmental Sciences, National Academy of Sciences (2001 - 2004)
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President, Ecological Society of America (2001 - 2003)
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Member, Board of Trustees, National Park Conservation Association (2000 - 2007)
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Member, National Academy of Sciences Temporary Nominating Group on Global and Human Environmental Science, National Academy of Sciences (2000 - 2004)
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Member, Coordinating Committee on the Sustainability Transition, National Academies of Science (2000 - 2002)
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President Elect, Ecological Society of America (2000 - 2001)
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Co-Chair, Section 27, National Academy of Sciences (1998 - 2001)
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Lead Author, Working Group 1, Chapter 4, IPCC (Intergovernmental Panel on Climate Change) (1998 - 2001)
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Liaison, Section 27, National Academy of Sciences (1998 - 2001)
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Member, Science Advisory Committee, Organization of Tropical Studies (1998 - 2001)
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Editorial Board, Annual Review of Energy and Environment (1998 - 2000)
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Member, International SCOPE project on nitrogen transport and transformations, SCOPE (1998 - 2000)
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Program Committee for the XVI International Botanical Congress, International Botanical Congress (1998 - 1999)
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Editorial Board, Ecosystems (1997 - 2002)
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Member, Vice Chair and Executive Committee Member, Scientific Advisory Committee, International Geosphere-Biosphere Program (1997 - 2001)
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Member, Advisory Committee, Natural Resource Ecology Laboratory (1996 - 2000)
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Member, U.S. National Committee, Scientific Committee on Problems of the Environment (SCOPE) (1996 - 1999)
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Member, Board of Trustees, Institute of Ecosystem Studies (1995 - 2004)
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Member, Board on Sustainable Development, National Academy of Sciences (1995 - 2000)
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Chair, Sustainable Biosphere Initiative Steering Committee, Ecological Society of America (1994 - 2000)
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Editorial Board, Ecological Applications (1994 - 2000)
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Member, Boreal Ecosystem-Atmosphere Exchange Study Advisory Committee, NASA (1994 - 1998)
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Member, Mission to Planet Earth Advisory Committee, NASA (1994 - 1997)
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Editorial Board, Global Change Biology (1994 - 1997)
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Member, Advisory Board, Aspen Global Change Institute (1992 - 2012)
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Visiting committee or review committee member, MIT, Cornell, Princeton, Utah, Colorado State, Colorado, etc
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Stanford:, __ (1997 - Present)
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Chair, Provost's Committee on Sustainability, Stanford University (2012 - 2017)
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Member, Advisory Council, Woods Institute for the Environment (2006 - 2017)
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Science Director, Leopold Leadership Program, Stanford University (2004 - 2017)
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Stanford Environmental Initiative Leader, Stanford University (2004 - 2011)
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Ex Officio member of Stanford University Academic Senate, Stanford University (2002 - 2017)
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Member, Executive Committee of the Emmett Interdisciplinary Program in Environment and Resources, Stanford University (2001 - 2006)
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Sophomore Advisor, Stanford University (2001 - 2006)
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Chair, Ad hoc Committee for a Interdisciplinary Environmental Studies Graduate Program, Stanford University (2000 - 2001)
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Member, Provost's Task Force on University Needs, Stanford University (2000 - 2001)
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Provost's Committee on Environment, Stanford University (1999 - 2004)
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Provost's Committee to form Stanford Institute for the Environment, Stanford University (1999 - 2003)
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Director, Earth Systems Program, Stanford University (1999 - 2002)
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Dean of the School of Education Search Committee, Stanford University (1999 - 2000)
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Institute for International Studies Search Committee, Stanford University (1998 - 2001)
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Acting Director, Earth Systems Program, Stanford University (1998 - 1999)
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Goldman Honors Program faculty member, Stanford University (1997 - 2002)
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Sexual Harassment Advisor, School of Earth Sciences, Stanford University (1997 - 2001)
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Invited lectures, seminars, and speeches:, __ (1997 - Present)
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Keynote Address, Resilience 2011 Conference, Arizona State University, Tempe (2011 - 2011)
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Betty Klepper Lecture, Crop Science Society of America Meeting, Long Beach, Crop Science Society of America (2010 - 2010)
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Distinguished Lecturer, University of Hawaii, Honolulu (2010 - 2010)
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Keynote speaker, Wallace Stegner Center for Land, Resources and the Environment Annual Symposium, University of Utah (2010 - 2010)
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Session speaker, Annual Meeting in San Francisco, American Geophysical Union (2010 - 2010)
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Invited speaker, "Climate Change: Global Risks, Challenges and Decisions" in Copenhagen, Denmark, University of Copenhagen and the International Alliance of Research Universities (2009 - 2009)
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Participant, NSF Conference "Towards a Science of Sustainability", National Science Foundation (2009 - 2009)
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Presenter at Symposium during AAAS Annual Meeting. Invited lecture at the University of Texas, Austin., The American Academy of Arts and Sciences (2008 - 2008)
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Speaker at Three Symposia at AAAS Annual Meeting in San Francisco. Invited lectures at Columbia University, Lamont-Doherty Earth Observatory, Duke University and Oregon State University., The American Academy of Arts and Sciences (2007 - 2007)
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Plenary Lecture at AAAS Annual Meeting, St. Louis. Invited lectures at Arizona State University, the U.S. Geological Survey and the Long-Term Ecological Research (LTER) All-Scientists Meeting. Panelist at Society of Petroleum Engineering Annual Technical Conference and Exhibition., The American Academy of Arts and Sciences (2006 - 2006)
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Invited lecturer, The University of Wisconsin, Eau Claire, and the University of Virginia, Charlottesville (2005 - 2005)
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Invited lecturer, University of Georgia, Athens, Brown University and Woods Hole Marine Biological Laboratory. (2004 - 2004)
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Invited lecturer, Yale University, Massachusetts Institute of Technology and Princeton University (2003 - 2003)
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Invited Seminars: Stanford Think Again in Washington, Vancouver,, Stanford Think Again (2002 - 2002)
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Invited Seminars, University of Illinois, Harvard University, UC Davis, University of Wisconsin, Stanford University (2001 - 2001)
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Invited Seminars, Carnegie Institution Global Ecology Lecturer, World Affairs Council of Northern California, Institute of Ecosystem Studies, Royal Swedish Academy of Sciences, National Academy of Sciences Presidents' Circle, Stanford Law School, Peninsula Geological Association (2000 - 2000)
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Invited Seminars, Carnegie Institution Capital Science Lecture, International Botanical Congress, UC Davis, IGBP Congress keynote speaker, University of Connecticut Teale Lecturer, Penn State Life Sciences Consortium Colloquium, State University of New York (1999 - 1999)
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Invited testimony, California Senate Environmental Quality Committee (1999 - 1999)
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Invited Seminars, National Academy of Sciences Symposium, USDA Anniversary Celebration, UCSC Resources in Environmental Education Program, SCOPE 10th General Assembly, University of Minnesota Lindeman Lecturer (1998 - 1998)
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Invited Seminars, Oregon State University; University of Texas, Austin; Colorado State University, Eminent Ecologists Series (3 seminars); UC Santa Cruz; Stanford University; Lawrence Berkeley National Laboratory; Greater Yellowstone Coalition, Boseman (1997 - 1997)
Program Affiliations
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Center for Latin American Studies
Professional Education
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Ph.D., Oregon State University, Forest Ecology (1983)
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M.S., Indiana University, Environmental Science (1980)
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B.S., University of Wisconsin-Eau Claire, Biology (magna cum laude) (1975)
Projects
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Progress, Challenges, and Opportunities for Sustainability Science: A Workshop, The National Academies of Sciences, Engineering, and Medicine (11/30/2021 - 12/2/2021)
Location
Virtual
For More Information:
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The Nobel Prize Summit:, Nobel Foundation (4/26/2022 - 4/28/2022)
Location
Virtual
For More Information:
2024-25 Courses
- Pursuing Sustainability: Managing Complex Social Environmental Systems
SUST 210 (Aut) -
Independent Studies (6)
- Directed Individual Study in Earth Systems
EARTHSYS 297 (Aut, Win, Spr, Sum) - Directed Reading in Environment and Resources
ENVRES 398 (Aut, Win, Spr, Sum) - Directed Research
EARTHSYS 250 (Aut, Win, Spr, Sum) - Directed Research in Environment and Resources
ENVRES 399 (Aut, Win, Spr, Sum) - Graduate Research
ESS 400 (Aut, Win, Spr, Sum) - Honors Program in Earth Systems
EARTHSYS 199 (Aut, Win, Spr, Sum)
- Directed Individual Study in Earth Systems
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Prior Year Courses
2023-24 Courses
- Pursuing Sustainability: Managing Complex Social Environmental Systems
ESS 230, SUST 210 (Aut)
2022-23 Courses
- Introduction to Environmental and Resource Systems
ENVRES 280 (Spr) - Pursuing Sustainability: Managing Complex Social Environmental Systems
ESS 230, SUST 210 (Aut)
2021-22 Courses
- Introduction to Environmental and Resource Systems
ENVRES 280 (Spr) - Pursuing Sustainability: Managing Complex Social Environmental Systems
ESS 230, SUST 210 (Aut) - Sustainability Leadership Practicum
SUST 240 (Win, Spr)
- Pursuing Sustainability: Managing Complex Social Environmental Systems
Stanford Advisees
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Doctoral Dissertation Advisor (AC)
Sami Chen -
Doctoral (Program)
Sami Chen
All Publications
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CLIMATE-CHANGE-INDUCED TEMPORAL VARIATION IN PRECIPITATION INCREASES NITROGEN LOSSES FROM INTENSIVE CROPPING SYSTEMS: ANALYSIS WITH A TOY MODEL
FRONTIERS OF AGRICULTURAL SCIENCE AND ENGINEERING
2022; 9 (3): 457-464
View details for DOI 10.15302/J-FASE-2022452
View details for Web of Science ID 000860374000005
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Systems-level partnerships for sustainability at scale
NATURE SUSTAINABILITY
2021
View details for DOI 10.1038/s41893-021-00813-4
View details for Web of Science ID 000718703900001
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A Core Curriculum for Sustainability Leadership
SUSTAINABILITY
2021; 13 (19)
View details for DOI 10.3390/su131910557
View details for Web of Science ID 000707144800001
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Globalization of nitrogen deposition and ecosystem response: A 20-year perspective : This article belongs to Ambio's 50th Anniversary Collection. Theme: Eutrophication.
