Basic CMYK - UN-CECAR - United Nations University
Transcription
Basic CMYK - UN-CECAR - United Nations University
Other Information Faculty and Learning Environment at SLIIT Fees Participants will benefit from working closely with an expert teaching faculty comprising of distinguished UN-CECAR scholars and practitioners. The programme will be conducted in Colombo, Sri Lanka and is organized by Sri Lanka Institute of Information Technology (SLIIT) with the support of University of Peradeniya. Participants can attend either Course 1 or Course 2 for USD 1,000 each or attend the full training programme (Course 1 and Course 2) for USD 2,000. All participants are expected to pay for their own travel and living expenses in Sri Lanka. A limited number of fellowships (covering tuition fee) are available for government officials and UN-CECAR partner universities who are nominated from respective organizations and who can demonstrate a need for financial assistance. A dedicated computer lab will be provided for participants, with software to cater to the needs of the programme, including GIS, environmental modelling applications, and statistical analysis tools. The online tool will be provided for participants to access lecture notes, reading lists and other materials specific to each course, as well as a message board and forum to facilitate discussion among faculty and participants. Student Support Services and Accommodation UNU-IAS and SLIIT will assist students through the courses, acknowledging that students may experience difficulties in adjusting to a new country and culture. Accommodation is the responsibility of students, but SLIIT will assist in finding accommodation (in an affordable hotel close to institutes conducting courses) during their stay. Daily Schedule There will be four lecture sessions per day. Morning session: 9:00-10:30 and 11:00-12:30 hours Afternoon session: 14:00-15:30 and 16:00-17:30 hours Eligibility and Application Applicants must: • complete on-line Application and submit necessary documents with a photo • One Letter of Recommendation Eligibility: • Basic understanding of climate change, downscaling approaches and related topics is desirable; • Applicants must have excellent written and verbal English-language skills. We can only accommodate a limited number of applicants in this training programme. As such, we encourage early applications as the allocation will be made on a first-come first served basis. The application deadline is 28 February 2015. Selections will be carried out and announced on the first week of August, September and October. For detailed information on the application and admission procedures, and to download the application form, please visit the UN-CECAR website at: http://cecar.unu.edu. Should you encounter any difficulty, please contact support@cecar.unu.edu United Nations University Promoting science for human security, peace and sustainable development University Network for Climate and Ecosystems Change Adaptation Research (UN-CECAR) Established in 2009 as the first of its kind in the region, UN-CECAR is an institutional platform of universities across Asia that seeks to enhance education and research on adaptation to climate change and ecosystems change, and to build the emerging sustainability science discipline. Specific objectives of the Network are to: • collect international-level knowledge on climate change adaptation and customize it to the local conditions; • assess existing and emerging climate change-related research and degree programmes in the region, and identify areas of most need; • initiate and support the development of joint- or dual-degree educational programmes, credit-sharing common courses, joint research and training programmes Visit http://cecar.unu.edu/ Institute for the Advanced Study of Sustainability (UNU-IAS) United Nations University 53–70 Jingumae 5-chome, Shibuya-ku, Tokyo 150-8925, Japan Tel: +81–3–5467–1212 Fax: +81–3–3499-2828 E-mail: support@cecar.unu.edu Website: http://cecar.unu.edu The mission of the United Nations University is to contribute, through collaborative research, capacity development and advisory services, to efforts to resolve the pressing global problems of human survival, development and welfare that are the concern of the United Nations, its Peoples and Member States. The UN University comprises a worldwide network of institutes, presently located in 13 different countries and coordinated by the UN University Centre in Tokyo. UNU Institute for the Advanced Study of Sustainability (UNU-IAS) The United Nations University Institute for the Advanced Study of Sustainability (UNU-IAS) is a leading research and teaching institute based in Tokyo, Japan. Its mission is to advance efforts towards a more sustainable future, through policy-oriented research and capacity development focused on sustainability and its social, economic and environmental dimensions. UNU-IAS serves the international community, making valuable and innovative contributions to high-level policymaking and debates within the UN system. Photos: Hideyuki Mohri Created: January 2015 Copyright 2015 United Nations University. All Rights Reserved. UNIVERSITY NETWORK FOR CLIMATE AND ECOSYSTEMS CHANGE ADAPTATION RESEARCH Training Programme on Climate Change Downscaling Approaches and Applications Spring 2015 T he United Nations University Institute for the Advanced Study of Sustainability (UNU-IAS), Tokyo, invites applications for a 10-day training on Climate Change Downscaling Approaches and Applications (CCDAA) in Water and Food Sectors in Asia. The courses have been developed under the framework of the University Network for Climate and Ecosystems Change Adaptation Research (UN-CECAR). UN CECAR is a joint initiative of more than 20 leading universities across Asia. It is committed to developing postgraduate educational and research programmes on climate and ecosystems change, adaptation and sustainability science. UNU-IAS acts as the Secretariat for UN-CECAR. The training programme will be conducted in Colombo, Sri Lanka and organized with the support of Sri Lanka Institute of Information and Technology (SLIIT). The training module consists of the following