National Academies Press: OpenBook

Natural Climate Variability on Decade-to-Century Time Scales (1995)

Chapter: RECOMMENDATIONS FOR CLIMATE VARIABILITY RESEARCH PRIORITIES

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Suggested Citation:"RECOMMENDATIONS FOR CLIMATE VARIABILITY RESEARCH PRIORITIES." National Research Council. 1995. Natural Climate Variability on Decade-to-Century Time Scales. Washington, DC: The National Academies Press. doi: 10.17226/5142.
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7
RECOMMENDATIONS FOR CLIMATE-VARIABILITY RESEARCH PRIORITIES

Suggested Citation:"RECOMMENDATIONS FOR CLIMATE VARIABILITY RESEARCH PRIORITIES." National Research Council. 1995. Natural Climate Variability on Decade-to-Century Time Scales. Washington, DC: The National Academies Press. doi: 10.17226/5142.
×

Anthropogenic changes in climate have been the topic of many publications, and have received considerable public attention. An important part of the research strategy for understanding such changes depends on defining the natural state and variability of earth's climate, but natural climate changes are not yet well enough understood to constitute a baseline against which we might realistically measure human-induced effects. A broad spectrum of observations, including both instrumental records and paleoclimate data (the former possibly contaminated by anthropogenic change, the latter not) has revealed substantial variability in the earth's climate on time scales of decades to centuries. This natural variability alone has considerable socioeconomic impact, particularly as it affects agriculture, fisheries, and water resources. To discover possible anthropogenic effects, we must assess variations of the modern climate, anticipate those of the future, and identify the regions or variables that are indicative of change.

The participants in the Dec-Cen workshop presented papers in a range of areas of climate research. These papers bear witness to substantial progress in our ability to describe, understand, and model the spatial and temporal structure, the magnitude, and the patterns of natural variability. However, it is clear that considerable effort is still required both to establish a real baseline of climate variability (natural and anthropogenically forced) and to determine the mechanisms controlling it. To achieve this dual objective, particularly in a time of limited available funding, will require careful consideration of proposed research efforts. On several occasions since the workshop, the CRC has discussed goals, community concerns, and available tools and information. We have identified four fundamental scientific questions that can give direction to work in the field:

  1. How can data, theory, and models best be combined to permit us to separate natural climate variability from anthropogenic change on the decade-to-century time scale'?

  2. Once we can distinguish between natural variability and anthropogenic change, can we understand their interaction, and thus decade-to-century-scale variability?

  3. To what extent is the climate state predictable on the decade-to-century time scale?

  4. What types of observations would be most helpful in achieving the goal of understanding decade-to-century-scale variability and forecasting climate change on that scale?

To obtain a clear picture of the causes of climate variability, both modeling and real-world observations must be employed, and the traces left by past changes must be uncovered. National and international efforts to explore and document climate variability on decade-to-century time scales have begun to provide the necessary foundation for examining human influences on climate. In addition to inspiring the fundamental questions above, the workshop's presentations and wide-ranging discussions gave the CRC the basis for formulating the following set of recommendations for the conduct of future research.

Criteria must be established to ensure that key variables are identified and observations are made in such a way that their results will yield the most useful data base for future studies of climate variability on decade-to-century time scales. For instance:

  • Minimal quality standards that exceed those required for measuring diurnal and seasonal cycles must be implemented.

  • The quality and continuity of data acquisition must be maintained over time. (Converting successful, appropriate research programs to sustained operational ones is one way to provide this continuity.)

  • Critical forcings and internal climate variables must be monitored as well, to complete the data base.

  • Multiple quantities should be monitored simultaneously, to permit cross-checking and provide statistical control.

  • Models should be consulted to help design optimal sampling strategies for monitoring systems.

Modeling studies must be actively pursued in order to improve our skill in simulating and predicting the climate state. The use of many types of models, and closer links between models and observational studies (such as data assimilation), will be necessary. Specific recommendations are:

  • Different model types must be intercalibrated to establish levels of confidence.

  • Models of the individual climate system components must be improved in order to facilitate the development of better coupled models, which integrate these components.

