I - 34151 Trieste Italy
(+39) 040 2240 111
pio@ictp.it
The Earth System Physics (ESP) section studies a wide spectrum of the Earth system, from its fluid components (oceans and the atmosphere) to the planet's interior. The ESP section maintains a range of models and datasets and coordinates the Regional Climate research NETwork (RegCNET), encompassing over 600 participants worldwide.
24 Jul 2022
ICTP Prize ceremony 27 July will honour two climate scientists
20 Jun 2022
International Year event on 23 June highlights climate extremes detected by AI
12 May 2022
ICTP celebrates International Year of Basic Sciences for Sustainable Development
27 Apr 2022
5 May event to focus on gender balance in local scientific and academic institutions
13 Apr 2022
For research in climate dynamics, climate variability and ocean-atmosphere interactions
28 Mar 2022
An ICTP event for schools on women in science and climate change
Europe/Rome
2022-08-15 08:00:00
2022-08-17 22:00:00
From Global to Coastal: Cultivating New Solutions and Partnerships for an Enhanced Ocean Observing System in a Decade of Accelerating Change | (smr 3731)
An ICTP-CLIVAR Hybrid Meeting
In order to meet growing societal and scientific demand for climate information, forecasting, and prediction the ocean observing community — through CLIVAR, GOOS, and partners — have recently conducted major reviews of several regional Ocean Observing Systems (e.g. IndOOS-2, TPOS2020, TAOS).
Through these reviews communities are recognising the overarching need for:
(1) expansion of long-term observations into the coastal zone, where humans interact with the ocean; and (2) multi-disciplinary observing systems that better track oxygen minimum zones, the carbon cycle, and productivity. Meanwhile, the implementation and enhancement of each regional observing system is met with similar challenges: Identifying drivers, optimising design, funding expansion, developing new resources, testing new platforms and sensors, building partnerships with rim nations, capacity building, data sharing, etc. Therefore, bringing the panels together, with an emphasis on participation of developing nation scientists, would allow an exchange of problems, ideas, and solutions, enriching the efforts of each and adding up to a global perspective worth more than the sum of its parts.
The workshop will bring members across different CLIVAR panels, observing system scientists and leaders together with invited speakers from developing rim nations to discuss priorities and cross-cutting strategies as well as explore new partnerships for the expansion of the regional ocean observing systems.
At the workshop, participants will:
Present and discuss the current most important societal and scientific drivers of each of the regional basin-wide observing systems.
Hear scientists from developing countries present the scientific and societal drivers for observing their coastal oceans and discuss how their needs may interface with the regional ocean observing systems and their products.
Discuss challenges, processes, and outcomes of reviewing and designing the regional observing systems for the next decade. For example, (i) the transition to more multidisciplinary observing systems (and panel membership), (ii) the need for regional-scale forecasting and expansion into the coastal zone, (iii) lobbying for resources, capacity-building, and developing partnerships, (iv) data archiving, assemblage, and sharing.
Discuss how our efforts and priorities combine and how the panels can prepare together for the UN Decade.
Topics:
Societal and scientific drivers of regional ocean observing systems;
Connect observation-modeling-prediction
Multi-disciplinary and innovative observing system and expansion into coastal zones
Grants: A limited number of grants are available to support the attendance of selected participants, with priority given to participants from developing countries. There is no registration fee.
Further information can be found at the following link:
https://www.clivar.org/events/clivar-goos-workshop-global-coastal-cultivating-new-solutions-and-partnerships-enhanced-ocean
In person participation: As regards the COVID-19 policy, we advise to follow the updated rules available on the ICTP page Access Guidelines for Visitors.
ICTP
ICTP
pio@ictp.it
15 Aug 2022
- 17 Aug 2022
» From Global to Coastal: Cultivating New Solutions and Partnerships for an Enhanced Ocean Observing System in a Decade of Accelerating Change | (smr 3731)
Europe/Rome
2022-09-04 08:00:00
2022-09-06 22:00:00
Conference on Regional Climate Modeling and Extreme Events over South America: results from the CORDEX-Flagship Pilot Study | (smr 3745)
The South America-Flagship Pilot Study Initiative (FPS-SA) endorsed by the Coordinated Regional Downscaling Experiment (CORDEX) aims to investigate multi-scale aspects, processes and interactions that result in extreme precipitation events using dynamical models (high resolution, convection permitting and coupled models) and statistical models. With focus on extreme events, the Added Value of dynamical (RCM) and statistical (ESD) downscaling is also explored. The main objective of the conference is to share and discuss results from this initiative with the South and Central American (SAM/CAM) regional modeling community, as well as lessons learned from the experience of European scientists which are relevant to advance with the FPS-SA.