Ambio
2021
View details for DOI 10.1007/s13280-020-01465-y
View details for PubMedID 33537962
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Rainfall intensification increases nitrate leaching from tilled but not no-till cropping systems in the US Midwest
AGRICULTURE ECOSYSTEMS & ENVIRONMENT
2020; 290
View details for DOI 10.1016/j.agee.2019.106747
View details for Web of Science ID 000514929300006
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Natural climate solutions are not enough.
Science (New York, N.Y.)
2019; 363 (6430): 933–34
View details for PubMedID 30819953
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Interdisciplinary Teaching About Earth and the Environment for a Sustainable Future Foreword
INTERDISCIPLINARY TEACHING ABOUT EARTH AND THE ENVIRONMENT FOR A SUSTAINABLE FUTURE
2019: VII-VIII
View details for Web of Science ID 000575150900001
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Rainfall Intensification Enhances Deep Percolation and Soil Water Content in Tilled and No-Till Cropping Systems of the US Midwest
VADOSE ZONE JOURNAL
2018; 17 (1)
View details for DOI 10.2136/vzj2018.07.0128
View details for Web of Science ID 000453901300001
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Evolution of the knowledge system for agricultural development in the Yaqui Valley, Sonora, Mexico.
Proceedings of the National Academy of Sciences of the United States of America
2016; 113 (17): 4609-14
Abstract
Knowledge systems-networks of linked actors, organizations, and objects that perform a number of knowledge-related functions that link knowledge and know how with action-have played a key role in fostering agricultural development over the last 50 years. We examine the evolution of the knowledge system of the Yaqui Valley, Mexico, a region often described as the home of the green revolution for wheat, tracing changes in the functions of critical knowledge system participants, information flows, and research priorities. Most of the knowledge system's key players have been in place for many decades, although their roles have changed in response to exogenous and endogenous shocks and trends (e.g., drought, policy shifts, and price trends). The system has been agile and able to respond to challenges, in part because of the diversity of players (evolving roles of actors spanning research-decision maker boundaries) and also because of the strong and consistent role of innovative farmers. Although the agricultural research agenda in the Valley is primarily controlled from within the agricultural sector, outside voices have become an important influence in broadening development- and production-oriented perspectives to sustainability perspectives.
View details for DOI 10.1073/pnas.1011602108
View details for PubMedID 21606365
View details for PubMedCentralID PMC4855567
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Linking knowledge with action in the pursuit of sustainable water-resources management.
Proceedings of the National Academy of Sciences of the United States of America
2016; 113 (17): 4591-6
Abstract
Managing water for sustainable use and economic development is both a technical and a governance challenge in which knowledge production and sharing play a central role. This article evaluates and compares the role of participatory governance and scientific information in decision-making in four basins in Brazil, Mexico, Thailand, and the United States. Water management institutions in each of the basins have evolved during the last 10-20 years from a relatively centralized water-management structure at the state or national level to a decision structure that involves engaging water users within the basins and the development of participatory processes. This change is consistent with global trends in which states increasingly are expected to gain public acceptance for larger water projects and policy changes. In each case, expanded citizen engagement in identifying options and in decision-making processes has resulted in more complexity but also has expanded the culture of integrated learning. International funding for water infrastructure has been linked to requirements for participatory management processes, but, ironically, this study finds that participatory processes appear to work better in the context of decisions that are short-term and easily adjusted, such as water-allocation decisions, and do not work so well for longer-term, high-stakes decisions regarding infrastructure. A second important observation is that the costs of capacity building to allow meaningful stakeholder engagement in water-management decision processes are not widely recognized. Failure to appreciate the associated costs and complexities may contribute to the lack of successful engagement of citizens in decisions regarding infrastructure.
View details for DOI 10.1073/pnas.0813125107
View details for PubMedID 20080611
View details for PubMedCentralID PMC4855563
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Evidence for a historic change occurring in China
Environmental Science and Technology
2016; 50: 505-506
View details for DOI 10.1021/acs.est.5b05972
- Pursuing Sustainability: A Guide to the Science and Practice Princeton University Press. 2016
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Towards seaport resilience for climate change adaptation: Stakeholder perceptions of hurricane impacts in Gulfport (MS) and Providence (RI)
Progress in Planning
2014
View details for DOI 10.1016/j.progress.2013.11.002
- Agricultural Nutrient Use and Its Environmental Consequences The Evolving Sphere of Food Security edited by Naylor, R. L. Oxford University Press. 2014: 269–285
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Energy in the Context of Sustainability
DAEDALUS
2013; 142 (1): 146-161
View details for Web of Science ID 000313760800012
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From Global Environmental Change to Sustainability Science: Ecosystem Studies in the Yaqui Valley, Mexico
Fundamentals of Ecosystem Science
edited by Weathers, K. C., Strayer, D. L., Likens, G. E.
Academic Press, Elsevier. 2013: 233–241
View details for DOI 10.1016/b978-0-08-091680-4.00012-3
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Planetary Opportunities: A Social Contract for Global Change Science to Contribute to a Sustainable Future
BIOSCIENCE
2012; 62 (6): 603-606
View details for DOI 10.1525/bio.2012.62.6.11
View details for Web of Science ID 000305262500011
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Seeds of Sustainability: Lessons from the Birthplace of the Green Revolution in Agriculture
edited by Matson, P. A.
Island Press, Washington DC. 2012
View details for DOI 10.5822/978-1-61091-177-1
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Transformations, transport, and potential unintended consequences of high sulfur inputs to Napa Valley vineyards
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
2011; 108 (34): 14005-14010
Abstract
Unintended anthropogenic deposition of sulfur (S) to forest ecosystems has a range of negative consequences, identified through decades of research. There has been far less study of purposeful S use in agricultural systems around the world, including the application of elemental sulfur (S(0)) as a quick-reacting fungicide to prevent damage to crops. Here we report results from a three-year study of the transformations and flows of applied S(0) in soils, vegetation, and hydrologic export pathways of Napa Valley, CA vineyards, documenting that all applied S is lost from the vineyard ecosystem on an annual basis. We found that S(0) oxidizes rapidly to sulfate ( ) on the soil surface where it then accumulates over the course of the growing season. Leaf and grape tissues accounted for only 7-13% of applied S whereas dormant season cover crops accounted for 4-10% of applications. Soil S inventories were largely and ester-bonded sulfates; they decreased from 1,623 ± 354 kg ha(-1) during the dry growing season to 981 ± 526 kg ha(-1) (0-0.5 m) during the dormant wet season. Nearly all S applied to the vineyard soils is transported offsite in dissolved oxidized forms during dormant season rainstorms. Thus, the residence time of reactive S is brief in these systems, and largely driven by hydrology. Our results provide new insight into how S use in vineyards constitutes a substantial perturbation of the S cycle in Northern California winegrowing regions and points to the unintended consequences that agricultural S use may have at larger scales.
