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|Formation||23 March 1950|
Petteri Taalas (Secretary-General) |
David Grimes (President)
The World Meteorological Organization (WMO) is an intergovernmental organization with a membership of 191 Member States and Territories. It originated from the International Meteorological Organization (IMO), which was founded in 1873. Established by the ratification of the WMO Convention on 23 March 1950, WMO became the specialised agency of the United Nations for meteorology (weather and climate), operational hydrology and related geophysical sciences a year later. Its current Secretary-General is Petteri Taalas and the President of the World Meteorological Congress, its supreme body, is David Grimes. The Organization is headquartered in Geneva, Switzerland.
The World Meteorological Organization (WMO) is a specialized agency of the United Nations. It is the UN system's authoritative voice on the state and behavior of the Earth's atmosphere, its interaction with the oceans, the climate it produces and the resulting distribution of water resources.
WMO has a membership of 191 Member States and Territories as of February 2014. The Convention of the World Meteorological Organization was signed 11 October 1947 and established upon ratification on 23 March 1950. WMO became the specialized agency of the United Nations in 1951 for meteorology (weather and climate), operational hydrology and related geophysical sciences. It originated from the International Meteorological Organization (IMO), which was founded in 1873.
The WMO hierarchy:
Weather, climate and the water cycle shape almost every aspect of our lives. They can be benevolent and bring abundance and well-being, but they can also be dangerous and cause great damage: weather-, climate and water-related hazards account for nearly 90% of "natural" disasters. These powerful natural forces do not recognize national borders, thus global and regional cooperation is essential. Global data are needed to understand the behaviour of the Earth’s atmosphere and its interaction with the land and oceans - whether it be to predict next week’s weather or next year’s climate, forecasters must have timely, quality-assured, standardized information coming from all corners of the world. Even the accuracy of a two-day weather forecast relies on observations from far beyond national borders. The World Meteorological Organization provides the framework for this essential international cooperation among the National Meteorological and Hydrological Services of its 191 Member States and Territories.
Thanks to the international coordination efforts of WMO, National Meteorological and Hydrological Services provide daily weather forecasts and early and reliable warnings of high-impact weather and climate events. These warnings help to save countless lives and to protect property and the environment from damage. They contribute to economic planning and decision-making, and help minimize the harm that weather, climate and water hazards can cause to socioeconomic development. The Organization also fosters collaboration between the National Meteorological and Hydrological Services to furthers the application of meteorology to public weather services, agriculture, aviation, shipping, energy, water resource management and many other economic sectors.
The first step in producing weather forecasts is to gather non-stop observations of the environment from around the world. Millions of observations are gathered worldwide every day by over 50 satellites, 400 moored buoys, 1 250 drifting buoys, 4 000 aircraft from around 40 commercial aircraft companies, 7 300 ships and 10 000 land-based observing stations. WMO develops the technical standards for designing these and other observing instruments and for ensuring that the collected data are quality controlled and comparable. Data that pass the test are fed into the complex numerical weather prediction models that National Meteorological Services use to produce weather forecasts, early warnings of storms and other natural hazards, air-quality forecasts, climate predictions and risk assessments. These forecasts and related products are broadcast in real time to the public and myriads of users worldwide. This enables governments to provide reliable and effective weather services to protect lives and property and ensure sustainable economic development and the general welfare of their citizens. To achieve these objectives, WMO advocates for broad, open data policies and maintains standardized data and exchange mechanisms. It also collaborates on the development of innovative data collection and delivery systems.
The stations of the WMO Global Atmosphere Watch play a vital role in detecting climate variability and change by monitoring long-term changes in levels of greenhouse gases, solar radiation and other atmospheric components to assess their effects on people, climate, regional and urban air quality, and marine and terrestrial ecosystems. They project the magnitude and rate of climate change and related impacts such as sea-level rise. WMO publishes an annual Greenhouse Gas Bulletin, with details on atmospheric concentrations of long-lived greenhouse gases including carbon dioxide, methane and nitrous oxide.
The WMO-led Global Framework for Climate Services (GFCS) guides the development of science-based climate information and services to support decision-making in climate-sensitive sectors. GFCS coordinates actions at the national, regional and global levels to enhance the quality, quantity and use of climate services. Climate information empowers countries to implement the Paris Agreement on climate change and promotes sustainable development. The GFCS enables public- and private-sector decision-makers to plan and adapt their activities and projects in anticipation of changing conditions. Seasonal climate forecasts, in particular, are increasingly used for agriculture and food security, disaster risk reduction, energy, public health, water resources and other sectors.
The annually published WMO Statements on the status of the World Climate provides details of global, regional and national temperatures and extreme weather events. It also provides information on long-term climate change indicators include atmospheric concentrations of greenhouse gases, sea level rise, and sea ice extent. The year 2016 was the hottest year on record, with many weather and climate extremes, according to the most recent WMO report.
