__Das KLIMA in TIROL - SÜDTIROL - BELLUNO__ Die Wetterdienste nördlich und südlich des Brenners sowie in den Dolomiten haben sich im Rahmen des Projekts „3PClim – Past, Present and Perspective Climate of Tirol, South Tyrol and Veneto“ (Interreg IV Italien-Österreich) zusammengeschlossen und anhand von Daten verfügbarer Wetterstationen, Niederschlagsradar- und Gletschervermessungen das Klima der letzten Jahrzehnte untersucht. Darüber hinaus wurde die klimatische Entwicklung im Alpenraum in der nahen Zukunft bestimmt. In diesem ZIP file finden Sie die wichtigsten Daten und Ergebnisse des Projekts in Form von Tabellen, Grafiken und Karten. __Inhalt__ •[A] Klima 1981-2010 •[B] Entwicklung von Temperatur und Niederschlag •[C] Zukünftiges Klima •[D] Konvektion •[E] Gletscher
Homogenisierte Datenbasis des Klimas für den Alpenraum sowie die Umgebung in Mitteleuropa
Homogenisierte Datenbasis des Klimas für den Alpenraum sowie die Umgebung in Mitteleuropa
Homogenisierte Datenbasis des Klimas für den Alpenraum sowie die Umgebung in Mitteleuropa
Homogenisierte Datenbasis des Klimas für den Alpenraum sowie die Umgebung in Mitteleuropa
Homogenisierte Datenbasis des Klimas für den Alpenraum sowie die Umgebung in Mitteleuropa
This datasets contains local weather data collected by Council's maintained weather stations.
Baseline dataset to understand summer-time heat distribution across the Local Government Area (LGA) and to determine where a surface heat islands may exist in the urban zone.Maitland City Council has undertaken this urban heat mapping project to identify priority suburbs within the LGA and inform targeted initiatives to mitigate the heat island effect.
Areas in the Maitland local government area identified as temperature hotspots.
Radio occultation observations gridded to daily 2.5°x2.5° fields by a Gaussian weighted average over ±2 days and 15°x5° longitude-latitude, based on radio occultation profile data version OPSv5.6.2. A detailed description of this data is given in Brunner and Steiner (2017): https://doi.org/10.5194/amt-10-4727-2017
Radio occultation observations gridded to daily 2.5°x2.5° fields by a Gaussian weighted average over ±2 days and 15°x5° longitude-latitude, based on radio occultation profile data version OPSv5.6.2. A detailed description of this data is given in Brunner and Steiner (2017): https://doi.org/10.5194/amt-10-4727-2017
This endpoint provides daily average GB temperature data (in Celsius). This average data is calculated by National Grid ESO from the data retrieved from 6 weather stations around Britain. NGESO use this data as part of the electricity demand forecasting process
Radio occultation observations gridded to daily 2.5°x2.5° fields by a Gaussian weighted average over ±2 days and 15°x5° longitude-latitude, based on radio occultation profile data version OPSv5.6.2. A detailed description of this data is given in Brunner and Steiner (2017): https://doi.org/10.5194/amt-10-4727-2017
annual cooling degree days
seasonal cooling degree days
annual sum of all days during cold waves (cold wave: 5 days with Tmax < 0 Celcius)
seasonal sum of all days during cold waves (cold wave: 5 days with Tmax < 0 Celcius)
number of days with Tmin < 0 Celsius for the period from April 1st to April 10th
number of days with Tmin < 0 Celsius for the period from April 11th to April 20th
number of days with Tmin < 0 Celsius for the period from April 21st to April 30th
number of days with Tmin < 0 Celsius for the period from May 1st to May 10th
number of days with Tmin < 0 Celsius for the period from May 11th to May 20th
number of days with Tmin < 0 Celsius for the period from May 21st to May 31st
monthly number of days with Tmin < 0 Celsius
seasonal number of days with Tmin < 0 Celsius
number of freeze thaw changes for December and January
number of freeze thaw changes for February and March
number of freeze thaw changes for January and February
number of freeze thaw changes for March and April
number of freeze thaw changes for November and December
number of freeze thaw changes for October and November
annual heating degree days
annual sum of all days during heat waves (heat wave: 3 days with Tmin > 18 Celsius and Tmax > 30 Celsius)
seasonal sum of all days during heat waves (heat wave: 3 days with Tmin > 18 Celsius and Tmax > 30 Celsius)
annual number of days with Tmax < 0 Celsius
seasonal number of days with Tmax < 0 Celsius
annual number of days with Tmin < -7 Celsius and Tmax < 0 Celsius
seasonal number of days with Tmin < -7 Celsius and Tmax < 0 Celsius
annual number of kysely days
annual number of days with Tmax > 25 Celsius
monthly number of days with Tmax > 25 Celsius
seasonal number of days with Tmax > 25 Celsius
annual number of days with Tmax > 30 Celsius
monthly number of days with Tmax > 30 Celsius
easonal number of days with Tmax > 30 Celsius
seasonal air temperature mean
number of thaw period days from February 15th until April 15th
number of thaw period days from October 15th until January 15th
annual number of days with Tmin > 20 Celsius
seasonal number of days with Tmin > 20 Celsius