results:projectoutcomes

Project Outcomes

Outcomes are results of the activity that produce an effect on the overall communities or issues you serve. Outcomes include the advancement of science and cultural, economic, policy and societal effects. For example, an outcome may be a change in governance policy based on recommendations from field research.

They are gathered in categories : advancement of knowledge sciences, advancement of other knowledge, cultural or economic effet, models, societal or policy effect and then need to tell if it is with other pojects, stakeholders . For what we do in PACMEDY I propose the different classes below (include the needed entries + for each of them a very short paragraph telling ( what academic disciplines were affected; how has it been used or implemented by the stakeholder; how has it been used or implemented by those outside the project team; how has it advanced knowledge; what economic, social, or policy effect has it produced)

indicate here mostly outreach or large audience synthesis, contributions to international WCRP or Future Earth working groups, or others pacmedy contributions to new national call for example or product that will use outside the community targetted by this JPI-Bemont call (database and publications are in outputs)

Key results of interest for WCRP science objectives

PACMEDY observational and modeling activities have contributed to WCRP grand challenge discussions on the climate sensitivity, vegetation climate feedbacks (carbon feedbacks) and climate extremes in the South American Monsoon System (SAMS).

• IPCC models have been able to reproduce some important characteristics of the SAMS variability in the last Holocene, such as major seesaw patterns the east/west and north/south features (NE Brazil x Amazon and NE Brazil x South/Southeastern Brazil).

• The centennial variability reported in the proxy data is present in some PMIP models. The fact that these models produce centennial variability without solar forcing is indicative of long term cycles related to internal variability of the ocean/atmosphere/biosphere nonlinear coupling.

• Theoretical studies conducted by the PACMEDY group provides support to the idea that nonlinear interactions in the climate system can promote energy transfer from interannual, annual and even shorter time scales, such as the intraseasonal, up to much longer periods, such as decadal, multidecadal and longer timescales. These theoretical results have important implication in future model development and raise further applicability of the high time resolution proxy data.

Contribution to WCRP grand challenges

* Climate sensitivity, circulation and clouds

Contribution to workshops and major publications of the grand challenge :

. Hydrological cycle and monsoon :

Biasutti, M., Voigt, A., Boos, W. R., Braconnot, P., Hargreaves, J. C., Harrison, S. P., Kang, S. M., Mapes, B. E., Scheff, J., and Schumacher, C.: Global energetics and local physics as drivers of past, present and future monsoons, Nature Geoscience, 11, 392, 2018.

. Climate sensitivity :

S. Sherwood, M. J. Webb, J. D. Annan, K. C. Armour, P. Forster, J.C. Hargreaves, G. Hegerl, S. A. Klein, K. D. Marvel, E. Rohling, M. Watanabe, T. Andrews, P. Braconnot, C.S. Bretherton, G. L. Foster, Z. Hausfather, A. S. von der Heydt, R. Knutti, T. Mauritsen, J. Norris, C. Proistosescu, M. Rugenstein, G. A. Schmidt, K. B. Tokarska, M. D. ZelinkaSherwood et al., A combined assessment of Earth’s climate sensitivity, in revision

  • Contribution to WCRP grand challenge on Weather and Climate Extremes
  • Participation in WCRP lighthouse activities workshop

The project results and the identification of missing gaps were considered at the workshop organised by WCRP to define future lighthouse activities as part of the implementation of the new strategic plan.

See: https://www.wcrp-climate.org/wcrp-ip-docs

PAGES-SISAL. PACMEDY has supported the creation of the PAGES SISAL working group database. This is a global compilations of δ18O and δ13C records from speleothems that can be used to document climate changes over the Holocene and on glacial-interglacial timescales. PACMEDY has also supported workshops of the PAGES SISAL working group to discuss and promote analyses of these data. The first version of the SISAL database was published in Earth System Science Data (see project publications) and the second version of the database is currently in ESSD Discussions.

PAGES-Iso2k. Datasets produced by PACMEDY and PACMEDY members contributed to building the Iso2k Database: A global compilation of paleo-δ18O and δ²H records to aid understanding of Common Era climate. This is the first global-scale collection of water isotope proxy records from multiple types of geological and biological archives. It is suitable for evaluating hydroclimate processes through time and space using large-scale synthesis, model-data intercomparison and (paleo)data assimilation. The database has been submitted to Earth System Science Data.