View details for DOI 10.1073/pnas.1110741108
View details for PubMedID 21825150
View details for PubMedCentralID PMC3161611
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Integrated soil-crop system management for food security
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
2011; 108 (16): 6399-6404
Abstract
China and other rapidly developing economies face the dual challenge of substantially increasing yields of cereal grains while at the same time reducing the very substantial environmental impacts of intensive agriculture. We used a model-driven integrated soil-crop system management approach to develop a maize production system that achieved mean maize yields of 13.0 t ha(-1) on 66 on-farm experimental plots--nearly twice the yield of current farmers' practices--with no increase in N fertilizer use. Such integrated soil-crop system management systems represent a priority for agricultural research and implementation, especially in rapidly growing economies.
View details for DOI 10.1073/pnas.1101419108
View details for Web of Science ID 000289680400020
View details for PubMedID 21444818
View details for PubMedCentralID PMC3080987
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Short-term fates of high sulfur inputs in Northern California vineyard soils
NUTRIENT CYCLING IN AGROECOSYSTEMS
2011; 89 (1): 135-142
View details for DOI 10.1007/s10705-010-9383-3
View details for Web of Science ID 000285365100012
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Principles of Terrestrial Ecosystem Ecology
Springer: New York. 2011
View details for DOI 10.1007/b97397
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Narrowing the agronomic yield gap with improved nitrogen use efficiency: a modeling approach
ECOLOGICAL APPLICATIONS
2010; 20 (1): 91-100
Abstract
Improving nitrogen use efficiency (NUE) in the major cereals is critical for more sustainable nitrogen use in high-input agriculture, but our understanding of the potential for NUE improvement is limited by a paucity of reliable on-farm measurements. Limited on-farm data suggest that agronomic NUE (AE(N)) is lower and more variable than data from trials conducted at research stations, on which much of our understanding of AE(N) has been built. The purpose of this study was to determine the magnitude and causes of variability in AE(N) across an agricultural region, which we refer to as the achievement distribution of AE(N). The distribution of simulated AE(N) in 80 farmers' fields in an irrigated wheat system in the Yaqui Valley, Mexico, was compared with trials at a local research center (International Wheat and Maize Improvement Center; CIMMYT). An agroecosystem simulation model WNMM was used to understand factors controlling yield, AE(N), gaseous N emissions, and nitrate leaching in the region. Simulated AE(N) in the Yaqui Valley was highly variable, and mean on-farm AE(N) was 44% lower than trials with similar fertilization rates at CIMMYT. Variability in residual N supply was the most important factor determining simulated AE(N). Better split applications of N fertilizer led to almost a doubling of AE(N), increased profit, and reduced N pollution, and even larger improvements were possible with technologies that allow for direct measurement of soil N supply and plant N demand, such as site-specific nitrogen management.
View details for Web of Science ID 000275358100007
View details for PubMedID 20349832
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Linking knowledge with action in the pursuit of sustainable water-resource management
Proceedings of the National Academy of Sciences
2010
View details for DOI 10.1073/pnas.0813125107
- America's Climate Choices: Advancing the Science of Climate Change National Research Council of the National Academies Committee (Matson, co-chair) National Aacademy Press, Washington, DC. 2010
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The Sustainability Transition
ISSUES IN SCIENCE AND TECHNOLOGY
2009; 25 (4): 39-42
View details for Web of Science ID 000267642000019
- Nutrient Cycling and Biogeochemistry Princeton Guide to Ecology edited by Levin, S. A. Princeton University Press. 2009
- Nutrient Balances in Agricultural Development Science 2009; 324 (5934): 1519-1520
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A synthesis of nitrogen transformations and transfers from land to the sea in the Yaqui Valley agricultural region of Northwest Mexico
WATER RESOURCES RESEARCH
2008; 44
View details for DOI 10.1029/2007WR006661
View details for Web of Science ID 000259609600001
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Ecosystem services: From theory to implementation
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
2008; 105 (28): 9455-9456
Abstract
Around the world, leaders are increasingly recognizing ecosystems as natural capital assets that supply life-support services of tremendous value. The challenge is to turn this recognition into incentives and institutions that will guide wise investments in natural capital, on a large scale. Advances are required on three key fronts, each featured here: the science of ecosystem production functions and service mapping; the design of appropriate finance, policy, and governance systems; and the art of implementing these in diverse biophysical and social contexts. Scientific understanding of ecosystem production functions is improving rapidly but remains a limiting factor in incorporating natural capital into decisions, via systems of national accounting and other mechanisms. Novel institutional structures are being established for a broad array of services and places, creating a need and opportunity for systematic assessment of their scope and limitations. Finally, it is clear that formal sharing of experience, and defining of priorities for future work, could greatly accelerate the rate of innovation and uptake of new approaches.
View details for DOI 10.1073/pnas.0804960105
View details for Web of Science ID 000257784700003
View details for PubMedID 18621697
View details for PubMedCentralID PMC2474530
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Reconciling carbon-cycle concepts, terminology, and methods
ECOSYSTEMS
2006; 9 (7): 1041-1050
View details for DOI 10.1007/s10021-005-0105-7
View details for Web of Science ID 000242334600001
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A case study of land reform and coastal land transformation in southern Sonora, Mexico
LAND USE POLICY
2006; 23 (4): 436-447
View details for DOI 10.1016/j.landusepol.2005.04.002
View details for Web of Science ID 000239322300007
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The influence of tropical plant diversity and composition on soil microbial communities
MICROBIAL ECOLOGY
2006; 52 (2): 226-238
Abstract
There is growing interest in understanding the linkages between above- and belowground communities, and very little is known about these linkages in tropical systems. Using an experimental site at La Selva Biological Station, Costa Rica, we examined whether plant diversity, plant community composition, and season influenced microbial communities. We also determined whether soil characteristics were related to differences in microbial communities. Phospholipid fatty acid (PLFA) composition revealed that microbial community composition differed across a plant diversity gradient (plots contained 1, 3, 5, or over 25 species). Plant species identity also was a factor influencing microbial community composition; PLFA composition significantly varied among monocultures, and among three-species combinations that differed in plant species composition. Differences among treatments within each of these comparisons were apparent in all four sampling dates of the study. There was no consistent shift in microbial community composition between wet and dry seasons, although we did see significant changes over time. Of all measured soil characteristics, soil C/N was most often associated with changes in microbial community composition across treatment groups. Our findings provide evidence for human alteration of soil microbial communities via the alteration of plant community composition and diversity and that such changes are mediated in part by changes in soil carbon quality.
View details for DOI 10.1007/s00248-006-9115-z
View details for Web of Science ID 000240481000007
View details for PubMedID 16897297
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Business strategies for conservation on private lands: Koa forestry as a case study
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
2006; 103 (26): 10140-10145
Abstract
Innovative financial instruments are being created to reward conservation on private, working lands. Major design challenges remain, however, to make investments in biodiversity and ecosystem services economically attractive and commonplace. From a business perspective, three key financial barriers for advancing conservation land uses must frequently be addressed: high up-front costs, long time periods with no revenue, and high project risk due to long time horizons and uncertainty. We explored ways of overcoming these barriers on grazing lands in Hawaii by realizing a suite of timber and conservation revenue streams associated with their (partial) reforestation. We calculated the financial implications of alternative strategies, focusing on Acacia koa ("koa") forestry because of its high conservation and economic potential. Koa's timber value alone creates a viable investment (mean net present value = $453/acre), but its long time horizon and poor initial cash flow pose formidable challenges for landowners. At present, subsidy payments from a government conservation program targeting benefits for biodiversity, water quality, and soil erosion have the greatest potential to move landowners beyond the tipping point in favor of investments in koa forestry, particularly when combined with future timber harvest (mean net present value = $1,661/acre). Creating financial mechanisms to capture diverse ecosystem service values through time will broaden opportunities for conservation land uses. Governments, nongovernmental organizations, and private investors have roles to play in catalyzing this transition by developing new revenue streams that can reach a broad spectrum of landowners.
View details for DOI 10.1073/pnas.0600391103
View details for Web of Science ID 000238872900070
View details for PubMedID 16782816
View details for PubMedCentralID PMC1502519
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Agricultural intensification: Will land spared from farming be land spared for nature?
