Climate Applications/Services theme for WCRP
Carolina VeraCentro de Investigaciones del Mar y la Atmósfera (CIMA)
FCEyN/University of Buenos Aires-CONICETBuenos Aires, Argentina
with
Fred Semazzi, Julia Slingo, Vikram Mehta
• The relevance of climate information systems that provide products and services for climate-related risk management and decision-making has risen dramatically in the last few years, a trend that is likely to continue.
• In the last World Climate Conference-3 (WCC-3), WMO and its partners agreed to establish a Global Framework for Climate Services (GFCS) to strengthen production, availability, delivery and application of science-based climate predictions and services on all timescales from months to decades.
• WCC-3 (2009) concluded, that ‘major new and strengthened research efforts are required to increase the time-range and skill of climate prediction through new research and modeling initiatives; and to improve the observational basis for climate prediction and services, and the availability and quality control of climate data.’
• The progress made by WCRP on observing, understanding and predicting seasonal to decadal climate variability, along with potential human-induced climate changes, provides a strong foundation for the delivery of a wide range of climate services.
• It is therefore the right time to consider the future development of WCRP, and especially its role in the GFCS.
Priorities for WCRP
•Addressing science needs for delivering more reliable predictions on all timescales
•Promoting more research and investment to translate available climate information into the spatial scales and relevant variables required for decisions
•Promoting partnerships to focus on the integration of climate research and application needs
Improved modeling capability
Observations and monitoring
Developing prediction systems and assessing predictability
Fundamental science objectives of WCRP should remain strong
Many of the most dangerous effects of climate variability and change may come through
variations on the incidence and/or intensity of extreme events, and communicating those risks
to society presents significant challenges:
Provision of timely and reliable forecast of the likelihood of hazardous weather and
climate is needed
(a) Interactions between climate and weather
• There is very little understanding of how large-scale climate variability/changes influence fundamental atmospheric dynamics and their interactions with the underlying land.
• A WCRP initiative to develop research programs on climate and weather interactions can be very useful for science as well as for GFCS, and would help in bringing CLIVAR, GEWEX and even THORPEX, closer.
Priorities for WCRP
•Addressing science needs for delivering more reliable predictions on all timescales
•Promoting more research and investment to translate available climate information into the spatial scales and relevant variables required for decisions
•Promoting partnerships to focus on the integration of climate research and application needs
WCRP should promote efforts to fill the gaps between provision and use of current climate information
Scale: Higher resolution, in space & time
Specificity: Targeting new forecast variables
Streamflow NDVI Dry spells Heating Degree Days
Providing a more flexible format
Uncertainties:Methods for translating uncertain climate information to products useful for sector decision making are in their infancy and much research is needed.
Communication: Putting information in context Using clear language
Recent changes in phenology in the South of France
DATE DE DEBUT VENDANGES A CHATEAUNEUF DU PAPE depuis 1945
1-sept
6-sept
11-sept
16-sept
21-sept
26-sept
1-oct
6-oct
11-oct
1945 1950 1955 1960 1965 1970 1975 1980 1985 1990 1995 2000Evolution des dates de début de semis du Maïs dans quatre UE
30-mars
9-avr
19-avr
29-avr
9-mai
19-mai
29-mai
8-juin
19
69
19
70
19
71
19
72
19
73
19
74
19
75
19
76
19
77
19
78
19
79
19
80
19
81
19
82
19
83
19
84
19
85
19
86
19
87
19
88
19
89
19
90
19
91
19
92
19
93
19
94
19
95
19
96
19
97
19
98
19
99
20
00
20
01
20
02
20
03
Année
Da
te
Mirecourt Colmar Le Pin Auzeville
Benoit et de la Torre 2004
Brisson et Huard 2005Site www.avignon.inra.fr/veille_agroclimatique
Ganichot 2002
Dates of fruit tree flowering
Dates of vine harvest
Dates of maize sowing
Changes in the duration of the maize cycle in Tolouse as computed with crop
models
Agriculture and Food Production and Climate Variability
Evolution of malaria incidence indices in Colombia
API : ratio between the number of cases reported and the population at risk per 10,000 inhabitants, computed as the total of cases of both P. vivax (A.V.I.) and P. falciparum (A.F.I.). (Poveda et al., 2000).
