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earth

世界中の気象状況がビジュアライズ
スーパーコンピュータが予報
3時間ごとの更新

 

海流
毎日更新

 

海面水温と
一日平均(1981-2011)の海面水温異常
毎日更新

 

波浪
3時間ごとの更新

 

オーロラ
30分ごとに更新

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翻訳

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コミュニティ Facebookページ
作り手 Cameron Beccario @cambecc
ソースコード github.com/cambecc/earth
使用ライブラリ D3.js
node.js
天気予報データ GFS (Global Forecast System)
EMC / NCEP / NWS / NOAA
海流データ OSCAR v2.0
Earth & Space Research
Global Ocean Physics Analysis and Forecast
E.U. Copernicus Marine Service Information (CMEMS). Marine Data Store (MDS). DOI: 10.48670/moi-00016
海面水温 OI SST (Optimum Interpolation Sea Surface Temperature) V2.1
NOAA Physical Sciences Laboratory, Boulder, Colorado, USA
note: OI SST data is preliminary if fresher than two weeks and may change
OSTIA (Operational Sea Surface Temperature and Sea Ice Analysis)
UK Met Office + GHRSST + E.U. Copernicus Marine Service Information (CMEMS)
RTGSST (Real Time Global Sea Surface Temperature)
MMAB / EMC / NCEP / NWS / NOAA
波浪 WAVEWATCH III
MMAB / EMC / NCEP / NWS / NOAA
Bleaching Alert Area Coral Reef Watch / NOAA
エアロゾルと大気化学 GEOS-5 (Goddard Earth Observing System)
GMAO / NASA
CAMS (Copernicus Atmosphere Monitoring System)
Copernicus / European Commission + ECMWF
オーロラ OVATION
SWPC / NCEP / NWS / NOAA
Processing script written by Dr. Stephanie Deppe (profile)
紫外線指数と紅斑線量率 Climate Prediction Center / NCEP / NWS / NOAA
Active Fires Fire Information for Resource Management System (FIRMS) / EOSDIS / NASA
(see discussion below)
GRIB/NetCDF デコーダ UCAR/Unidata THREDDS
地理データ Natural Earth
ホスティング CloudFlare
Amazon S3
フォント M+ FONTS
Google Noto Fonts
アイコン Font Awesome Free by @fontawesome - CC BY 4.0
翻訳マネジメント OneSky
カラースケール ColorBrewer2.org
Kindlmann Linear Luminance
MYCARTA
Dave Green's cubehelix
ウォーターマン蝶型 watermanpolyhedron.com
関連サイト air.nullschool.net
インスピレーション HINT.FM wind map

各気圧によるおおむねの高度
note: 1 ヘクトパスカル (hPa) = 1 ミリバール (mb)

1000 hPa 00,~100 m, 周辺海水位
850 hPa 0~1,500 m, 大気境界層〖下〗
700 hPa 0~3,500 m, 大気境界層〖上〗
500 hPa 0~5,000 m, 渦度
250 hPa ~10,500 m, ジェット気流
70 hPa ~17,500 m, 成層圏
10 hPa ~26,500 m, もっと成層圏

the "Surface" layer represents conditions at ground or water level
this layer follows the contours of mountains, valleys, etc.

 

overlays show another dimension of data using color
some overlays are valid at a specific height
while others are valid for the entire thickness of the atmosphere