CONSERVATION BIOLOGY
2006; 20 (3): 709-710
View details for DOI 10.1111/j.1523-1739.2006.00442.x
View details for Web of Science ID 000238313200028
View details for PubMedID 16909562
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Variations in soil N cycling and trace gas emissions in wet tropical forests
OECOLOGIA
2006; 146 (4): 584-594
Abstract
We used a previously described precipitation gradient in a tropical montane ecosystem of Hawai'i to evaluate how changes in mean annual precipitation (MAP) affect the processes resulting in the loss of N via trace gases. We evaluated three Hawaiian forests ranging from 2200 to 4050 mm year-1 MAP with constant temperature, parent material, ecosystem age, and vegetation. In situ fluxes of N2O and NO, soil inorganic nitrogen pools (NH4+ and NO3-), net nitrification, and net mineralization were quantified four times over 2 years. In addition, we performed 15N-labeling experiments to partition sources of N2O between nitrification and denitrification, along with assays of nitrification potential and denitrification enzyme activity (DEA). Mean NO and N2O emissions were highest at the mesic end of the gradient (8.7+/-4.6 and 1.1+/-0.3 ng N cm-2 h-1, respectively) and total oxidized N emitted decreased with increased MAP. At the wettest site, mean trace gas fluxes were at or below detection limit (
View details for DOI 10.1007/s00442-005-0222-1
View details for Web of Science ID 000234145300010
View details for PubMedID 16205956
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Plant communities, soil microorganisms, and soil carbon cycling: Does altering the world belowground matter to ecosystem functioning?
ECOSYSTEMS
2005; 8 (8): 928-940
View details for DOI 10.1007/s10021-005-0047-0
View details for Web of Science ID 000233874000005
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Analysis of wheat yield and climatic trends in Mexico
FIELD CROPS RESEARCH
2005; 94 (2-3): 250-256
View details for DOI 10.1016/j.fcr.2005.01.007
View details for Web of Science ID 000232196400012
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Consequences of nitrogen additions for soil losses from wet tropical forests
ECOLOGICAL APPLICATIONS
2005; 15 (5): 1629-1648
View details for Web of Science ID 000232322600013
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Effects of a diel oxygen cycle on nitrogen transformations and greenhouse gas emissions in a eutrophied subtropical stream
AQUATIC SCIENCES
2005; 67 (3): 308-315
View details for DOI 10.1007/s00027-005-0776-3
View details for Web of Science ID 000232030000008
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Agricultural runoff fuels large phytoplankton blooms in vulnerable areas of the ocean
NATURE
2005; 434 (7030): 211-214
Abstract
Biological productivity in most of the world's oceans is controlled by the supply of nutrients to surface waters. The relative balance between supply and removal of nutrients--including nitrogen, iron and phosphorus--determines which nutrient limits phytoplankton growth. Although nitrogen limits productivity in much of the ocean, large portions of the tropics and subtropics are defined by extreme nitrogen depletion. In these regions, microbial denitrification removes biologically available forms of nitrogen from the water column, producing substantial deficits relative to other nutrients. Here we demonstrate that nitrogen-deficient areas of the tropical and subtropical oceans are acutely vulnerable to nitrogen pollution. Despite naturally high nutrient concentrations and productivity, nitrogen-rich agricultural runoff fuels large (54-577 km2) phytoplankton blooms in the Gulf of California. Runoff exerts a strong and consistent influence on biological processes, in 80% of cases stimulating blooms within days of fertilization and irrigation of agricultural fields. We project that by the year 2050, 27-59% of all nitrogen fertilizer will be applied in developing regions located upstream of nitrogen-deficient marine ecosystems. Our findings highlight the present and future vulnerability of these ecosystems to agricultural runoff.
View details for DOI 10.1038/nature03370
View details for Web of Science ID 000227494500044
View details for PubMedID 15758999
- People, land use and environment in the Yaqui Valley, Sonora, Mexico Population, Land Use, and Environment edited by Entwisle, B., Stern, P. National Research Council, Washington, DC. 2005: 238–264
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Diversity and composition of tropical soil nitrifiers across a plant diversity gradient and among land-use types
ECOLOGY LETTERS
2004; 7 (8): 684-694
View details for DOI 10.1111/j.1461-0248.2004.00628.x
View details for Web of Science ID 000222716600009
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Global change and the earth system: A planet under pressure (Book Review)
NATURE
2004; 429 (6989): 244-245
View details for DOI 10.1038/429244a
View details for Web of Science ID 000221505900019
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A method for quantifying vulnerability, applied to the agricultural system of the Yaqui Valley, Mexico
GLOBAL ENVIRONMENTAL CHANGE-HUMAN AND POLICY DIMENSIONS
2003; 13 (4): 255-267
View details for DOI 10.1016/S0959-3780(03)00054-2
View details for Web of Science ID 000187033500003
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Erosion and the rejuvenation of weathering-derived nutrient supply in an old tropical landscape
ECOSYSTEMS
2003; 6 (8): 762-772
View details for DOI 10.1007/s10021-003-0199-8
View details for Web of Science ID 000187308500005
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Nutrient losses over four million years of tropical forest development
ECOLOGY
2003; 84 (9): 2231-2255
View details for Web of Science ID 000185226100001
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Effect of land use change on soil carbon in Hawaii
BIOGEOCHEMISTRY
2003; 65 (2): 213-232
View details for Web of Science ID 000185796200004
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Patterns and controls of nitrous oxide emissions from waters draining a subtropical agricultural valley
GLOBAL BIOGEOCHEMICAL CYCLES
2003; 17 (3)
View details for DOI 10.1029/2002GB001991
View details for Web of Science ID 000184805200001
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A framework for vulnerability analysis in sustainability science
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
2003; 100 (14): 8074-8079
Abstract
Global environmental change and sustainability science increasingly recognize the need to address the consequences of changes taking place in the structure and function of the biosphere. These changes raise questions such as: Who and what are vulnerable to the multiple environmental changes underway, and where? Research demonstrates that vulnerability is registered not by exposure to hazards (perturbations and stresses) alone but also resides in the sensitivity and resilience of the system experiencing such hazards. This recognition requires revisions and enlargements in the basic design of vulnerability assessments, including the capacity to treat coupled human-environment systems and those linkages within and without the systems that affect their vulnerability. A vulnerability framework for the assessment of coupled human-environment systems is presented.
View details for DOI 10.1073/pnas.1231335100
View details for Web of Science ID 000184222500009
View details for PubMedID 12792023
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Illustrating the coupled human-environment system for vulnerability analysis: Three case studies
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
2003; 100 (14): 8080-8085
Abstract
The vulnerability framework of the Research and Assessment Systems for Sustainability Program explicitly recognizes the coupled human-environment system and accounts for interactions in the coupling affecting the system's responses to hazards and its vulnerability. This paper illustrates the usefulness of the vulnerability framework through three case studies: the tropical southern Yucatán, the arid Yaqui Valley of northwest Mexico, and the pan-Arctic. Together, these examples illustrate the role of external forces in reshaping the systems in question and their vulnerability to environmental hazards, as well as the different capacities of stakeholders, based on their access to social and biophysical capital, to respond to the changes and hazards. The framework proves useful in directing attention to the interacting parts of the coupled system and helps identify gaps in information and understanding relevant to reducing vulnerability in the systems as a whole.
View details for DOI 10.1073/pnas.1231334100
View details for Web of Science ID 000184222500010
View details for PubMedID 12815106
View details for PubMedCentralID PMC166185
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Nutrient status of tropical rain forests influences soil N dynamics after N additions
ECOLOGICAL MONOGRAPHS
2003; 73 (1): 107-129
View details for Web of Science ID 000181177700006
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Agricultural sustainability and intensive production practices
NATURE
2002; 418 (6898): 671-677
Abstract
A doubling in global food demand projected for the next 50 years poses huge challenges for the sustainability both of food production and of terrestrial and aquatic ecosystems and the services they provide to society. Agriculturalists are the principal managers of global usable lands and will shape, perhaps irreversibly, the surface of the Earth in the coming decades. New incentives and policies for ensuring the sustainability of agriculture and ecosystem services will be crucial if we are to meet the demands of improving yields without compromising environmental integrity or public health.
View details for DOI 10.1038/nature01014
View details for Web of Science ID 000177305600053
View details for PubMedID 12167873
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Policy implications of human-accelerated nitrogen cycling (Reprinted from Biogeochemistry, vol 52, pg 281-320, 2001)
BIOGEOCHEMISTRY
2002; 57 (1): 477-516
View details for Web of Science ID 000176001500016
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The globalization of nitrogen deposition: Consequences for terrestrial ecosystems
2nd International Nitrogen Conference
ROYAL SWEDISH ACAD SCIENCES. 2002: 113–19
Abstract
The sources and distribution of anthropogenic nitrogen (N), including N fertilization and N fixed during fossil-fuel combustion, are rapidly becoming globally distributed. Responses of terrestrial ecosystems to anthropogenic N inputs are likely to vary geographically. In the temperate zone, long-term N inputs can lead to increases in plant growth and also can result in over-enrichment with N, eventually leading to increased losses of N via solution leaching and trace-gas emissions, and in some cases, to changes in species composition and to ecosystem decline. However, not all ecosystems respond to N deposition similarly; their response depends on factors such as successional state, ecosystem type, N demand or retention capacity, land-use history, soils, topography, climate, and the rate, timing, and type of N deposition. We point to some of the conditions under which anthropogenic impacts can be significant, some of the factors that control variations in response, and some areas where uncertainty is large due to limited information.