PACMEDY has been active in the PAGES LandCover6k Working Group, specifically to promote the compilation of land use and land cover data that can be used as inputs to climate model simulations to evaluate the impact of anthropogenic activities during the Holocene.

PACMEDY played a key role in the PMIP4 working group on “Past2Future: insights from a constant varyingly past”. This included substantial participation in a London Workshop in May 2019. PACMEDY ended up leading two of the key papers emerging from the workshop.

The project has produced several contributions to newsletters or large audience publications

Large audience publications

The wake of the negationist trend on climate change raised the stakeholders interest of the renewable energy and agribusiness sectors in Brazil on evidence of significant climate variability in the past. The fact that 21th Century future climate projections indicate scenarios that have not been reported in the recent instrumental era raises the question: how was the past climate, well before the instrumental records? Did we observe long term droughts or floods in areas where these events are sporadic? Was the “normal” climate in long periods in the past similar to what is now considered as an extreme situation?

Research indicates that models can reproduce important features of the past climates thus rendering confidence in their ability to project the future. As a result, researchers involved in paleoclimate studies, such as PACMEDY (in Brazil, in particular, at the CPTEC/INPE and the IAG/USP groups) have been heavily involved in talks, meeting with the renewable energy and agribusiness sectors using recently acquired knowledge on the climate variability, primarily concerning probability of occurrence of long term (decadal) changes in the climate statistics. As an example :

• the wet climate trend in Southern Brazil, Northeast Argentina, Paraguay and the dry trend with long (approximately 7 years) drought in northeast Brazil, with decreasing intensity towards Southeast Brazil since 2011 (culminating with the major 2013/14 drought episode) and

• the extreme droughts and floods in the Amazon in the last 15 years have raised tremendous concern in the renewable energy and agribusiness. Meetings were called in order to answer questions concerning predictability of these events, probability of occurrence in the future and whether these extreme events were observed in the past and if the IPCC climate scenarios for the 21 Century are realistic or not, considering the earth’s past history.

  • Paleo/present/future monsoon variability and implications for environment, policy and society.

Pune, India, 18-20 March 2020

This stakeholder event brings together researchers from three projects of the JPI Climate -Belmont Forum “Climate Predictability and Inter-Regional Linkages” programme, to cover complementary aspects of monsoon variability, predictability and change, with groups from the academic and non-academic communities. The aim is to share project results and co-design their transformation into actionable information relevant for policy makers, water management; environment and agriculture sectors. The projects provide a complementary focus on monsoons by considering different space and time scales, and links to polar regions. BITMAP focuses on high latitudes, their connection with the winter rains of Northern India and the summer monsoon. The project considers how changing temperatures and Arctic sea-ice affect the jet stream and Indian weather. GOTHAM represents an ambitious research programme for gaining robust, relevant and transferable knowledge of past and present-day regional climate variability and extremes. The project has improved seasonal to decadal climate predictions by using a combination of contemporary climate models, citizen-science computing and advanced statistical analysis tools. PACMEDY uses annually-resolved palaeo-records of climate variability over the past 6000 years, including: corals, mollusks, speleothems and tree rings; together with global climate-model simulations and high-resolution simulations of the Indian, African and South American monsoons. PACMEDY provides improved understanding of monsoon dynamics and related interannual to multi decadal variability. The project assesses the credibility of climate projections and the likelihood of extreme events on decadal time scales. By bringing together the results of these three projects new insights are gained for adaptation and risk management. These projects were designed with the aim to provide new resources for climate services. However, there is a need to fill the gap between academic outcomes and user needs. In this respect, the stakeholder forum will: - Inform on the results in a way understandable and suitable for stakeholders, so as to enhance the impact of this research and improve result dissemination. - Provide access to the latest results, and identify how they can lead to improved decision making or improved policies for adaptation to climate change and improvements to risk management. - Phrase relevant “science for action” questions to be addressed in future projects in the context of climate predictability. The 3-day meeting will be organized with morning session project presentations and stakeholder interest and requests; and breakout-group afternoon sessions on the design of targeted products, and key questions to be addressed in future projects. Each day will cover a particular topic, with day 1 on water resources, day 2 on environment and agriculture, and day 3 dedicated to policy maker. For each topic sessions will: - Explore the relevant issues, share ideas and best practice, generate new ideas and improve awareness of emerging issues. - Identify cross-cutting issues and possible applications - Co-design products of projects with stakeholders to provide clearer definition of desired outcomes - Identify effective dissemination avenues and improve clarification of ‘common’ language. For each topic expected outcomes of the meeting cover: - Access to project results, data sets and dedicated sector-dependent syntheses: water, agriculture or policy makers (risks). - Training / lecture/ mediation material for capacity building - Possibility for directions and partnerships, funding Summaries of the discussion will be provided for each topic at the end of the meeting in the form of synthetic note highlighting stakeholder interest, and which aspects would require further developments or serve as a basis for guiding future follow on programs