The conference is intended not only for researchers actively involved in the FPS- SESA but also for early career SAM/CAM scientists and researchers in the field of regional climate modeling and statistical downscaling and related applications.
The conference will include a capacity-building activity focussing on regional climate modeling and the 5th generation version of the model RegCM5, which includes a new non-hydrostatic dynamical core. The activity may be taken by participants of the conference or by other scientists from SAM/CAM.
The Conference will have presentations of recent results of the FPS-SESA and discussions on ongoing research activities covering the following topics:
* Analysis of dynamical and statistical model results in the South America domain based on convection permitting model simulations and on several ESD methods;
* Added Value of dynamical and statistical downscaling in simulating precipitation extremes in southeastern South America;
* Lessons learned from the CORDEX FPS over Europe and the Mediterranean on convection permitting modeling and ESD methods:
* Climate variability at regional scale influenced by local and remote forcings;
* Applications in hydrological and crop models;
* The FPS-SESA collaborative experience: future collaborative research and coordinated activities with focus on relevant climate phenomena in South America.
Speakers:
Santiago Vianna Cuadra, Brazilian Agricultural Research Corporation, Brazil
Michelle Reboita, UNIFEI, Brazil
Tereza Cavazos (CICESE, Mexico)
Jesús Fernández, CSIC / University of Cantabria, Spain
Sin Chan Chou, INPE, Brazil
Josipa Milovac, CSIC/University of Cantabria, Spain
Moira Evelina Doyle, UBA/CONICET, Argentina
Jorge Baño-Medina, CSIC / University of Cantabria, Spain
José Manuel Gutierrez, CSIC / University of Cantabria, Spain
Erika Coppola, ICTP, Italy
Rosmeri Porfirio da Rocha, IAG/USP, Brazil
Marta Llopart, São Paulo State University, Brazil
Silvina Solman, University of Buenos Aires/CIMA- CONICET, Argentina
Maria Laura Bettolli, University of Buenos Aires /CONICET, Argentina
Marcelo Barreiro, University of the Republic of Uruguay
Buenos Aires - Argentina
ICTP
pio@ictp.it
4 Sep 2022
- 6 Sep 2022
» Conference on Regional Climate Modeling and Extreme Events over South America: results from the CORDEX-Flagship Pilot Study | (smr 3745)
Europe/Rome
2022-09-05 08:00:00
2022-10-28 22:00:00
Climate Data and Seasonal Forecast Analysis Techniques | (smr 3691)
A collaboration with UNESCO southern Africa regional office, this online workshop will outline how to access and process gridded climate data.
Based on the eDX open-learning platform, the course will take the form of a series of pre-recorded, video-based lectures, each one focussed on a specific topic outlined below, with related exercises. The course assessment will consist of two larger assignments, which are assessed automatically. The successful completion of the assignments will lead to course certification. Once a week, the lecturer will be available for an interactive tutorial sessions to help with issues related to the course.
Please note that successful completion of this course is a prerequisite for the selection process of the in-person activity "Climate data and seasonal forecast analysis techniques - II part | (smr 3747)" and related activities.
Topics:
Accessing state-of-the-art reanalysis climate data from the Copernicus Climate Data store
Extracting data for specific areas and locations
Calculating spatial and temporal statistics and anomalies
Calculating derived variables and indices for extreme weather and heatwaves.
Making your own ENSO and Indian-Ocean Dipole indices
Calculating the impact of ENSO on weather in your region of interest
Registration: There is no registration fee.
Online -
ICTP
pio@ictp.it
5 Sep 2022
- 28 Oct 2022
» Climate Data and Seasonal Forecast Analysis Techniques | (smr 3691)
Europe/Rome
2022-10-17 08:00:00
2022-10-28 22:00:00
*** CANCELLED *** Mechanics of the Earthquake Cycle | (smr 3683)
Online -
ICTP
pio@ictp.it
17 Oct 2022
- 28 Oct 2022
» *** CANCELLED *** Mechanics of the Earthquake Cycle | (smr 3683)
Earth system models attempt to represent the key processes that determine the climate of our planet, such as the atmospheric and ocean circulations, aerosols and atmospheric chemistry, biogeochemical cycles, the cryosphere, and land surface processes. The research of the group uses model tools such as the latest generation of the regional climate model REGCM and intermediate complexity global model SPEEDY to understand our climate, its natural variability and its response to anthropogenic forcings.
Climate extremes in the present day and in future decades can have severe implications, with the poorest members of societies being often the most vulnerable. The ESP group uses dynamical and statistical modelling techniques to assess the socio-economic impacts of climate
variability and change, for example on energy, water and health. As with the climate models, the dynamical impact models CHYM and VECTRI are made available to the wider scientific community through regular workshops and training events.