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Bulletin nº Vol 70 (2) - 2021
Publish Date: 7 October 2021
WMO has adopted a unified Earth system approach to ensure weather, water and climate decisions are better informed by an integrated monitoring and prediction of all relevant Earth system components. This includes extending its reach to the furthest and most frigid parts of the globe, the Arctic, Antarctica and the high-mountain regions, where the cryosphere is a prominent feature.
Publish Date: 1 April 2022
Record high temperatures, rain and the collapse of an ice shelf in East Antarctica have prompted questions and concern about the possible role of climate change in the coldest and driest part of the world.
The WMO Global Campus is a collaborative network of institutions and National Meteorological Hydrological Services involved in the development and delivery of education and training in meteorology, climatology, hydrology and other related sciences. It is built on the synergies, sharing and cooperation between these institutions and will address global priorities and the growing and changing requirements and needs for learning in the community.
The WMO's Global Cryosphere Watch (GCW) fosters international coordination and partnerships between scientific and operational communities with the goal of meeting the cryosphere data and information need of Members and partners, in support of Earth system monitoring, modeling and prediction. GCW operates under the remit of the Infrastructure Commission (INFCOM).
The Executive Council Panel on Polar and High Mountain Observation, Research and Services (EC-PHORS) plays a meaningful role on overseeing, coordinating and monitoring how polar and high-mountain observations, research, services and policies are developed and implemented within and externally to WMO, in response of significant changes in the polar and high mountain environments.
Publish Date: 16 June 2021
WMO’s Global Cryosphere Watch community is supporting a new international project to strengthen observing systems in the Arctic in the face of rapid climate and environmental change.
Publish Date: 11 June 2021
Above normal air and sea-surface temperatures are expected over the majority of the Arctic regions in June, July, and August 2021. Lower to near normal ice cover is the predominant forecast while early to near normal break-up of sea ice is expected for most regions. This is according to a new seasonal climate outlook produced by the Arctic Climate Forum.
Connecting people and institutions to the learning opportunities necessary for well-functioning meteorological, hydrological and climate services.
Start date10 March 2016
Publish Date: 20 May 2021
New observations show that the increase in Arctic average surface temperature between 1979 and 2019 was three times higher than the global average during this period – higher than previously reported - according to the Arctic Monitoring and Assessment Programme (AMAP).
Publish Date: 10 December 2020
Climate change continues to disrupt the Arctic, with the second-highest air temperatures and second-lowest summer sea ice driving a cascade of impacts, including the loss of snow and extraordinary wildfires in northern Russia in 2020.