This meeting had been endorsed by Core Project of the World Research Programm : CLIVAR, GEWEX and SPARC (see for example http://www.clivar.org/news/clivar-endorsed-climate-predictability-and-inter-regional-linkages-pune-stakeholder-event

  • Contribution to the international Paleoclimate Modeling Intercomparison Project

Contribution to PMIP working groups : Warm periods (for the Holocene), Past2000k (for the last millennium), Data (for data synthesis and model-data comparisons) and past to future and Variability (for the analyses of monsoon trend and variability). The project contributed to the protocoal papers for the CMIP4-CMIP6 simulations, and provided a leadership for the synthesis of the midHolocene PMIP4 simulations. These contributions are part of the PMIP-CMIP6 special issue in Global Model Developement (https://www.geosci-model-dev.net/special_issue590.html and the PMIP4 special between Global Model Development and Climate of the Past (https://www.clim-past.net/special_issue888.html

  • Contribution to the German BMBF PALMOD project
  • Contribution to the German BMBF ROMIC project

Within the context of the PACMEDY meeting 50 scientists from 15 different countries met in Belitung, Indonesia, in August 2019 to discuss past changes in the El Niño-Southern Oscillation (ENSO). This event brought together some of the leading scientists of this field as well as younger post docs and PhD students from a variety of disciplinary fields: paleoclimate, modelling and observations. The research presented during this meeting aimed to provide critical information required to better understand short- and long-term changes in ENSO. Recent findings were reviewed and our present understanding of the factors controlling past ENSO variance were assessed. Areas lacking information were identified, and a common and integrated strategy for future interdisciplinary studies was proposed. This workshop was an opportunity to strengthen a community of interdisciplinary researchers that will continue to benefit significantly from future interactions. The achievements of this workshop were the identification of a list of key questions that urgently need to be addressed. Most recent studies still differ on the factors that control trends in ENSO during the Holocene : stochastic processes, solar insolation, response to the mean climate conditions, or a combination of these factors. Temporal trends in ENSO variance differ and are site specific, highlighting the importance of mapping geographical patterns as well as producing single-site records. Similarly, projected future changes in ENSO are model dependent. Advances in analytical precision and novel geochemical tools that have recently been developed provide a new impetus to address these research questions.

Elliot, Mary, Cahyarini Sri Yudawati, Abram Nerelie, Felis Thomas, McGregor Helen. Is the El Niño-Southern Oscillation changing? Lessons from the past. Past Global Changes Magazine, vol. 28(1), 28, 2020. https://doi.org/10.22498/pages.28.1.28

This workshop was organised by the PMIP4 Working Group of the same name. It was held from 13-17th May 2019 at University College London. The local organiser, Chris Brierley, is part of the PACMEDY consortium, and 12 out of the 24 attendees were affiliated with PACMEDY. The workshop was centred around creating PMIP4 outputs in time to feed into the IPCC AR6 report. It has, so far, resulted in 2 published and 2 submitted manuscripts - all bar one involving PACMEDY people.

For further details see past2future.org

  • collaboration between LSCE and Fabrizio Falasca (Caltech, USA) on the use of artificial intelligence methodes for the analyses of long transient simulations.
  • collabortion between MPI-M and HZG with Andrew Lorrey (National Institute of Water and Atmospheric Research, New Zealand) on proxy-Model comparisons for New Zealand spelothems.
  • Participtation to the AR6 WG1 IPCC report :

Hegerl: Review Editor, Chapter 1 “Framing, context, methods”

Krishnan: Coordinating Lead Author, Chapter 8 “Water cycle changes”

Braconnot: Review Editor, Chapter 8 “Water cycle changes”

Sabin: Chapter scientist, Chapter 8 “Water cycle changes”

Brierley: Contributing Author, Chapter 3 “Human influence on the climate system” - relating to PACMEDY publication

  • results/projectoutcomes.txt
  • Last modified: 2020/06/16 21:21
  • by pasb