Health and Climate Variability
Temporal evolution of levels of disease risk in Cuba
Projected cases of acute respiratory infections and dengue
fever for May 2004
Ortiz Bultó et al. (2006)
Marine fisheries and ecosystems and climate variability
A close link has been observed between biological processes, and large-scale
climate patterns, like the PDO and NAO (Lehodey et al. 2006).
Modeled Changes in
the recruitment success in
Atlantic Cod due to a
slowdown of the
Termohaline Circulation
(Vikebø et al. 2007)
Simulated distribution of 4–6 months old cod. The color scale indicates wet weight in
milligram.
Control
Reduced THC
Scale: Higher resolution, in space & time
Specificity: Targeting new forecast variables
Streamflow NDVI Dry spells Heating Degree Days
Providing a more flexible format
Uncertainties:Methods for translating uncertain climate information to products useful for sector decision making are in their infancy and much research is needed.
Communication: Putting information in context Using clear language
Chain of Experts &Chain of Information
WCRP should promote efforts to fill the gaps between provision and use of current climate information
Priorities for WCRP•Addressing science needs for delivering more reliable predictions on all timescales
•Promoting more research and investment to translate available climate information into the spatial scales and relevant variables required for decisions
•Promoting partnerships to focus on the integration of climate research and application needs
• In spite of statements of intent to interact closely with stakeholders and policymakers in climate research and applications programs, there is still very little meaningful, two-way, and continuous interaction with user communities.
• Boundaries between scientific and stakeholder communities have become blurred during the past decade:– A “user” may be a decision maker acting individually or as part of a
collective. A “user” may also be a translator of information regarding climate variability or its associated impacts such that the information can be used by decision makers.
– A “provider” may be the climate scientist running global climate models or may be the translator that modifies the initial forecast information into a more usable format for the policy or decision maker. Also, a “provider” may be the one that takes the information from the climate model and feeds it through a hydrology model or crop model.
• The blurring of boundaries between these communities began when it became clear that effective climate risk management could not be accomplished for certain communities. It has been an important realization, but much work remains.
(Adapted from Trenberth 2008)
Systems building on interdisciplinary (from social to climate sciences) and trans-sector (from stakeholders to researchers) are the way to provide the climate information that can be effectively used by the
different society sectors
• If the GFCS is to succeed, WCRP should be part of the collective leadership to engage user communities as full partners in climate research and prediction endeavors.
• WCRP might address this initiative in cooperation with the other global programs involved in ESSP and by involving key sectors in its activities.
• WCRP might have a role in strengthening the science collaboration between the global prediction centers, the regional climate centers and even the future national climate centers or meteorological and hydrological centers.
• WCRP should consider developing a group of climate and societal impacts scientists, along with experts in scientific communications, to develop methodologies for interacting with users.
• WCRP should address the need for the development of innovative mentoring and training programs to generate a new generation of researchers that can conceptualize, develop and implement research that bridges the gap between science and applications.
• It is clear that the context of this theme depends strongly on the other WCRP themes on modeling, observations and processes.
• It must involve not only the current WCRP modeling groups but also the Core projects and particularly their regional programs.
• It will be important to review these interdependencies and ensure that structures are in place to maximize the effectiveness of the actions arising from these white papers.
CONCLUDING REMARKS
• Goddard, L., Y. Aitchellouche, W. Baethgen, M. Dettinger, R. Graham, P. Hayman, M. Kadi, R. Martínez, H. Meinke, 2009: Providing Seasonal-to-Interannual Climate Information for Risk Management and Decision Making. White Paper for WCC3, Geneva, 31 August-4 September 2009.
• Vera, C., M. Barange, O. P. Dube, L. Goddard, D. Griggs, N. Kobysheva, E. Odada, S. Parey, J. Polovina, G. Poveda, B. Seguin, K. Trenberth, 2009: Needs assessment for climate information on decadal time scales and longer. White Paper for WCC3, Geneva, 31 August-4 September 2009.
• WCC-3 Conference Statement, (2009): Summary of the Expert Segment. Geneva, 31 August-4 September 2009.
Additional Material
Top Related