View details for Web of Science ID 000175937500009
View details for PubMedID 12077999
- Principles of Terrestrial Ecosystem Ecology Springer-Verlag, New York. 2002
- Environmental variables controlling trace gas emissions from forests: Acid Precipitation and Nitrogen Deposition Trace Gas Exchange in Forest Ecosystems edited by Papen, H., Gasche, R., Rennenberg, H. Kluwer Academic Publishers, The Netherlands. 2002: 279–306
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Carbon cycling and soil carbon storage in mesic to wet Hawaiian montane forests
ECOLOGY
2001; 82 (11): 3182-3196
View details for Web of Science ID 000172139500016
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Net primary productivity and nutrient cycling across a mesic to wet precipitation gradient in Hawaiian montane forest.
Oecologia
2001; 128 (3): 431-442
Abstract
Variation in rainfall in humid tropical forests has the potential to alter patterns of primary productivity andnutrient cycling. Net primary productivity (NPP) and nutrient cycling were measured at six sites similar in temperature regime, parent material, ecosystem age, vegetation and topographical relief, while mean annual precipitation (MAP) varied from 2,200 toover 5,000 mm/year. Aboveground NPP declined by a factor of 2.2 with increased MAP across the precipitation gradient. Increased water availability in excess of plant demand is likely to have decreased the other resources for plant growth. Patterns of nutrient cycling and other factors that affect plant growth suggest that increased nutrient limitation in wetter sites could be the direct cause of the decline in NPP. Foliar nitrogen (N) and soil N availability decreased with increased precipitation, corresponding with the decrease in forest growth. In contrast, patterns of foliar and soil phosphorus (P) did not correspond with the decrease in growth; P availability was highest at either end of the precipitation gradient and lowest across the middle. Natural abundance of δ(15)N in foliage and soils decreased with increased precipitation, further supporting the idea that N availability declined. Decreased N availability was associated with a decrease in soil reduction-oxidation potentials. Oxygen limitation in soil microsites was a factor at all sites, but became increasingly widespread at higher MAP regimes. There was no strong evidence that soil oxygen availability, expressed in foliar δ(13)C values, directly limited plant growth. In addition foliar micronutrients either showed no change (Ca, Mg) or declined (Al, Fe) with increased MAP while soil pH was low but constant, suggesting that toxic elements in the soil solution were also not direct factors in decreased plant growth across the gradient. Thus, the decline in NPP with associated MAP appeared to be most directly associated with decreased N availability in these humid forests. Fluctuating anaerobic conditions that increased in intensity and duration with increased rainfall could be a mechanism that slows decomposition and N mineralization while concurrently increasing P solubility from soil mineral-bound pools.
View details for DOI 10.1007/s004420100671
View details for PubMedID 24549913
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Identifying the agricultural imprint on the global N2O budget using stable isotopes
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES
2001; 106 (D9): 9869-9878
View details for Web of Science ID 000168731900017
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Physical and biogeochemical controls over terrestrial ecosystem responses to nitrogen deposition
BIOGEOCHEMISTRY
2001; 54 (1): 1-39
View details for Web of Science ID 000168666900001
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Environment and development - Sustainability science
SCIENCE
2001; 292 (5517): 641-642
View details for Web of Science ID 000168478300024
View details for PubMedID 11330321
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Policy implications of human-accelerated nitrogen cycling
BIOGEOCHEMISTRY
2001; 52 (3): 281-320
View details for Web of Science ID 000167397100003
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Environmental challenges for the twenty-first century: Interacting challenges and integrative solutions
ECOLOGY LAW QUARTERLY
2001; 27 (4): 1179-1190
View details for Web of Science ID 000168506300011
- Atmospheric chemistry and greenhouse gases Climate Change 2001: The Scientific Basis edited by Houghton et al Cambridge University Press, Cambridge, UK. 2001
- Land use change: Global effects of local changes Earth System Science: Patterns and Processes edited by Ernst, W. G. Cambridge University Press, Cambridge UK. 2001
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Earth system science: An integrated approach
Environment: Science and Policy for Sustainable Development
2001; 43 (8): 21-27
View details for DOI 10.1080/00139150109604504
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Nitrogen leaching and soil nitrate, nitrite, and ammonium levels under irrigated wheat in Northern Mexico
NUTRIENT CYCLING IN AGROECOSYSTEMS
2001; 61 (3): 223-236
View details for Web of Science ID 000173315100002
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The atmospheric commons
Symposium on Protecting the Commons - A Framework for Resource Management in the Americas
ISLAND PRESS. 2001: 219–239
View details for Web of Science ID 000168275600011
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Matson panel: Questions & answers
ECOLOGY LAW QUARTERLY
2001; 27 (4): 1251-1260
View details for Web of Science ID 000168506300014
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Distinguishing nitrification and denitrification sources of N2O in a Mexican wheat system using N-15
ECOLOGICAL APPLICATIONS
2000; 10 (2): 506-514
View details for Web of Science ID 000086008300016
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NLOSS: A mechanistic model of denitrified N2O and N-2 evolution from soil
SOIL SCIENCE
2000; 165 (3): 237-249
View details for Web of Science ID 000086182600006
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Biogenic Trace Gas Exchange
Methods in Ecosystem Science
edited by Sala, O., Jackson, R., Mooney, H., Howarth, R.
Springer-Verlag, New York. 2000
View details for DOI 10.1007/978-1-4612-1224-9_16
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Nitrogen oxide emissions after nitrogen additions in tropical forests
NATURE
1999; 400 (6740): 152-155
View details for Web of Science ID 000081324900050
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The globalization of N deposition: ecosystem consequences in tropical environments
BIOGEOCHEMISTRY
1999; 46 (1-3): 67-83
View details for Web of Science ID 000080776300005
- Confronting climate change in California: Ecological impacts on the Golden State Union of Concerned Scientists, Cambridge, MA and Ecological Society of America, Washington, DC. 1999
- Our Common Journey: A transition toward sustainability National Research Council Board on Sustainable Development National Academy Press, Washington, DC. 1999
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Integration of environmental, agronomic, and economic aspects of fertilizer management
SCIENCE
1998; 280 (5360): 112-115
Abstract
Nitrogen fertilization is a substantial source of nitrogen-containing trace gases that have both regional and global consequences. In the intensive wheat systems of Mexico, typical fertilization practices lead to extremely high fluxes of nitrous oxide (N2O) and nitric oxide (NO). In experiments, lower rates of nitrogen fertilizer, applied later in the crop cycle, reduced the loss of nitrogen without affecting yield and grain quality. Economic analyses projected this alternative practice to save 12 to 17 percent of after-tax profits. A knowledge-intensive approach to fertilizer management can substitute for higher levels of inputs, saving farmers money and reducing environmental costs.
View details for Web of Science ID 000072885100048
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Within-system element cycles, input-output budgets, and nutrient limitation
7th Cary Conference
SPRINGER. 1998: 432–451
View details for Web of Science ID 000076391800018
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Mangrove biodiversity and ecosystem function
International Workshop on Biodiversity and Ecosystem Function in Marine Ecosystems
WILEY-BLACKWELL PUBLISHING, INC. 1998: 3–14
View details for Web of Science ID 000074252300002
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Human alteration of the global nitrogen cycle: Sources and consequences
ECOLOGICAL APPLICATIONS
1997; 7 (3): 737-750
View details for Web of Science ID A1997XQ08100002
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NOx emissions from soils and its consequences for the atmosphere and biosphere
Nutrient Cycling in Agroecosystems
1997; 48: 1-6
View details for DOI 10.1023/A:1009730430912
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Agricultural intensification and ecosystem properties
Science
1997; 277: 504-509
View details for DOI 10.1126/science.277.5325.504
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Fertilization practices and soil variations control nitrogen oxide emissions from tropical sugar cane
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES
1996; 101 (D13): 18533-18545
View details for Web of Science ID A1996VD22700001
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Nitrous oxide emission controls and inorganic nitrogen dynamics in fertilized tropical agricultural soils
SOIL SCIENCE SOCIETY OF AMERICA JOURNAL
1996; 60 (4): 1145-1152
View details for Web of Science ID A1996UW89000027
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High spectral resolution reflectance of douglas fir grown under different fertilization treatments: Experiment design and treatment effects
REMOTE SENSING OF ENVIRONMENT
1996; 55 (3): 217-228
View details for Web of Science ID A1996UD86600004
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Process modeling of controls on nitrogen trace gas emissions from soils worldwide
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES
1996; 101 (D1): 1361-1377
View details for Web of Science ID A1996TR61600003
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Nitrogen trace gas responses to fertilization in sugar cane ecosystems
Journal of Geophysical Research
1996; 101: 18533-18546
View details for DOI 10.1029/96jd01536
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NOx emissions from soil: Implications for air quality modeling in agricultural regions
ANNUAL REVIEW OF ENERGY AND THE ENVIRONMENT
1996; 21: 311-346
View details for Web of Science ID A1996VW79300014
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Trace gas emissions in a tropical deciduous forest ecosystem
Tropical Deciduous Forest Ecosystems
edited by Mooney, H., Medina, C.
