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Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
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OVERVIEW

Global Environmental Change: Research Pathways for the Next Decade

Committee on Global Change Research

Board on Sustainable Development

Policy Division

NATIONAL ACADEMY PRESS
Washington, D.C. 1998

Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
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NATIONAL ACADEMY PRESS
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NOTICE: The project that is the subject of this report was approved by the Governing Board of the National Research Council, whose members are drawn from the councils of the National Academy of Sciences, the National Academy of Engineering, and the Institute of Medicine. The members of the committee responsible for the report were chosen for their special competences and with regard for appropriate balance.

The National Academy of Sciences is a private, nonprofit, self-perpetuating society of distinguished scholars engaged in scientific and engineering research, dedicated to the furtherance of science and technology and to their use for the general welfare. Upon the authority of the charter granted to it by the Congress in 1863, the Academy has a mandate that requires it to advise the federal government on scientific and technical matters. Dr. Bruce M. Alberts is president of the National Academy of Sciences.

The National Academy of Engineering was established in 1964, under the charter of the National Academy of Sciences, as a parallel organization of outstanding engineers. It is autonomous in its administration and in the selection of its members, sharing with the National Academy of Sciences the responsibility for advising the federal government. The National Academy of Engineering also sponsors engineering programs aimed at meeting national needs, encourages education and research, and recognizes the superior achievements of engineers. Dr. William A. Wulf is president of the National Academy of Engineering.

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The National Research Council was organized by the National Academy of Sciences in 1916 to associate the broad community of science and technology with the Academy's purposes of furthering knowledge and advising the federal government. Functioning in accordance with general policies determined by the Academy, the Council has become the principal operating agency of both the National Academy of Sciences and the National Academy of Engineering in providing services to the government, the public, and the scientific and engineering communities. The Council is administered jointly by both Academies and the Institute of Medicine. Dr. Bruce M. Alberts and Dr. William A. Wulf are chairman and vice chairman, respectively, of the National Research Council.

This study was supported by Contract Nos. 50-DKNA-5-00015, 50-DNKA-7-90052 between the National Academy of Sciences and the National Oceanic and Atmospheric Administration. Any opinions, findings, conclusions, or recommendations expressed in this publication are those of the author(s) and do not necessarily reflect the views of the organizations or agencies that provided support for the project.

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Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
×

COMMITTEE ON GLOBAL CHANGE RESEARCH

BERRIEN MOORE III (Chairman),

University of New Hampshire, Durham, New Hampshire

JAMES G. ANDERSON,

Harvard University, Cambridge, Massachusetts

GREGORY H. CANAVAN,

Los Alamos National Laboratory, Los Alamos, New Mexico

ROBERT COSTANZA,

University of Maryland, Solomons, Maryland

W. LAWRENCE GATES,

University of California, Livermore, California

PRISCILLA C. GREW,

University of Nebraska, Lincoln, Nebraska

MARGARET S. LEINEN,

University of Rhode Island, Narragansett, Rhode Island

PAUL A. MAYEWSKI,

University of New Hamphire, Durham, New Hampshire

JAMES J. MCCARTHY,

Harvard University, Cambridge, Massachusetts

S. ICHTIAQUE RASOOL,

University of New Hampshire, Durham, New Hampshire

EDWARD S. SARACHIK,

University of Washington, Seattle, Washington

DAVID S. SCHIMEL,

University Center for Atmospheric Research, Boulder, Colorado

W. JAMES SHUTTLEWORTH,

University of Arizona, Tucson, Arizona

KARL K. TUREKIAN,

Yale University, New Haven, Connecticut

PETER VITOUSEK,

Stanford University, Stanford, California

Ex-Officio Members

Liason Members, Board on Sustainable Development

EDWARD A. FRIEMAN,

Scripps Institution of Oceanography,

Chairman, Board on Sustainable Development

RICHARD E. BALZHISER,

Electric Power Research Institute

ROBERT A. FROSCH,

Harvard University, Cambridge, Massachusetts

Co-Chairman, Board on Atmospheric Sciences Climate

ERIC J. BARRON,

Pennsylvania State University

Chairman, Committee on Geophysical and Environmental Data

FRANCIS P. BRETHERTON,

University of Wisconsin, Madison

Chairman, Ocean Studies Board

KENNETH BRINK,

Woods Hole Oceanographic Institute, Woods Hole, Massachusetts

Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
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Chairman, Committee on Atmospheric Chemistry