course categories: science of climate change and downscaling, dynamical and statistical downscaling methods, and impacts on rice production and impacts on floods in Asia. Participants will also receive practical training in the use of Geographic Information Systems (GIS) in adaptation planing and modelling extreme climatic events. Participants who successfully complete a written report, presentation of the written report and participation in group activity will receive a certificate of completion. The programme is practically-oriented and will be taught by highly qualified and diverse team of scientists. Target applicants: · Postgraduates, researchers or faculty staffs from universities working on climate change · Professionals from government or national agencies involved in planning responses to climate change · National climate change focal points Training Programme Information Course 1: Downscaling Methods (5 days) Course 2: Parallel Sessions on Impacts on Floods and Impacts on Rice Production (5 days) The training programme will run from the 30th March to 10th April 2015, and are open to participants from universities, government and national agencies. The first course of the training programme focuses on climate change, atmospheric science and downscaling techniques using statistical and dynamical approaches. Participants will receive training on downscaling weather forecasts to the local scale during this training programme. DAY 3 MORNING SESSION AFTERNOON SESSION Science of Climate Change and Downscaling Dynamical Downscaling Overview of Downscaling Methods Geographic Information System (GIS) 1. General Idea of Atmospheric Science 2. Introduction to Science of Climate Change, Climate Variability, Observed Climate Changes 3. Concept and Evolution of Climate Models, Projection of Future Climate Change and Uncertainties 4. Introduction to Downscaling Methods and its Advantages and Limitations 5. IPCC 5th Assessment Report 1. Description of Global and Regional ClimateModels 2. How to choose a Domain and set up a Present Day Control Run with WRF 3. Developing Climate Change Simulations Overview of Climate Projection and Downscaling from Course 1 1. 2. 3. 4. Dynamical Downscaling - hands-on Dynamical Downscaling - hands-on 1. Brief description of GCM (GFS) and WRF models 2. Model setup for domain, resolution for region of Interest 3. Pre-processing of global (GCM) model products to obtain desire initial and boundary conditions for regional model (WRF) 1. Model integration including selection of model physics 2. Post-processing of model output 3. Diagnostics and model products visualization DAY 1 MORNING AND AFTERNOON SESSION DAY 2 MRI Hand-on RegCM Model 1. MRI 20-km Model Introduction 2. Concept of Time Slice Experiment 3. Assessing Model Output Data for Climate Change Projection 1. Presenting to students the ICTP RegCM tool. 2. Presenting the CORDEX experiment CF standard format and advocating the usage of Free SoftwareTools for analyzing climate data and build impact models. DAY 3 Extended Range and Seasonal Forecast DAY 4 1. Significance of extended range forecast at regional scale in various sectors. 2. Performance and evaluation of downscaled GCMs products at regional scale. 3. Bias correction methods and its application on GCMs products for development of extended range forecast 4. Multi-model ensemble techniques for developing realistic extended range forecast . Risk Assessment DAY 5 1. Risk Management Concepts 2. Methodologies in Long and Short Term Risk Assessment 3. Hands On Exercises Extreme Rainfall and Rainfall-Intensity-Duration-Frequency Curve 1. Introduce the nature of extreme events 2. Introduce RIDF curves 3. Application of the RIDF curves for design floods of small rural and urban watersheds COMMON SESSION AFTERNOON SESSION PARALLEL SESSION DAY 2 MORNING SESSION Basic and Use of GIS Integration of Various Data Sources Importing Current and Future Weather Data into GIS Demonstration and Hands On Exercises MORNING AND AFTERNOON SESSION Session 2A: Impacts on Floods Session 2B: Impacts on Rice Production 1. Rainfall and Runoff Events 2. Spatial and Temporal Characteristics of Extreme Event 3. Limitations and Constraints of GCM/RCM in Handling Extreme Events 4. Derivation of Extreme Event Statistics from Corrected GCM Data 5. Uses and Derivation of Rainfall Intensity- Duration-Frequency (RIDF) Curves Introduction to Crop Models 1. Terminologies in Crop Model 2. Simulation Approach 3. Concepts in developing Crop System Model 4. Crop Simulation Models of DSSAT 5. Biomass and Yield Simulation Processes in CERES-Rice 1. Introduction to Distributed Physically Based Hydrological Models and Inundation Modelling 2. Setting up Targeted Basin using GIS Information 3. Calibration and Validation of Inundation Models Setting up a Crop Model (CERES-Rice of DSSAT) 1. File System of the Model 2. Input Data Requirements 3. Calibration and Validation of the Model 4. Uncertainty and Risk Analysis 1. Introduction to Damage Assessment Based on Loss Functions 2. Assessing Potential Losses for a Given Future Scenario Hands on Exercise 1. Model Calibration and Validation 2. Future Yield Simulation and Results Interpretation Statistical Downscaling 1. Overview of what is out there 2. Comparison and Selecting a Statistical Downscaling Method 3. Introduction (Physics/Statistical) 4. Methodologies (Predictand Fields) DAY 4 Discussion Feedback and Closing DAY 5 COMMON SESSION DAY 1 For the second course, participants will receive an overview of Course 1 and receive training on Geographic Information System (GIS). Then, participants can choose from the two parallel programmes on (a) Assessing flood impacts and (b) Estimating rice production utilizing future climate projections. The final day provides training on communicating results and report preparation, with time allocated for participants to complete their final report. Participants who successfully complete the training programme will be awarded a certificate of completion from UNU-IAS. Communicating Climate Information 1. Appropriate Roles for and Communication of Climate Information in Various Adaptation and Resilience Planning Processes 2. Report Preparation 3. Presentation