Springer-Verlag, New York. 1996
View details for DOI 10.1017/cbo9780511753398.016
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High spectral resolution reflectance of Douglas-fir grown under different fertilization treatments: experiment design and treatment effects
Remote Sensing of Environment
1996; 55: 217-228
View details for DOI 10.1016/s0034-4257(95)00222-7
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NOx emission from soil: implications for air quality modeling in agricultural regions
Annual Review of Energy and Environment
1996; 21: 311-46
View details for DOI 10.1146/annurev.energy.21.1.311
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ECOLOGICAL CONTROLS OVER MONOTERPENE EMISSIONS FROM DOUGLAS-FIR (PSEUDOTSUGA-MENZIESII)
ECOLOGY
1995; 76 (8): 2640-2647
View details for Web of Science ID A1995TJ31200023
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MAPPING THE LAND-SURFACE FOR GLOBAL ATMOSPHERE-BIOSPHERE MODELS - TOWARD CONTINUOUS DISTRIBUTIONS OF VEGETATIONS FUNCTIONAL-PROPERTIES
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES
1995; 100 (D10): 20867-20882
View details for Web of Science ID A1995TD50700007
- Biogenic Trace gases: Measuring Emissions from Soil and Water edited by Matson, P. A., Harriss, R. C. Blackwell Scientific Publishing, Cambridge, UK. 1995
- Nitrogen fertilizer management: consequences for N2O and NO emissions in Mexican irrigated wheat 9th Nitrogen Workshop, Technische Universit, Braunschweig, Germany, 1995: 513–534
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SEASONAL PATTERNS AND REMOTE SPECTRAL ESTIMATION OF CANOPY CHEMISTRY ACROSS THE OREGON TRANSECT
ECOLOGICAL APPLICATIONS
1994; 4 (2): 280-298
View details for Web of Science ID A1994NH00100011
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Seasonal biochemical changes in coniferous forest canopies and their response to fertilization
Tree Physiology
1994; 14: 564-574
View details for DOI 10.1093/treephys/14.6.563
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Biosphere-atmosphere exchange of trace gases in the tropics: Evaluating the effects of land use change
Global Atmospheric-Biospheric Chemistry
edited by Prinn, R.
Plenum Press, New York. 1994
View details for DOI 10.1007/978-1-4615-2524-0_7
- Evaluation of soild database attributes in a terrestrial carbon cycle model: implications for global change research Environmental Systems Analysis edited by Michener, W. K. Taylor and Francis, UK. 1994
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ACCOMPLISHMENTS AND FUTURE CHALLENGES - AN IGAC PANEL DISCUSSION
1st Scientific Conference of the International-Global-Atmospheric-Chemistry (IGAC)-Project
PLENUM PRESS DIV PLENUM PUBLISHING CORP. 1994: 249–257
View details for Web of Science ID A1994BB71X00014
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TERRESTRIAL ECOSYSTEM PRODUCTION - A PROCESS MODEL-BASED ON GLOBAL SATELLITE AND SURFACE DATA
GLOBAL BIOGEOCHEMICAL CYCLES
1993; 7 (4): 811-841
View details for Web of Science ID A1993MM23400006
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DEVELOPING AN INTEGRATED APPROACH
FOOD POLICY
1993; 18 (3): 249-251
View details for Web of Science ID A1993LJ79000008
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NUTRIENT LIMITATIONS TO PLANT-GROWTH DURING PRIMARY SUCCESSION IN HAWAII-VOLCANOS-NATIONAL-PARK
BIOGEOCHEMISTRY
1993; 23 (3): 197-215
View details for Web of Science ID A1993MV60300003
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Prospects for Scaling
Scaling Physiological Properties
edited by Field, C., Ehlringer, J.
Academic Press, New York. 1993: 223–229
View details for DOI 10.1016/b978-0-12-233440-5.50020-8
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AGRICULTURE, THE GLOBAL NITROGEN-CYCLE, AND TRACE GAS FLUX
10TH INTERNATIONAL SYMP ON ENVIRONMENTAL BIOGEOCHEMISTRY
CHAPMAN & HALL. 1993: 193–208
View details for Web of Science ID A1993BZ08Y00010
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Statistical methods: An upgrade for ecologists
Ecology
1993; 74: 1615-1617
View details for DOI 10.2307/1939919
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Food, conservation, and global environmental change: Is compromise possible?
Eos
1993; 74: 178-179
View details for DOI 10.1016/0306-9192(93)90082-m
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PROCESSES REGULATING SOIL EMISSIONS OF NO AND N2O IN A SEASONALLY DRY TROPICAL FOREST
ECOLOGY
1993; 74 (1): 130-139
View details for Web of Science ID A1993KF77500014
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TROPICAL FORESTS AND TRACE GASES - POTENTIAL INTERACTIONS BETWEEN TROPICAL BIOLOGY AND THE ATMOSPHERIC SCIENCES
BIOTROPICA
1992; 24 (2): 233-239
View details for Web of Science ID A1992JB55000003
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EFFECTS OF HARVEST INTENSITY, SITE PREPARATION, AND HERBICIDE USE ON SOIL-NITROGEN TRANSFORMATIONS IN A YOUNG LOBLOLLY-PINE PLANTATION
FOREST ECOLOGY AND MANAGEMENT
1992; 49 (3-4): 277-292
View details for Web of Science ID A1992JB68000008
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RESPONSES OF TERRESTRIAL ECOSYSTEMS TO THE CHANGING ATMOSPHERE - A RESOURCE-BASED APPROACH
ANNUAL REVIEW OF ECOLOGY AND SYSTEMATICS
1992; 23: 201-235
View details for Web of Science ID A1992JZ28100009
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SOIL-NITROGEN CYCLING AND NITROUS-OXIDE FLUX IN A ROCKY-MOUNTAIN DOUGLAS-FIR FOREST - EFFECTS OF FERTILIZATION, IRRIGATION AND CARBON ADDITION
BIOGEOCHEMISTRY
1992; 18 (2): 101-117
View details for Web of Science ID A1992KT58000003
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Soil nitrogen cycling and nitrous oxide fluxes in fertilized Rocky Mountain Douglas-fir forests
Biogeochemistry
1992; 18: 101-117
View details for DOI 10.1007/bf00002705
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Management effects on soil nitrogen transformations in a young loblolly pine plantation
Forest Ecology and Management
1992; 49: 277-292
View details for DOI 10.1016/0378-1127(92)90141-u
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The relative contributions of top-down and bottom-up forces in population and community ecology
Ecology
1992; 73: 723
View details for DOI 10.2307/1940151
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Biogeochemistryand perspectives on change
Ecology
1992; 73: 712-713
View details for DOI 10.2307/1940783
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Ratio dependent predator-prey theory
Ecology
1992; 73: 1529
View details for DOI 10.2307/1940004
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WHAT DOES REMOTE-SENSING DO FOR ECOLOGY
ECOLOGY
1991; 72 (6): 1918-1922
View details for Web of Science ID A1991GV76900002
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Nitrogen transformations and nitrous oxide flux in a tropical deciduous forest in México.
Oecologia
1991; 88 (3): 362-366
Abstract
Emissions of nitrous oxide and soil nitrogen pools and transformations were measured over an annual cycle in two forests and one pasture in tropical deciduous forest near Chamela, México. Nitrous oxide flux was moderately high (0.5-2.5 ng cm-2 h-1) during the wet season and low (<0.3 ng cm-2 h-1) during the dry season. Annual emissions of nitrogen as nitrous oxide were calculated to be 0.5-0.7 kg ha-1 y-1, with no substantial difference between the forests and pasture. Wetting of dry soil caused a large but short-lived pulse of N2O flux that accounted for <2% of annual flux. Variation in soil water through the season was the primary controlling factor for pool sizes of ammonium and nitrate, nitrogen transformations, and N2O flux.