  • Known weaknesses in both models and existing data

Suggested Citation:"RECOMMENDATIONS FOR CLIMATE VARIABILITY RESEARCH PRIORITIES." National Research Council. 1995. Natural Climate Variability on Decade-to-Century Time Scales. Washington, DC: The National Academies Press. doi: 10.17226/5142.
×

sets must be targeted for study to improve our understanding of the non-linear global dynamics of the complex interactive climate system—for instance, the interactions between the wind-driven and thermohaline circulations are poorly understood.

  • To permit accurate data/model comparisons, both observational data and the model output must be subjected to the same processing.

  • Easier access to existing computers must be available to facilitate wider participation in modeling efforts, and higher-speed, larger-memory computers must be developed to make possible more highly resolved models, longer simulations, and more careful sensitivity studies.

Records of past climate change, particularly those reflecting the pre-industrial era, must be actively addressed as a source of valuable new data on the natural component of climate variability. The following approaches are recommended:

  • The coverage provided by existing proxy indicators must be expanded so that they yield regional, even global, information.

  • Interpretations of proxy indicators currently in use must be continually evaluated for possible improvements; the associated uncertainties and limitations must be assessed and problems identified.

  • New proxy indicators of climate must be developed to permit cross-checking of data derived from proxy records currently in use.

  • Efforts to locate and fully exploit the wealth of information contained in historical records must be supported.

Climate data must be properly archived, and made readily and freely available to researchers worldwide. Exchange of model-derived information, data from in situ observations, and proxy-record knowledge is an overarching concern. Solutions to the most challenging and important research problems depend greatly on the integration of data from all these sources.

In order to further explore the research priorities that follow from the four key science questions noted earlier, the CRC has established a panel on decade-to-century-scale natural climate variability. The DEC-CEN panel will explore critical scientific questions and issues relating to ocean-atmosphere-land-cryosphere-biosphere interactions and long-term climate change, both natural and anthropogenic. The panel will examine national and international long-range policy, plans, and progress in all these areas. DEC-CEN will then develop not only a basis for determining U.S. research priorities and applications, but a strategy for addressing them in the context of current and planned programs designed to obtain climate-related information.

Suggested Citation:"RECOMMENDATIONS FOR CLIMATE VARIABILITY RESEARCH PRIORITIES." National Research Council. 1995. Natural Climate Variability on Decade-to-Century Time Scales. Washington, DC: The National Academies Press. doi: 10.17226/5142.
×
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Suggested Citation:"RECOMMENDATIONS FOR CLIMATE VARIABILITY RESEARCH PRIORITIES." National Research Council. 1995. Natural Climate Variability on Decade-to-Century Time Scales. Washington, DC: The National Academies Press. doi: 10.17226/5142.
×
Page 605
Suggested Citation:"RECOMMENDATIONS FOR CLIMATE VARIABILITY RESEARCH PRIORITIES." National Research Council. 1995. Natural Climate Variability on Decade-to-Century Time Scales. Washington, DC: The National Academies Press. doi: 10.17226/5142.
×
Page 606
Suggested Citation:"RECOMMENDATIONS FOR CLIMATE VARIABILITY RESEARCH PRIORITIES." National Research Council. 1995. Natural Climate Variability on Decade-to-Century Time Scales. Washington, DC: The National Academies Press. doi: 10.17226/5142.
×
Page 607
Suggested Citation:"RECOMMENDATIONS FOR CLIMATE VARIABILITY RESEARCH PRIORITIES." National Research Council. 1995. Natural Climate Variability on Decade-to-Century Time Scales. Washington, DC: The National Academies Press. doi: 10.17226/5142.
×
Page 608
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This volume reflects the current state of scientific knowledge about natural climate variability on decade-to-century time scales. It covers a wide range of relevant subjects, including the characteristics of the atmosphere and ocean environments as well as the methods used to describe and analyze them, such as proxy data and numerical models. They clearly demonstrate the range, persistence, and magnitude of climate variability as represented by many different indicators. Not only do natural climate variations have important socioeconomic effects, but they must be better understood before possible anthropogenic effects (from greenhouse gas emissions, for instance) can be evaluated. A topical essay introduces each of the disciplines represented, providing the nonscientist with a perspective on the field and linking the papers to the larger issues in climate research. In its conclusions section, the book evaluates progress in the different areas and makes recommendations for the direction and conduct of future climate research. This book, while consisting of technical papers, is also accessible to the interested layperson.

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