MODIS (or Moderate Resolution Imaging Spectroradiometer) is a key instrument aboard the Terra (originally known as EOS AM-1) and Aqua (originally known as EOS PM-1) satellites. Terra's orbit around the Earth is timed so that it passes from north to south across the equator in the morning, while Aqua passes south to north over the equator in the afternoon. Terra MODIS and Aqua MODIS are viewing the entire Earth's surface every 1 to 2 days, acquiring data in 36 spectral bands, or groups of wavelengths (see MODIS Technical Specifications).
This dataset hosts 31 individual environmental indicator assessments that are in the **State of Environment and Conservation in the Pacific Islands : 2020 Regional report.**
Regional indicators are used to understand the current status of conservation in the region and to establish a process for periodic reviews of the status of biodiversity and implementation of environmental management measures in the Pacific islands region.
Each Pacific regional indicator is assessed with regard to:
This first state of the environment report for the Pacific region uses regional environment indicators to assess the status, trends, and data quality and availability for the endorsed Pacific environmental priorities. This report also includes an update of the State of Conservation in Oceania report produced in 2013, which was endorsed and published in 2017.
This dataset holds all media resources for the State of Environment and Conservation in the Pacific Islands: 2020 Regional Report
State of Environment (SoE) reports provide in-country partners with a process to gather data on current environmental indicators, document their status, and formulate a plan for keeping these indicators on track or developing policies and programs as needed. This SoE Toolkit dataset contains resources that serve as guides to help create up-to-date State of Environment reports.
This article explores the phenomenon of the use of ICT for climate change activism in the Pacific.
This compendium presents a wide-ranging overview of more than 400 projects, case studies and research activities specifically related to climate change and Indigenous Peoples. It provides a sketch of the climate and environmental changes, local observations and impacts being felt by communities in different regions, and outlines various adaptation and mitigation strategies that are currently being implemented by Indigenous Peoples
This Special Issue of the Journal of South Pacific Law aims to provide insight into the role of international law in addressing the short-term and long-term challenges posed by climate change to Pacific Island States and their populations. It focuses on the two international legal frameworks that were designed to protect the Earth’s climate system and the human person: international climate change law on the one hand, and international human rights law on the other.
A Pacific information brief from the Pacific Invasives Partnership (a working group of the Roundtable for Nature Conservation in the Pacific Islands)
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.
This study, commissioned by the UNEP/CMS Secretariat, aims to identify how climate change is likely to affect individual migratory species, and the degree of threat that they face.
Doumenting ADB’s ongoing and emerging climate change mitigation and adaptation programs, and how they continue to play a catalytic role in helping Asia and the Pacific meet the challenges brought about by climate change
This CMEP report provides a summary of climate change impacts on coasts and seas in the Pacific island region, and how Pacific islands can respond.
This report synthesizes the emerging evidence of climate impacts at different temperature thresholds for Pacific islands. All evidence points to vast differences in impacts in a 1.5˚C world, compared to the +3˚C world to which our current policies and climate change pledges are leading us. For Pacific islands and marine and coastal ecosystems in the region, these differences cannot be overstated; even a 0.5˚C difference (between 1.5˚C and 2˚C) may mean that critical tipping points are crossed.
This paper discuss impacts of climate change on corals according to standardized metrics. It also deals with non-climate drivers because of the synergistic effects they have with climate drivers affecting Pacific corals.
This paper discuss the profound effects of climate change on oceanic fish habitats, food webs, the fish stocks they support and, as a consequence, the productivity of fisheries
This paper points out that the exposure to climate hazards varies between states based both on geographical factors (such as the propensity to experience cyclones and droughts, island types and topography) and on such factors as population and infrastructure distribution, all of which provide a framework for considering regional vulnerability to climate change.
This report focuses on marine/coastal inundation and sea level and how they are affected by climate change.
The region of interest is the Pacific Islands, with a focus on Commonwealth countries (Fiji, Kiribati, Nauru, Papua New Guinea, Samoa, Solomon Islands, Tonga, Tuvalu and Vanuatu).
In the Pacific Islands region, fish and invertebrates (specifically shellfish) fulfill important ecological roles in coastal and oceanic habitats, and many species are targeted by fisheries, making vital contributions to food security, livelihoods, government revenue and cultural heritage. This report discusses how climate change is expected to have profound effects on the status and distribution of coastal and oceanic habitats, the fish and invertebrates they support and, as a result, the productivity of fisheries and aquaculture
Pacific Island Commonwealth Member States (Pacific CMSs) are highly vulnerable to climate change (high confidence; robust evidence, high agreement). Impacts of climate change on extreme events relevant to Pacific CMSs vary, dependent on the magnitude, frequency, and temporal and spatial extent of the event, as well as on the biophysical nature of the island and its social, economic, and political setting (high confidence).