View details for DOI 10.1007/BF00317579
View details for PubMedID 28313797
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EFFECTS OF TROPICAL DEFORESTATION ON GLOBAL AND REGIONAL ATMOSPHERIC CHEMISTRY - COMMENT
CLIMATIC CHANGE
1991; 19 (1-2): 159-162
View details for Web of Science ID A1991GH18200015
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SOIL EMISSIONS OF NITRIC-OXIDE IN A SEASONALLY DRY TROPICAL FOREST OF MEXICO
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES
1991; 96 (D8): 15439-15445
View details for Web of Science ID A1991GC31400015
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THE SUSTAINABLE BIOSPHERE INITIATIVE - AN ECOLOGICAL RESEARCH AGENDA - A REPORT FROM THE ECOLOGICAL-SOCIETY-OF-AMERICA
ECOLOGY
1991; 72 (2): 371-412
View details for Web of Science ID A1991FE24800001
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Interactions of behavioral and evolutionary ecology in changing environments
Ecology
1991; 72: 1179
View details for DOI 10.2307/1941090
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ANNUAL NITROUS-OXIDE FLUX AND SOIL-NITROGEN CHARACTERISTICS IN SAGEBRUSH STEPPE ECOSYSTEMS
BIOGEOCHEMISTRY
1991; 14 (1): 1-12
View details for Web of Science ID A1991GV88600001
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Trace gas emissions by plants: A summary
Trace Gas Emission by Plants
edited by Sharkey, T., Holland, E., Mooney, H. A.
Academic Press, San Diego, CA. 1991: 341–343
View details for DOI 10.1016/b978-0-12-639010-0.50020-0
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The sustainable biosphere initiative: An ecological research agenda
Ecology
1991; 72: 371-412
View details for DOI 10.2307/2937183
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GRADIENT ANALYSIS OF ECOSYSTEMS
3RD CARY CONF ON COMPARATIVE ANALYSES OF ECOSYSTEMS
SPRINGER-VERLAG. 1991: 287–298
View details for Web of Science ID A1991BT67C00014
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The future of remote sensing in ecological studies
Ecology
1991; 72: 1917
View details for DOI 10.2307/1941545
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Annual nitrous oxide flux and soil nitrogen characteristics in sagebrush steppe ecosystems
Biogeochemistry
1991; 1: 1-12
View details for DOI 10.1007/bf00000883
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ECOSYSTEM APPROACH TO A GLOBAL NITROUS-OXIDE BUDGET
BIOSCIENCE
1990; 40 (9): 667-671
View details for Web of Science ID A1990DZ70100009
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C in Hawaiian Metrosideros polymorpha: a case of internal resistance?
Oecologia
1990; 84 (3): 362-370
Abstract
Sun leaves of Metrosideros polymorpha were collected in 51 sites on 9 lava flows that represented gradients of elevation, precipitation, substrate age, and substrate texture on Mauna Loa volcano, Hawai'i. Leaf mass per unit leaf area increased with increasing elevation on all flows, while foliar nitrogen concentration decreased with increasing elevation and increased with increasing substrate age. Foliar δ(13)C became less negative with increasing elevation on the wet east-side lava flows, but not the dry northwest-side flows; it did not reflect patterns of precipitation or presumed water availability. δ(13)C was very strongly correlated with leaf mass per area across all of the sites. Limited gas-exchange information suggested that calculated ci/ca did not decrease with elevation in association with less-negative δ(13)C, and photosynthesis per unit of nitrogen was significantly reduced in high-elevation plants. These results are consistent with a substantial internal resistance to CO2 diffusion in the thick Metrosideros polymorpha leaves in high elevation sites.
View details for DOI 10.1007/BF00329760
View details for PubMedID 28313026
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SOURCES OF VARIATION IN NITROUS-OXIDE FLUX FROM AMAZONIAN ECOSYSTEMS
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES
1990; 95 (D10): 16789-16798
View details for Web of Science ID A1990EB20200036
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VARIATION IN FOLIAR DELTA-C-13 IN HAWAIIAN METROSIDEROS-POLYMORPHA - A CASE OF INTERNAL RESISTANCE
OECOLOGIA
1990; 84 (3): 362-370
Abstract
Sun leaves of Metrosideros polymorpha were collected in 51 sites on 9 lava flows that represented gradients of elevation, precipitation, substrate age, and substrate texture on Mauna Loa volcano, Hawai'i. Leaf mass per unit leaf area increased with increasing elevation on all flows, while foliar nitrogen concentration decreased with increasing elevation and increased with increasing substrate age. Foliar δ(13)C became less negative with increasing elevation on the wet east-side lava flows, but not the dry northwest-side flows; it did not reflect patterns of precipitation or presumed water availability. δ(13)C was very strongly correlated with leaf mass per area across all of the sites. Limited gas-exchange information suggested that calculated ci/ca did not decrease with elevation in association with less-negative δ(13)C, and photosynthesis per unit of nitrogen was significantly reduced in high-elevation plants. These results are consistent with a substantial internal resistance to CO2 diffusion in the thick Metrosideros polymorpha leaves in high elevation sites.
View details for Web of Science ID A1990EC00700009
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Remote sensing and trace gas fluxes
Remote Sensing of Biosphere Functioning
edited by Hobbs, R., Mooney, H. A.
Springer-Verlag, New York. 1990: 157–167
View details for DOI 10.1007/978-1-4612-3302-2_8
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The use of urban gradients in ecological studies
Ecology
1990; 71: 1231
View details for DOI 10.2307/1938258
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The Amazon boundary layer experiment: Wet season 1987
Journal of Geophysical Research
1990; 95: 16721-16736
View details for DOI 10.1029/jd095id10p16721
- Terrestrial Biosphere Exchange with Global Atmospheric Chemistry edited by Matson, P. A., Ojima, D. S. IGBP Report No. 13. Stockholm 103pp.. 1990
- Use of the exotic tree Myrica faya by native and exotic birds in Hawaii Volcanoes National Park Pacific Science 1990; 44: 88-93
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Plant-soil interactions during primary succession at Hawaii Volcanoes National Park
Oecologica
1990; 85: 241-246
View details for DOI 10.1007/bf00319408
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Statistical analysis of ecological response to large-scale perturbabion
Ecology
1990; 71: 2037
View details for DOI 10.2307/1938616
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NITROUS OXIDE FLUX FROM DRY TROPICAL FORESTS
GLOBAL BIOGEOCHEMICAL CYCLES
1989; 3 (4): 375-382
View details for DOI 10.1029/GB003i004p00375
View details for Web of Science ID 000211480500007
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RELATIONSHIPS BETWEEN SOIL MICROBIAL PROPERTIES AND ABOVE-GROUND STAND CHARACTERISTICS OF CONIFER FORESTS IN OREGON
BIOGEOCHEMISTRY
1989; 8 (3): 265-281
View details for Web of Science ID A1989CG00400005
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NITROGEN AVAILABILITY AND NITRIFICATION DURING SUCCESSION - PRIMARY, SECONDARY, AND OLD-FIELD SERES
PLANT AND SOIL
1989; 115 (2): 229-239
View details for Web of Science ID A1989AG59200008
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ESTIMATING BIOGEOCHEMICAL FLUXES ACROSS SAGEBRUSH-STEPPE LANDSCAPES WITH THEMATIC MAPPER IMAGERY
REMOTE SENSING OF ENVIRONMENT
1989; 28: 121-?
View details for Web of Science ID A1989AZ37900013
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Nitrous oxide fluxes from seasonally dry tropical forests
Global Biogeochemical Cycles
1989; 3: 375-382
View details for DOI 10.1029/gb003i004p00375
- Regional extrapolation of trace gas flux based on soils and ecosystems Exchange of Trace Gases Between Terrestrial Ecosystems and the Atmosphere edited by Andreae, M. D., Schimel, D. S. Springer-Verlag, New York. 1989: 97–108
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Estimating biogeochemical fluxes across sagaebrush-steppe landscape with thematic mapper imagery
Remote Sensing of Environment
1989; 28: 121-129
View details for DOI 10.1016/0034-4257(89)90110-7
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Relationships among soil microbial properties and above ground stand characteristics of conifer forests in Oregon
Biogeochemistry
1989; 8: 265-281
View details for DOI 10.1007/bf00002892
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Nitrous oxide flux following tropical land clearing
Global Biogeochemical Cycles
1989; 3: 281-285
View details for DOI 10.1029/gb003i003p00281
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Elevational and age gradients in hawaiian montane rainforest: foliar and soil nutrients.