風速 指定高度の風速
気温 指定高度の温度
相対湿度 指定高度の相対湿度
湿球温度 地表から2m上の湿球温度
calculated from GFS dry bulb temperature, dew point temperature, and pressure variables using the approach from Brice and Hall
露点温度 地表から2m上の露点温度
WPD 瞬間風力エネルギー密度
measure of power available in the wind: ½ρv3, where ρ is air density and v is wind velocity
可降水量 可降水量
total amount of water in a column of air stretching from ground to space
雲水量 雲水量
total amount of water in clouds in a column of air from ground to space
3HPA 3時間の累積降水量
現在から3時間後までの降水量
CAPE 対流有効位置エネルギー(地上)
indicates the buoyancy of air, a measure of atmospheric instability and predictor of severe weather
海面更正 海面更正気圧
air pressure reduced to sea level
体感温度 体感温度
perceived air temperature as combination of heat index and wind chill
UVI 紫外線指数
risk of harm from unprotected sun exposure due to the strength of sunburn-producing ultraviolet (UV) radiation
0 - 2 弱い
3 - 5 中程度
6 - 7 強い
8 - 10 非常に強い
11+ 極端に強い
海面水温 海面水温(SST)
海面温度
海面水温異常 Sea Surface Temperature Anomaly
RTG-SST: difference in ocean temperature from daily average during years 1981-2011
OSTIA: calculated from 1981–present Pathfinder climatology
OI SST: calculated from 1971-2000 OI SST V2 climatology
有義波高 Significant Wave Height
roughly equal to mean wave height as estimated by a "trained observer"
BAA Bleaching Alert Area (7-day maximum)
the level of coral bleaching heat stress:
No Stress No heat stress or coral bleaching is present.
Bleaching Watch Low-level heat stress is present.
Bleaching Warning Risk of possible bleaching. Heat stress is accumulating.
Alert Level 1 Risk of reef-wide bleaching. Significant coral bleaching is likely.
Alert Level 2 Risk of reef-wide bleaching with mortality of heat-sensitive corals. Severe coral bleaching and significant coral death is likely.
Alert Level 3 Risk of multi-species mortality.
Alert Level 4 Risk of severe, multi-species mortality (> 50% of corals).
Alert Level 5 Risk of near complete mortality (> 80% of corals).
COsc 一酸化炭素地上濃度
the fraction of carbon monoxide present in air at the earth's surface
CO2sc 二酸化炭素地上濃度
the fraction of carbon dioxide present in air at the earth's surface
SO2sm 二酸化硫黄地上質量
amount of sulfur dioxide in the air near the earth's surface
NO2 Nitrogen Dioxide
amount of nitrogen dioxide in the air near the earth's surface
DUex Dust Extinction
the aerosol optical thickness (AOT) of light at 550 nm due to dust
SO4ex Sulfate Extinction
the aerosol optical thickness (AOT) of light at 550 nm due to sulfate
PM1 粒子径1µm以下(PM1
mass of atmospheric particles with a diameter less than 1 micron
PM2.5 微小粒子状物質(PM2.5
mass of atmospheric particles with a diameter less than 2.5 microns
PM10 粒子径10µm以下(PM10
mass of atmospheric particles with a diameter less than 10 microns
OMaot Organic Matter aerosol optical thickness
The aerosol optical thickness (AOT) of light at 550 nm due to organic matter suspended in air.
This layer can be interpreted as the thickness of smoke from wildfires and other sources of combustion.

波浪について

Significant Wave Height is the average height of the highest 1/3 of waves at a particular point in the ocean. There's a great writeup here describing what this means.

Peak Wave Period is the (inverse) frequency of the most energetic waves passing through a particular point, whether wind generated or swells. Certainly, there are many more groups of waves moving through an area, each in different directions, but trying to show them all rapidly becomes complex. Instead, we show the one wave group contributing the most energy. This has the effect, though, of creating "boundaries" between regions of ocean where the #1 wave group suddenly switches to second place. Often these boundaries represent swell fronts, but other times they are just artifacts of the ranking mechanism.

CO2 濃度について
2017-01-24 04:30 UTC以前の日付用

While implementing the visualization of CO2 surface concentration, I noticed the NASA GEOS-5 model reports a global mean concentration that differs significantly from widely reported numbers. For example, from the run at 2015-11-23 00:00 UTC, the global mean is only 368 ppmv whereas CO2 observatories report concentrations closer to 400 ppmv. GEOS-5 was constructed in the 2000s, so perhaps the model does not account for accumulation of atmospheric CO2 over time? This is simply speculation. I am just not certain.

To bring the GEOS-5 results closer to contemporary numbers, I have added a uniform offset of +32 ppmv, increasing the global mean to 400 ppmv. This is not scientifically valid, but it does allow the visualization to become illustrative of the discussion occurring today around atmospheric CO2. Without question, I would welcome a more rigorous approach or an explanation why the GEOS-5 model produces the data that it does.

From 2017-01-24 04:30 UTC, this adjustment is no longer necessary because GEOS-5 appears to have been upgraded.

disclaimer

GEOS-5 data (covering all Chem and Particulates layers) comes with the following disclaimer: Forecasts using the GEOS system are experimental and are produced for research purposes only. Use of these forecasts for purposes other than research is not recommended.

about aerosols and extinction

An aerosol is air containing particles. Common particles are dust, smoke, soot, and water droplets (clouds). These particles affect sunlight primarily through absorption and scattering, which combine to reduce the amount of light reaching the ground. This loss of light as it passes through the atmosphere is called extinction.

One common measure of extinction is aerosol optical thickness (AOT), which is (the log of) the ratio between the power of incoming light and the power of transmitted light. This helps us understand how "thick" the air is with particulates.

about active fire data

Fire data is a combination of VIIRS 375m NRT (NOAA-20) and VIIRS 375m NRT (Suomi NPP) active fire products. Each fire detection data point contains the time of detection (when the satellite made the measurement) and the Fire Radiative Power (FRP) in units of megawatts (MW). For more information on how to interpret the readings, see the FIRMS FAQ and the detailed discussion of VIIRS I-Band 375 m Active Fire Data.

We acknowledge the use of data and/or imagery from NASA's Fire Information for Resource Management System (FIRMS), part of NASA's Earth Observing System Data and Information System (EOSDIS).