WILLIAM L. CHAMEIDES,

Georgia Institute of Technology

Chairman, Board on Atmospheric Sciences and Climate

JOHN A. DUTTON,

Pennsylvania State University

Chairman, Climate Research Committee

THOMAS R. KARL,

National Climatic Data Center, Asheville, North Carolina

Chairman, Committee on the Human Dimensions on Global Change

DIANA M. LIVERMAN,

University of Arizona, Tucson, Arizona

Chairman, Panel on Climate Variability on Decade-to-Century Time Scales

DOUG MARTINSON,

Columbia University, Palisades, New York

Chairman, Global Energy and Water Cycle Experiment Panel

SOROOSH SOROOSHIAN,

University of Arizona, Tucson, Arizona

Chairman, Global Ocean-Atmosphere-Land System

PETER WEBSTER,

University of Colorado, Boulder, Colorado

Staff

SHERBURNE B. ABBOTT, Executive Director

DAVID M. GOODRICH, Project Director (ending January 16, 1998)

SYLVIA EDGERTON, Senior Research Fellow (beginning April 8, 1998)

CLAUDETTE BAYLOR-FLEMING, Administrative Assistant

Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
×

BOARD ON SUSTAINABLE DEVELOPMENT

EDWARD A. FRIEMAN,

University of California, La Jolla, California,

Chairman

ROBERT W. KATES,

Independent Scholar,

Vice Chairman

LOURDES ARIZPE,

UNESCO, France

RICHARD E. BALZHISER,

Electric Power Research Institute, Palo Alto, California

JOHN BONGAARTS,

The Population Council, New York, New York

RALPH J. CICERONE,

University of California, Irvine, California

WILLIAM C. CLARK,

Harvard University, Cambridge, Massachusetts

ROBERT A. FROSCH,

Harvard University, Cambridge, Massachusetts

MALCOM GILLIS,

Rice University, Houston, Texas

RICHARD R. HARWOOD,

Michigan State University, East Lansing, Michigan

PHILIP J. LANDRIGAN,

Mount Sinai School of Medicine, New York, New York

KAI N. LEE,

Williams College, Williamstown, Massachusetts

JERRY D. MAHLMAN,

Princeton University, Princeton, New Jersey

RICHARD J. MAHONEY,

Washington University, St. Louis, Missouri

PAMELA A. MATSON,

Stanford University, Stanford, California

WILLIAM J. MERRELL,

H. John Heinz III Center, Washington, DC

G. WILLIAM MILLER,

G. William Miller & Co., Inc., Washington, DC

M. GRANGER MORGAN,

Carnegie-Mellon University, Pittsburgh, Pennsylvania

PAUL RASKIN,

Tellus Institute, Boston, Massachusetts

ROBERT C. REPETTO,

World Resources Institute, Washington, DC

JOHN B. ROBINSON,

University of British Columbia, Vancouver, Canada

VERNON W. RUTTAN,

University of Minnesota, St. Paul, Minnesota

THOMAS C. SCHELLING,

University of Maryland, College Park, Maryland

MARVALEE H. WAKE,

University of California, Berkeley, California

WARREN WASHINGTON,

National Center for Atmospheric Research, Boulder, Colorado

M. GORDON WOLMAN,

Johns Hopkins University, Baltimore, Maryland

Ex-Officio Member

Chairman, Committee on Global Change Research

BERRIEN MOORE III,

University of New Hampshire, Durham, New Hampshire

Staff

SHERBURNE B. ABBOTT, Executive Director

LAURA SIGMAN, Research Associate (beginning February 17, 1998)

CLAUDETTE BAYLOR-FLEMING, Administrative Assistant

Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
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Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
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Preface

In the coming century, a human population perhaps twice as large as the population today will have to navigate a sustainable path through the ever-changing landscape of this small planet. Knowledge gleaned by science will be its best beacon and provide its soundest navigational chart. Science itself faces its own navigational challenges, as questions of growing complexity and richness abound, while financial resources are limited. Scientists confront not only these research obstacles, but also the urgent call from politicians and policy makers who seek guidance in reaching major decisions. As this report was being prepared, for example, representatives of many nations gathered in Kyoto to forge an agreement on goals to cut greenhouse gas emissions. Such agreements set environmental goals, which will clearly affect scientific priorities as well as economic paths in the coming decade.

Thus, science needs its own clear framework, through which to focus its energies. This intellectual framework is required to hone questions that need immediate attention, to separate the vital from the interesting, and to preserve basic research for discovery of the unexpected. In this Overview volume, the Committee on Global Change Research (CGCR) provides guidance on such a framework by clarifying especially promising pathways for the planning of future US research on global environmental change. This document summarizes the background and the findings and recommendations presented in the Committee's full report, which will be released in the coming months. The foundation of the report's recommendations includes the accumulated knowledge of worldwide scientific research over the past decade and especially that of the US Global Change Research Program (USGCRP).

