This report is primarily directed to analyzing the legal aspects of ecosystem-based adaptation to climate change. It sketches the impacts of climate change in the Pacific Island countries, recognizing that climate change directly impacts ecosystems, which provide for the needs of people as well as for the maintenance of the natural environment.
The Pacific Ecosystem-based Adaptation to Climate Change Plus/Phase 2 (PEBACC+) Project seeks to
strengthen the resilience of ecosystems, economies, and communities to the impacts of climate change in Fiji, New Caledonia, Wallis-and-Futuna, Solomon Islands, and Vanuatu. The factsheet provides an overview of how the project will develop, sustain, and institutionalise ecosystem-based adaptation to climate change in these five countries and territories.
Vulnerable ecosystems- Sea?level rise
Increasing temperatures
Changes in rainfall
Ocean acidification
Coral reefs
Increased storm activity
Overall in Melanesia the central mountains of New
Guinea and the coral reefs and ocean life in the
outer islands of Papua New Guinea most impacted.
In the wider Pacific inundation is a major threat.
Available online
Call Number: [EL]
Physical Description: 22 p.
This report examines the role of the ecosystem services in reducing the vulnerability of the people of the Pacific Islands to climate change. Specifically, it describes the decision-making frameworks and the current state of knowledge of specific ecosystem-service/development relationships that are relevant to EbA.
Natural disasters such as hurricanes, cyclones, and tropical depressions cause average annual direct losses of US$284 million in the Pacific. With a combined population of fewer than 10 million people, annual losses are the highest in the world on a per-capita basis. Extreme weather events such as heavy rainfall are closely linked to climate change, suggesting that Pacific Island nations face increasing risk of disasters such as flooding and landslides. Proactive management through infrastructure development, social solutions, and/or ecosystem-based adaptation can mitigate these risks.