キーボードショートカット

e メニューを開く
escape ダイアログ/メニューを閉じる
n go to now (the most recent data)
shift-c 日付選択カレンダー表示
j go backward one time step
shift-j go backward several time steps
k go forward one time step
shift-k go forward several time steps
g toggle the grid on/off
p toggle the animation on/off
shift-h enable/disable high definition mode
shift-t show settings
i go up one pressure level
shift-i go up to the stratosphere
m go down one pressure level
shift-m go down to the surface
d zoom in
shift-d zoom in faster
x zoom out
shift-x zoom out faster
w rotate up
shift-w rotate up faster
z rotate down
shift-z rotate down faster
a rotate left
shift-a rotate left faster
s rotate right
shift-s rotate right faster

翻訳者

Александр Попов Вячеслав Епиков 1599763839 1992pb 2451158917 피시 afropolakwot agagey Aleksander Alexander Kirilov Alexey Dmitriev Alexey Korsakov AlexOrlovets Anderson Porto Andre Lz Andrea de Franco Andrew Pedrini Andrey Bagmanov Antonpek arquerogonza Artur Wisniewski ashawesoman ashvin.j.sherathiya astrostrong asveruz atom Belore Stergann bgij bidulem3 Birg3r Bohuslav Šín Bram Versteeve Bryan carina.bringedal carlofrc Cassiel Bclamson Ching-ping Yu Christian Leroux contact cuxcoll Daniel Bartsch Daniel Isak Marinosson Daniel Pawlowski Daniel Rakoczy danielruiz1636 Darlite davalenciano98 Davide Carlier Denat250 deus.05 Dimitris T. Papadimitriou dlo.daniel Dominic Douglas dsantosgtm dustyhofman e Eason Huang egarpunov elier.pila Eric Kim essaii32 estefilippini fantasy_lcl farrasoctara Felipe Faria florian-lerch franci00 FranklinZhang Frederik T. de Ridder fthmiln georg.loesel gherlainfo giacomo.gerosa Gian Centeno giospud gonzalo.ag88 gporter.seadog graceang graham.rimmington grol2901 Hebel holgersson Hyung Wook Jung Ichiro Wang Ignacio Sanz iii1212 InfoSecOne Jae Soo Park Jiří Batelka Joanna Rinne Joao Correia jocelot Jomari Joseph Barrera Jonathan Yang Jose A. Frias Morales juanpaexpedite kai.s.mueller Karol Sapiński Kiyun Jeon kjetil.hoiby kty5663 ku5an2901 laurapaccini leandro1212 leticia.tahnee lretamal Luboš Motl marcello.carreira marco.prosdocimo Mark markeletona Markus Schley Martine Bolzinger Matt Tang Mattia Raffa mavilesilva melfi Melissa Ortiz Massó Meow Wang mgb Michael Purer Michael Michel Rivero mikami_1966.1118 mikele.fit95 Miquel Bayo Moreno mir597 MirageF1AZ Miroslaw Lisiak Mohannad Alahmadi m_strugale nando nunolava1998 Olivier OLS-RU Oğuzhan Arı Paul Bachem Paweł Kowalczyk pdobrev Personim Intaned Philippe Jabet Plamen Dobrev ProffLex P_A_N_D_A_M_A_N Rafael Nonato Bassora rajeshgodvani RaskiPL reyfran8 Riccardo Monfardini robertrosalex Roger Helman Roller978 rosariainpo Russel Schwartz santiago.giraldoc sapan021 sarogrom Seongmin Park september43 Seregalsv Serega silverhaze030 Simone Dragoni siudzin98 skyneon77 sombrasbaul Somil Thesia Stephen Flynn Steven SUGIMOTO Tatsuo Sunny Miu Tayseer M Alhibshi Telmo John tenderstart thanhhuyenlth Thomas Middelveld Thorsten Schleicher tigormal tigra200sx Tomasz Waligóra torstenleibrich tsuka tama ulaszewski.bartosz ultordima Vasily Tarasenko vhc1967 Vu Thuong Víctor Velarde wasted webfreelance Wonmin Jeong wtlovergirl xesmedic xorpid xrdeem xsqz 潘柏綸 yaawwad Yauhen Bahashou youngjune4498 Youngmin Jeon Yukun Chen zackcaussy Zulus Οverlord

Selected-by-CLEAN logo

Selected for inclusion in the Climate Literacy and Energy Awareness Network (CLEAN) collection of educational resources.

The GEOS-5 data used on this site have been provided by the Global Modeling and Assimilation Office (GMAO) at NASA Goddard Space Flight Center through the online data portal in the NASA Center for Climate Simulation

Generated using Copernicus Atmosphere Monitoring Service Information 2017-2020. Neither the European Commission nor ECMWF is responsible for any use that may be made of this information.

weather and ocean data are generated from numerical models

earth.nullschool.netは正確な情報を提供するためのものではありません

Copyright (c) 2024 Cameron Beccario