This academic paper investigates the vulnerability of households to climatic disasters in the low-lying atoll nation of Tuvalu. Using the most recent household surveys available, the authors constructed poverty and hardship profiles for households on the different islands of Tuvalu, and combine these with geographic and topographic information to assess the exposure differentials among different groups using spatial econometric models.
The map is a fundamental tool for local resident and island management. It was constructed by latest and high-resolution satellite images and the measured results of field investigation by Foram Sand Project, J-PACE and SOPAC.
This study addresses rainfall trends, the frequency of droughts, La Niña influences and the relationship between rainfall and Sea Surface Temperature (SST) in Tuvalu. The findings revealed that;
* de-trended rainfall time series show declining trends in all four rainfall stations over the period 1953-2012;
* the frequency of drought ranges from three to fourteen years with a mean of nine years
* the occurrence of drought appears to follow the La Niña years
* boplots provide an effective option for defining drought
Tuvalu’s environment is under pressure: sea-water rise contaminating the soil with salt, direct impact on waste and sewage systems from rising human density contributing to further damage. The 1987 UN Brundlandt report has definitely shown the existing link between environment/ecology and development /economy. Tomorrow’s economy stems from today’s environment.
McCubbin, S. G., T. Pearce, J. D. Ford, and B. Smit. 2017
Pacific Ozone Depleting Substances (ODS) Project
Adelle Thomas, Patrick Pringle, Peter Pfleiderer and Carl-Friedrich Schleussner 2017
Initial Environmental Examination
Prepared by Tuvalu Electricity Corporation for the Asian Development Bank
World Health Organization, 2015
The Vanuatu National Environment Policy and Implementation Plan 2016–2030 (NEPIP) is an overarching policy for the sustainable conservation, development and management of the environment of Vanuatu. It is the first of its kind since Vanuatu gained independence in 1980.
A report from a workshop that was aim to enable curriculum writers (formal and non formal) for K-6 to develop learning outcomes (including knowledge, skills and attitudes) on climate change and disaster risk reduction and options for mitigation and adaptation in Vanuatu (Agenda see Annex I)
Under the GEF- funded project, ‘Integrating climate change risk in the Agriculture and Health Sectors in Samoa’ (ICCRAHS), this report was developed as requested by UNDP on behalf of MNRE, follows a two-day ‘Sector Engagement Workshop’ for MNRE and other Ministry staff. The report:
• summarises key ideas and responses from workshop participants which point to developments in climate services that are needed to fully engage users and enable improved decision making in Samoa;
The overall objective of this strategy is to provide a strategic framework for building and strengthening the capacity and services of the Vanuatu Meteorology and Geo-Hazards Department
This dataset contains brochures of the summary of climate projections for Vanuatu.
The contents is the result of a collaborative effort between the Vanuatu Meteorology and Geo-hazard Department and the Pacific-Australia Climate Change Science and Adaptation Planning (PACCSAP) Program – a component of the Australian Government’s International Climate Change Adaptation Initiative.
The research sought to understand the adaptive capacity of both Pacific island countries (PICs) and Australia’s disaster response to a potential increase in disasters driven by climate change. This report provides results for Vanuatu – one of four case study countries selected for deeper analysis.
Under the Pacific-Australia Climate Change Science and Adaptation Planning (PACCSAP) Programme this fact sheet was produced based on the application of cost-benefit analysis to compare the merits of different options to improve road access
Between March 12 and 14, 2015, Tropical Cyclone Pam struck Vanuatu as an extremely destructive Category 5 cyclone, with estimated wind speeds of 250km/h and wind gusts that peaked at around 320km/h. This assessment provides estimates to the the damages and losses, and identifies the needs of the affected population.