The World Meteorological Organization further supports climate change assessments by providing data and models and by hosting and co-sponsoring the Intergovernmental Panel on Climate Change (IPCC), the Global Climate Observing System (GCOS) and the World Climate Research Programme (WCRP).
Water is essential for the production of virtually all of our goods and services. It is the most important and widely used source of renewable energy - hydropower represents approximately 16% of total electricity production worldwide. The World Meteorological Organization promotes water-resource assessments by National Hydrological Services, which, in turn, provide the forecasts needed to plan water storage for domestic requirements, agricultural activities, hydroelectric power gener- ation and urban development.
The Organization also assists National Hydrological Services to establish and maintain systems for acquiring and disseminating accurate and timely information on the water cycle for formulating integrated water-resource management strategies. Equipped with better hydrological information, assessments and forecasts, countries are able to independently assess their water resources and respond to threats of floods and drought.
The WMO Strategic Plan sets the directions and priorities to guide the activities of Members and constituent bodies to enable the improvement of their core information, products and services, to maintain necessary infrastructures and to directly benefit from advancements in science and technology. This Plan emphasizes the following key priorities:
The 2030 Agenda for Sustainable Development serves as the centerpiece for national and international policymaking over the next 15 years. It sets out 17 Sustainable Development Goals (SDGs) that the WMO community can contribute to at the national and international levels. National Meteorological and Hydrological Services (NMHSs) can benefit from the status of WMO as a Specialized Agency of the UN to engage with the 2030 Agenda. They can also draw on the partnerships that the WMO community continues to build with other communities, sectors and disciplines, for example, through national climate services and the Global Framework for Climate Services. As policymakers and the general public gain a better understand of the WMO contribution to sustainable development, National Meteorological and Hydrological Services can look forward to establishing an even stronger role in protecting life and property, and in building weather and climate resilience.
In keeping with its mandate to promote the standardization of meteorological observations, the WMO maintains numerous code forms for the representation and exchange of meteorological, oceanographical, and hydrological data. The traditional code forms, such as SYNOP, CLIMAT and TEMP, are character-based and their coding is position-based. Newer WMO code forms are designed for portability, extensibility and universality. These are BUFR, CREX, and, for gridded geo-positioned data, GRIB.
1853 First International Meteorological Conference (Brussels)
1873 International Meteorological Organization established (predecessor of WMO)
1947 WMO Convention agreed unanimously by Conference of Directors (Washington, DC)
1950 WMO Convention enters into force on 23 March
1951 WMO becomes a specialized agency of the United Nations
1957 Global Ozone Observing System set up
1957/1958 International Geophysical Year
1963 World Weather Watch (WWW) launched
1971 Tropical Cyclone project established (upgraded to Tropical Cyclone Programme in 1980)
1972 Operational Hydrology Programme established
1976 WMO issues first international assessment of the state of global ozone
1978/1979 Global Weather Experiment and Monsoon Experiments under the Global Atmospheric Research Programme
1979 First World Climate Conference (leads to the establishment of the WMO World Climate Programme)
1989 Global Atmosphere Watch established
1991 WMO/UNEP convene first meeting of the Intergovernmental Negotiating Committee of the United Nations Framework Convention on Climate Change
1992 The Global Climate Observing System established
1993 World Hydrological Cycle Observing System (WHYCOS) launched
1995 Climate Information and Prediction Services (CLIPS) established
1998 Scientific Assessment of Ozone Depletion
1999 Inauguration of new WMO headquarters in Geneva
2005 Group on Earth Observations (GEO) Secretariat established
2007/2008 International Polar Year
2015 Sendai Framework for Disaster Risk Reduction 2015–2030; 2030 Agenda for Sustainable Development; Paris Agreement reached at the Conference of the Parties (COP21) of the UNFCCC
As of February 2014, WMO Members include a total of 185 Member States and 6 Member Territories.
Ten United Nations member states are not members of WMO: Andorra, Equatorial Guinea, Grenada, Liechtenstein, Marshall Islands, Nauru, Palau, Saint Kitts and Nevis, Saint Vincent and the Grenadines and San Marino. Cook Islands and Niue are WMO Members but non-members of the United Nations. Vatican City and the states with limited recognition are not members of either organization.
The six WMO Member Territories are the British Caribbean Territories (joint meteorological organisation and membership), French Polynesia, Hong Kong, Macau, Curaçao and Sint Maarten (joint meteorological service and membership) and New Caledonia. (List of all members with admission dates.)
Region I consists of the states of Africa and a few former colonial powers. Region I has 57 member states and no member territories:
Region II has 33 member states and 2 member territories. The member states are:
The member territories are:
Region IV consists of the states of North America, Central America, and the Caribbean, including three European states with dependencies within the region. It has a total of 25 member states and 2 member territories. The member states are:
The two member territories are:
Region V consists of 21 member states and 2 member territories. The member states are:
The member territories are:
A total of ten member states have membership in more than one region. Two nations are members to four different regions, while eight are members of two regions. These nations, with their regions, are as follows:
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