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| [[File:GFI.jpg]] | | [[File:GFI.jpg]] |
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| | ==[[Teaching]]== |
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| ==Research and PhD/Postdoc Groups== | | ==Research and PhD/Postdoc Groups== |
| ===[[Meteorology]]=== | | ===[[Meteorology]]=== |
| ===[[ResClim Bergen subgroup]]=== | | ===[[ResClim Bergen subgroup]]=== |
| | ===[[Physical Oceanography group]]=== |
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| | ==Observations== |
| | ===[[ITAS Automatic Weather Stations]]=== |
| | ===[[MRR Micro Rain Radar]]=== |
| | ===[[TPS-3100 Hotplate pluviometer]]=== |
| | ===[[Parsivel2 Disdrometer]]=== |
| | ===[[HOBO rain gauges]]=== |
| | ===[[EasyLog temperature logger]]=== |
| | ===[[iMet UAV sonde package]]=== |
| | ===[[Kristine Bonnevie shiplog data]]=== |
| | ===[[Joining several data files with CDO and IsoFuse]]=== |
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| | ==Shared data sets== |
| | ===[[ERDDAP]]=== |
| | ===[[ERA5 reanalysis data]]=== |
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| ==IT== | | ==IT (Hardware and Software)== |
| | ===[[The GFI computing system]]=== |
| | ===[[Using cyclone]]=== |
| | ===[[Using modules on cyclone]]=== |
| | ===[[Best practices when using cyclone]]=== |
| ===[[Bedymo]]=== | | ===[[Bedymo]]=== |
| ===[[Dynlib]]=== | | ===[[Dynlib]]=== |
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| ===[[NCL]]=== | | ===[[NCL]]=== |
| ===[[Python]]=== | | ===[[Python]]=== |
| ===[[Using the queue system on skd-cyclone]]===
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| ===[[WRF]]=== | | ===[[WRF]]=== |
| | ===[[OpenIFS]]=== |
| | ===[[GFI&SKD Storage]]=== |
| | ===(outdated) [[Using the queue system on skd-cyclone]]=== |
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| | ==IsoMet Tools== |
| | ===[[FLEXPART]]=== |
| | ===[[Lagranto]]=== |
| ===[[WaterSip]]=== | | ===[[WaterSip]]=== |
| | | ===[[Flextract]]=== |
| WaterSip is a diagnostic software tool that identifies source, transport and arrival properties of atmospheric water vapour. It implements the moisture source diagnostic of Sodemann et al. (2008) for input data from either FLEXPART particle output or Lagranto trajectories.
| | ===[[Joining several data files with CDO and IsoFuse|IsoFuse]]=== |
| | | ===[[Rayleigh model]]=== |
| ==== Input file options ==== | | ===[[FLIIMP - FARLAB liquid water isotope measurements processor]]=== |
| | | ===[[FaVaCal - FARLAB water vapour isotope calibration processor]]=== |
| The WaterSip input file is a text file with options that are specified for different option groups. Option groups are identified by square brackets (e.g. <code>[Case]</code>). There are 7 option groups which can appear in random order in the input file:
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| *Case: general settings related to the case to be extracted
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| *Grids: specification of different output grids
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| *Diagnostrics: parameters of the moisture diagnostic
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| *Output: general output settings
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| *Variables: selection of output variables
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| *Flexpart: options specific to runs using FLEXPART particle output
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| *Lagranto: options specific to runs using Lagranto trajectories
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| <pre>
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| [Case]
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| caseName = global_201002_final_relativex
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| inputDir = /Volumes/Data_B/flexpart/global/shortposit_%s
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| outputDir=/Volumes/Data_B/watersip/global_201002_V3/
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| startDate = 20100228-180000
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| endDate = 20100211-000000
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| timeStep = 6
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| sectorizeRegion = 0
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| filterBoxFile = /home/hso039/progs/WaterSip_tool/BOX_FILTERS_SiebenHengste
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| filterIndex = -1
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| orographyFile = "/Users/hso039/Library/Mobile Documents/com~apple~CloudDocs/WaterSip_tool/etopo5.nc"
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| lsmFile = "/Users/hso039/Library/Mobile Documents/com~apple~CloudDocs/WaterSip_tool/ERA_sea_mask_inv.nc"
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| maskFile = " "
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| useMask = 0
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| trajPoints = 41
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| minTrajPoints = 0
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| ompThreads = 1
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| showStats = 0
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| [Grids] | |
| arrivalGridMinLon = -180
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| arrivalGridMaxLon = 180
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| arrivalGridMinLat = -90
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| arrivalGridMaxLat = 90
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| arrivalGridDx = 1
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| arrivalGridDy = 1
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| arrivalGridRadius = 200
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| sourceGridMinLon = -180
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| sourceGridMaxLon = 180
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| sourceGridMinLat = -90
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| sourceGridMaxLat = 90
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| sourceGridDx = 1
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| sourceGridDy = 1
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| sourceGridRadius = 200
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| griddingType = 2
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| [Diagnostics] | |
| uptakeThreshold = 0.05
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| precipThreshold = 0.05
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| blhScale = 1.5
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| arrivalPrecipMin = 0.05
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| arrivalPrecipMax = 1.0
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| arrivalRHMin = 80
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| arrivalRHMax = 110
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| arrivalOroMin = -100
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| arrivalOroMax = 12000
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| arrivalAltMin = -100
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| arrivalAltMax = 12000
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| analyzeVapour = 0
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| assignToUptake = 0
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| forwardProjectionMode = 3
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| relativeThreshold = 1
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| [Output] | |
| stepFile = 1
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| dayFile = 1
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| monthFile = 1
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| yearFile = 1
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| allFile = 1
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| staticFields = 1
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| saveTraj = 0
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| skipTraj = 0
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| saveHistogram = 0
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| saveMean = 0
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| [Variables] | |
| sourcesBoundaryLayer = 1
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| sourcesFreeTroposphere = 1
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| evaporationMinusPrecipitation = 1
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| moistureTransport = 1
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| trajectoryLocations = 1
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| precipitationEstimate = 1
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| sourceLongitude = 1
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| sourceLatitude = 1
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| convectionCount = 0
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| convectionHeight = 0
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| landFraction = 1
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| boundaryLayerFraction = 1
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| freeTroposphereFraction = 1
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| combinedFraction = 0
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| transportTime = 1
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| sourceSkinTemperature = 1
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| sourceSpecificHumidity = 0
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| transportDistance = 1
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| sourceDistance = 1
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| source2mTemperature = 0
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| sourceDeuteriumExcess = 1
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| transportTemperature = 1
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| transportPressure = 1
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| condensationTemperature = 1
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| arrivalTemperature = 1
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| arrivalPressure = 1
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| arrival2mTemperature = 0
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| arrivalSkinTemperature = 1
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| [Flexpart]
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| inputFormat = 3
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| maxPart = 5000000
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| partMass = 1.01943e+12
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| partStride = 10
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| allowReenter = 1
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| </pre>
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| ==Social Activities and Groups== | | ==Social Activities and Groups== |