Oecologia
1988; 77 (4): 565-570
Abstract
Soils and plants were sampled along an elevational gradient from 265-1675 m on a 133-and a 3100-year-old lava flow on Mauna Loa, Hawai'i. Soil organic matter and nutrients accumulated more rapidly at low elevation on the young flow, but reached higher levels at higher elevation on the old flow. Foliar nitrogen and phosphorus concentrations were less and specific leaf weight greater for Metrosideros polymorpha leaves collected at high versus low elevations and on the young versus the old flow. Foliar δ13C was strongly correlated with specific leaf weight across the range of sites sampled.
View details for DOI 10.1007/BF00377275
View details for PubMedID 28311279
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NITROUS-OXIDE FLUX AND NITROGEN TRANSFORMATIONS ACROSS A LANDSCAPE GRADIENT IN AMAZONIA
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES
1988; 93 (D2): 1593-1599
View details for Web of Science ID A1988M303000022
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NITROGEN TRANSFORMATIONS IN A RANGE OF TROPICAL FOREST SOILS
SOIL BIOLOGY & BIOCHEMISTRY
1988; 20 (3): 361-367
View details for Web of Science ID A1988P241000016
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Prediction of leaf chemistry by the use of visible and near infrared reflectance spectroscopy
Remote Sensing of Environment
1988; 26: 123-147
View details for DOI 10.1016/0034-4257(88)90092-2
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Remote sensing of forest canopy and leaf biochemical content
Remote Sensing of the Environment
1988; 24: 85-108
View details for DOI 10.1016/0034-4257(88)90007-7
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Aircraft-based measurements of biosphere-atmosphere gas exchange
Ecology
1988; 69: 1318-1325
View details for DOI 10.2307/1941629
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EXCHANGE OF MATERIALS BETWEEN TERRESTRIAL ECOSYSTEMS AND THE ATMOSPHERE
SCIENCE
1987; 238 (4829): 926-932
Abstract
Many biogenic trace gases are increasing in concentration or flux or both in the atmosphere as a consequence of human activities. Most of these gases have demonstrated or potential effects on atmospheric chemistry, climate, and the functioning of terrestrial ecosystems. Focused studies of the interactions between the atmosphere and the biosphere that regulate trace gases can improve both our understanding of terrestrial ecosystems and our ability to predict regional-and global-scale canges in atmospheric chemistry.
View details for Web of Science ID A1987K781000026
View details for PubMedID 17829357
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BIOLOGICAL INVASION BY MYRICA-FAYA ALTERS ECOSYSTEM DEVELOPMENT IN HAWAII
SCIENCE
1987; 238 (4828): 802-804
Abstract
The exotic nitrogen-fixing tree Myrica faya invades young volcanic sites where the growth of native plants is limited by a lack of nitrogen. Myrica quadruples the amount of nitrogen entering certain sites and increases the overall biological availability of nitrogen, thereby altering the nature of ecosystem development after volcanic eruptions.
View details for Web of Science ID A1987K681000034
View details for PubMedID 17814707
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HERBICIDE TREATMENT EFFECTS ON PROPERTIES OF MOUNTAIN BIG SAGEBRUSH SOILS AFTER 14 YEARS
SOIL SCIENCE SOCIETY OF AMERICA JOURNAL
1987; 51 (5): 1337-1343
View details for Web of Science ID A1987K564900044
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NITROGEN TRANSFORMATIONS FOLLOWING TROPICAL FOREST FELLING AND BURNING ON A VOLCANIC SOIL
ECOLOGY
1987; 68 (3): 491-502
View details for Web of Science ID A1987H301400004
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Net primary production: original calculations.
Science
1987; 235 (4790): 730a-?
View details for PubMedID 17753984
- The use of airborne imaging spectrometer data to determine experimentally-induced variation in coniferous canopy chemistry Third Airborne Imaging Spectrometer Data Analysis Workshop 1987: 70–74 70–74
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DENITRIFICATION IN A CLEAR-CUT LOBLOLLY-PINE (PINUS-TAEDA L) PLANTATION IN THE SOUTHEASTERN UNITED-STATES
PLANT AND SOIL
1987; 97 (1): 119-129
View details for Web of Science ID A1987F771800013
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Susceptibility indices in loblolly pine vary with silvicultural treatment
Forest Ecology and Management
1987; 22: 107-118
View details for DOI 10.1016/0378-1127(87)90099-5
- Biogeochemical Cycling in Sagebrush Ecosystems Thematic Mapper Research in the Earth Sciences Workshop 1987: 85–90
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Dentrification in a clearcut loblolly pine plantation in the Southeastern U.S.: Differences related to harvest intensity, site preparation, and silvicultural practice
Plant and Soil
1987; 97: 119-129
View details for DOI 10.1007/bf02149830
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Ecosystem responses to forest dieback: Decomposition, nutrient availability, and tree vigor
Forestry
1987; 60: 219-227
View details for DOI 10.1093/forestry/60.2.219
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Cross-system comparisons of soil nitrogen transformationas and nitrous oxide flux in tropical forest ecosystems
Global Biogeochemical Cycles
1987; 1: 163-170
View details for DOI 10.1029/gb001i002p00163
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Herbicide treatment effects on properties of mountain big sagebrush soils after 14 years
Soil Science Society of America Journal
1987; 51: 1337-1343
View details for DOI 10.2136/sssaj1987.03615995005100050044x
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HUMAN APPROPRIATION OF THE PRODUCTS OF PHOTOSYNTHESIS
BIOSCIENCE
1986; 36 (6): 368-373
View details for Web of Science ID A1986C429000006
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Site fertility affects seasonal carbon reserves in loblolly pine
Tree Physiology
1986; 2: 17-27
View details for DOI 10.1093/treephys/2.1-2-3.17
- Biogeochemical processes in sagebrush ecosystems Thematic Mapper Research in Earth Sciences Workshop 1986: 279–93
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DISTURBANCE, NITROGEN AVAILABILITY, AND NITROGEN LOSSES IN AN INTENSIVELY MANAGED LOBLOLLY-PINE PLANTATION
ECOLOGY
1985; 66 (4): 1360-1376
View details for Web of Science ID A1985ANN8200029
- Factors contributing to southern pine beetle host resistance Integrated Pest Management Research Symposium edited by Branham, S. J., Thatcher, R. C. 1985
- Nitrate losses from disturbed forests: Causes of delayed nitrate production in two Indiana forests Forest Science 1985; 31: 122-131
- Intensive harvest and site preparation decrease nitrogen availability in young plantations The Southern Journal of Applied Forestry 1985; 9: 120-125
- High resolution spectrometry of leaf and canopy chemistry for biogeochemical cycling Airborne Imaging Spectrometer Data Analsysis Symposium, 1985
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MECHANISMS OF NITROGEN-RETENTION IN FOREST ECOSYSTEMS - A FIELD EXPERIMENT
SCIENCE
1984; 225 (4657): 51-52
Abstract
Intensive forest management led to elevated losses of nitrogen from a recently harvested loblolly pine plantation in North Carolina. Measurements of nitrogen-15 retention in the field demonstrated that microbial uptake of nitrogen during the decomposition of residual organic material was the most important process retaining nitrogen. Management practices that remove this material cause increased losses of nitrogen to aquatic ecosystems and the atmosphere.
View details for Web of Science ID A1984SX61000030
View details for PubMedID 17775660
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Natural Disturbance and Nitrogen Mineralization: Wave-Form Dieback of Mountain Hemlock in the Oregon Cascades
Ecology
1984; 65: 1511-1516
View details for DOI 10.2307/1939130
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Effects of nutrient and light limitation on mountain hemlock: Susceptibility to laminated root rot
Ecology
1984; 65: 1517-1524
View details for DOI 10.2307/1939131
- Host conifer defense strategies: A hypothesis First IUFRO Conference on the Role of Host-Pest Interaction in the Population Dynamics of Forest Insects 1983
- Impacts of management practices on soil nitrogen status (in 'Maintaining Site Productivity in Pine Plantation Management') Appalachian Society of American Foresters Ann Mtg 1983: 25–39
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An evaluation of an ion exchange resin bag method for assessing forest soil nitrogen availability
Soil Science Society of America Journal
1983; 47: 1050-1052
View details for DOI 10.2136/sssaj1983.03615995004700050045x
- Nitrogen mineralization and nitrification potentials following clearcutting in the Hoosier National Forest, Indiana Forest Science 1981; 27: 781-791