The CGCR was charged with reviewing the current status of the USGCRP

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Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
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with a view toward defining the critical scientific questions in the Program's four areas of concentration (seasonal to interannual climate prediction, decadal to centennial climate change, atmospheric chemistry, and terrestrial and marine ecosystems) and with preparing a report that would (1) articulate the central scientific issues posed by global environmental change; (2) state the key scientific questions that must be addressed by the USGCRP; and (3) identify the scientific programs, observational efforts, modeling strategies, and synthesis activities needed to attack these scientific questions. This report traces the scientific roots and programmatic development of the USGCRP, highlighting some of the lessons learned that help point to the most appropriate pathways ahead. The Committee calls for a revitalization of the USGCRP, recognizing the need for a more sharply focused scientific strategy and a more coherent programmatic structure and stressing the importance of US leadership in supporting global change research.

CGCR's study was undertaken in the context of intense national and international debate about the nature of global environmental change, particularly about the characteristics and potential impacts of climate change. This context is sharpened in several questions raised by the scientific community and the public at large:

The Science:

  • In light of the US Administration policy and agreements at the Kyoto conference, are not the causes of global change sufficiently clear, and therefore should not the US Global Change Research Program now concentrate on the science related to mitigation measures?

The Strategy:

  • What is the appropriate science strategy for resolving uncertainties about global environmental change? Are changes in the current strategy needed? If so, why (what has changed)? What are the crucial differences between any proposed new strategy and the existing strategy, and how do we make a transition from one to the other?

The Implementation:

  • How can this strategy be implemented in terms of programs? Who will develop the priorities? When will this happen?

THE SCIENCE

It would be a misinterpretation of US Administration policy and agreements at the Kyoto conference to conclude that the causes and characteristics of global change are sufficiently clear that scientific inquiry in this area should be limited to mitigation measures. The agreements at the Kyoto conference are based on a general understanding of some causes and characteristics of global change; how-

Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
×

ever, there remain many scientific uncertainties about important aspects of climate change. If the United States were to abandon or significantly reduce the current research programs, the remaining scientific uncertainties would persist. In addition, it would be difficult to have confidence that mitigation measures were addressing the underlying causes.

It is true that the forcing terms of global change are being more clearly resolved. For example, the flux of greenhouse gases from industrial activities is reasonably well established; the rates and geographical distributions of the mobilization of other chemical compounds are also becoming clearer; and quantitative patterns of land-use change are being elucidated. In addition, significant progress has been made in understanding the lifetimes in the atmosphere of key chemical species such as greenhouse gases. We understand better the chemical and physical interactions that lead to the loss of ozone in the stratosphere and the production of ozone in the troposphere. We have begun to make considerable progress in characterizing patterns of climate variability, with one noted accomplishment being the successful prediction of the most recent El Niño event well in advance of its greatest impacts. And, although on a very limited basis, we have begun to investigate the possible impacts of various climate change scenarios on terrestrial systems by using global models of these systems.

However, a great deal more needs to be understood about global environmental change before we concentrate on “mitigation” science. We do not understand the climate system well enough to clarify the causes and likelihoods of rapid or abrupt climate changes. What does the record from the past reveal in detail about environmental changes? What will be the patterns and modes of human-forced climate changes? What will be the impacts of multiple stresses upon systems; in other words, what are the effects on terrestrial ecosystems of changes in the chemistry of the atmosphere, changes in the patterns and intensities of land use, and changes in temperature and rainfall patterns? How will the chemistry of the atmosphere be affected by continuing patterns of human-induced forcing, and how will these changes be affected by climate variability and change? What is the geographical distribution of the sources and sinks of greenhouse gases, and how might they change? How will institutions respond to climate and other environmental changes? These are the types of scientific unknowns that require clarification if we are to make sound policy decisions; they are also the questions that must be answered if we are to have a sound foundation for mitigation science.

THE STRATEGY

The current science strategy was developed in concert with the initial planning of the USGCRP and based on the view that what was most needed was a broad attack on understanding the Earth as a system. This has been a valuable and intellectually exciting goal, but it also has made the Program too diffuse and left

Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
×

it vulnerable. When budgets ceased to expand and began to contract, the Program was not well grounded or well integrated enough to scale back in a logical way. The concept of an Earth system science view of the Program simply could not weather the budget process that demanded greater specificity and accountability. Moreover, the need for prioritization —which should be one benefit derived from taking a systems viewpoint —has proved to be exceedingly difficult to achieve in practice. Finally, gains in understanding over the last 10 years and changes in the perceived requirements for research (i.e., results are now seen to be needed sooner rather than later, and key issues are now in need of resolution) must be recognized in a new strategy.

