The El Niño/Southern Oscillation (ENSO) drives substantial variability in tropical cyclone (TC) activity around the world1–3 . However, it remains uncertain how the projected future changes in ENSO under greenhouse warming4–8 will aect TC activity, apart from an expectation that the overall frequency of TCs is likely to decrease for most ocean basins9–11. Here we show robust changes in ENSO-driven variability in TC occurrence by the late twenty-first century.

The Project aims to enhance Early Warning Systems (EWSs) in the Pacific SIDS (Fiji, Papua New Guinea, Solomon Islands, Timor-Leste and Vanuatu) , thereby contributing to building greater resilience to hydrometeorological hazards in the region. The proposed scope of the hazards for which EWSs will be created or enhanced is severe weather – including tropical cyclones, floods, drought and sea predictions. The warnings will be issued and acted upon hours, days, weeks and - in the case of drought - months ahead of the hazard occurring.

The Secretariat of the Pacific Environment Programme (SPREP) is implementing the Climate Information Services for Resilient Development in Vanuatu (CISRD), or Vanuatu Klaemet Infomesen blong redy, adapt mo protekt (Van-KIRAP) Project.

Le changement climatique est l'un des sujets dont on parle le plus dans le monde parce  qu'll affecte le quotidien de tous les habitants de la planete, y compris ceux qui vivent dans les iles du pacifique. Les scientifiques disent que lechangement climatique pourrait rendre les saisons chaudes plus longues et amener beacoup de pluies durant la saison humide.

The island Republic of Vanuatu is one of the most climatologically and seismically vulnerable countries in the world. Situated in the Pacific’s ‘Ring of Fire’ and ‘cyclone belt’, it is susceptible to volcanic eruptions, earthquakes, tsunamis, cyclones and both flood and drought. With the onset of climate change, extreme weather events are increasing the number and severity of natural disasters.

Ecosystem and socio-economic resilience analysis and mapping (ESRAM) is the first phase of the Pacific Ecosystem-Based Adaptation to Climate Change project (PEBACC), a five-year initiative funded by the German Government and implemented by the Secretariat of the Pacific Regional Environment Programme (SPREP).

This Report is the result of collaboration between the Australian Agency for International Development (AusAID) and the International Finance Corporation (IFC), a member of the World Bank Group.

This report aims to inform developing member countries of the most recent regional climate change projections and to assess the consequences of these changes for human systems. It also highlights gaps in the existing knowledge pertaining to the impacts of climate change, and identifies avenues where research continues to be needed. The information and insights presented in this report will contribute to scaling up the efforts of the Asian Development Bank (ADB) in building climate resilience in its developing member countries in the years and decades to come.

Responding to regional capacity building needs, including a lack of urban-related climate change trainings available, USAID Adapt Asia-Pacific in 2014 developed an Urban Climate Change Adaptation and Resilience (UCCAR) training course.

Pacific Tool for Resilience 

PARTneR will enable Pacific government Ministries and stakeholder organisation to effectively developed and used risk-based information to support development decision making on DRR & DRM

PARTneR will tailor RiskScape, a disaster impact mapping and modelling software developed jointly with New Zealand NIWA and GNS science.