Therefore, it is time to shift course; we are no longer simply building a ship but steering it too. Given all that we know, these corrections in course are necessary to reach our destination, and they will require retrofits in the hardware and navigational aids to improve speed and efficiency.

Resources and time are again in finite supply. We must concentrate scientific talents, observational capabilities, and modeling teams. Achieving these goals calls for an alternative strategy: one focusing on answering specific, central scientific questions about global change. In fact, our current inability to answer these scientific questions is seriously blocking progress in critical policy development as well as hindering our development of a more systemic view of the planet.

Thus, the Committee recommends shifting to a scientific strategy of greater focus and sets forth corresponding pathways for research, observations, data systems, and modeling.

THE IMPLEMENTATION

To implement a new strategy effectively, the USGCRP, working closely with the Office of Management and Budget (OMB) and the Office of Science and Technology Policy (OSTP), must develop initiatives based directly on the Research Imperatives, Scientific Questions, and crosscutting elements described in this Overview volume and its Appendix C and elaborated in detail in the full report. The recommendations in these documents regarding the observational strategy, technological development, data and information systems, and modeling should be explicitly addressed by the USGCRP and OSTP.

Establishing the necessary observational systems will be especially challenging. They are likely to be expensive; their components must serve the needs of several different communities and as a bridge between research and operational lines; and their design must be more robust in the face of changes in financial support. The National Aeronautics and Space Administration's (NASA) Earth Observing System (EOS) polar platforms—initially, EOS AM-1, EOS-PM-1, and EOS CHEM-1 —were conceived as broadly scoped data-gathering systems. This foundation will be central for needed future missions, and it will set the baseline

Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
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for a long-term, operational environmental monitoring program that must be built on the operational weather and ozone-observing system of the National Oceanic and Atmospheric Administration, the Department of Defense, and their international partners. To further the advances of the first three polar platforms, the Committee calls for restructuring NASA's Earth Observing System to obtain data relevant to the Research Imperatives and unanswered Scientific Questions identified in this report, through smaller and more focused missions along the lines of the new Earth System Science Pathfinders. Moreover, some aspects of the observational systems must address three crosscutting scientific themes that are also fundamental to scientific understanding and policy: clarifying the Earth's carbon and water cycles; characterizing climate change on temporal and spatial scales relevant to human activities; and elucidating the connections among radiation, dynamics, chemistry, and climate. These achievements will require good in-situ observational systems as well as space-based systems. The Committee also recommends maintaining existing critical global observations that could be threatened by budget reductions, while designing a more coherent and balanced data and observational strategy for the future to capitalize on technological innovation.

As in all science, the task is not complete. Given the recommendations provided in this report, the next task is to review and map the USGCRP activities against the set of Research Imperatives and unanswered Scientific Questions identified here, to help set optimal programmatic priorities. This step should be the next effort of the Committee, its partners in the National Research Council (NRC) complex, and USGCRP agencies.

The NRC parent board of this Committee, the Board on Sustainable Development (BSD), is seeking to develop its own sound scientific and intellectual strategy for the transition of our nation and indeed our global society to a sustainable future. This CGCR report will help to guide the Board's emerging agenda for research on the closely linked issues of energy, environment, and society, an agenda that will be needed to successfully navigate the transition to sustainability.

ACKNOWLEDGMENTS

A study like this one, of such broad coverage, would not have been possible without assistance from many notable experts (see Committee Roster). In addition to the persons listed, the following NRC committees also contributed to the report: Committee on Human Dimensions of Global Change; Committee on Geophysical and Environmental Data; Climate Research Committee and its panels on Global Ocean-Atmosphere-Land System, Climate Variability on Decade-to-Century Time Scales, and Global Energy and Water Cycle Experiment; Ecosystems Panel; Board on Atmospheric Sciences and Climate; Ocean Studies Board; and Committee on Atmospheric Chemistry.

Speaking for both the BSD and the CGCR, we especially want to thank Dave Goodrich for working on the early drafts; John Perry for providing a link between

Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
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the present and past; Sylvia Edgerton for helping with the response to review; Mark Dafforn, Suzanne Wilhelm, Laura Sigman, and Claudette Baylor-Fleming for editorial work on complicated copy; and Shere Abbott for picking up the pieces and completing the project.

EDWARD A. FRIEMAN, Chairman

Board on Sustainable Development

BERRIEN MOORE III, Chairman

Committee on Global Change Research

Suggested Citation:"Front Matter." National Research Council. 1998. Global Environmental Change: Research Pathways for the Next Decade, Overview. Washington, DC: The National Academies Press. doi: 10.17226/6264.
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