Temperature anomaly

Temperature anomaly map of late July during the 2019 European heat wave.

A temperature anomaly is the departure from the average temperature, positive or negative, over a certain period (day, week, month or year). In standard usage, the normal average temperature would be calculated over a period of at least 30 years over an homogeneous geographic region. For example, if the reference value is 15 °C, and the measured temperature is 17 °C, then the temperature anomaly is +2 °C (i.e., 17 °C −15 °C).

Temperatures are obtained from surface and offshore weather stations, or inferred from meteorological satellite data. Anomalies can be calculated for surface and upper-air atmospheric temperatures or sea surface temperatures.

Description[]

Records of global average surface temperature are usually presented as anomalies rather than as absolute temperatures. A temperature anomaly is measured against a reference value or long-term average.^[1]^[2] Temperature anomalies are useful for deriving average surface temperatures because they tend to be highly correlated over large distances (of the order of 1000 km).^[3] In other words, anomalies are representative of temperature changes over large areas and distances. By comparison, absolute temperatures vary markedly over even short distances.

Anomalies are not sufficient to characterize the exceptionality of the temperature values. To take into account the spatial and temporal climatological situation, it is also necessary to calculate the standard deviation from the normal, called "standardized anomaly". Thus a variation of +2 °C can be more significant over a region with normally very stable temperatures than another of +3 °C from a region with strong temporal variations.^[4]

Forecasting[]

Numerical weather prediction provides the temperature forecast for the next few days or weeks. This can be used to calculate anomalies during these forecast periods. There are two types of forecasts, deterministic and probabilistic, which will give different results.

Deterministic data are values obtained by running the forecast model with initial conditions determined by the initial conditions from data assimilation. Probabilistic data comes from predicting sets where the model (or different models) is run several times with a slight variations in the initial conditions each time.^[5]

Deterministic anomalies have a standard deviation which depends only on the bias of the forecast. The deviation and the probabilistic anomalies, being calculated from several model solutions, are themselves probabilities that they will occur.

References[]

^ CMB and Crouch, J. (17 September 2012). "Global Surface Temperature Anomalies: Background Information – FAQ 1". NOAA NCDC. Cite journal requires |journal= (help)
^ Statistics Canada (September 11, 2018). "Departure from 1961-1990 normal temperature of geographic area". Gouvernment of Canada. Retrieved 2021-04-18.
^ Hansen, J.E. (20 November 2012). "Data.GISS: GISS Surface Temperature Analysis (GISTEMP)". New York, NY, USA: NASA GISS. Cite journal requires |journal= (help). Website curator: Schmunk, R.B.
^ Environnement et Lutte contre les changements climatiques (2019). "Classification climatologique des températures" (in French). Gouvernment of Québec. Retrieved 2021-04-18.
^ Meteorological Service of Canada (2019-08-01). "Temperature Anomaly Forecast: Day 8 to 14 Outlooks". Environment and Climate Change Canada. Retrieved 2021-04-18.

[1] CMB and Crouch, J. (17 September 2012). "Global Surface Temperature Anomalies: Background Information – FAQ 1". NOAA NCDC. Cite journal requires |journal= (help)

[2] Statistics Canada (September 11, 2018). "Departure from 1961-1990 normal temperature of geographic area". Gouvernment of Canada. Retrieved 2021-04-18.

[3] Hansen, J.E. (20 November 2012). "Data.GISS: GISS Surface Temperature Analysis (GISTEMP)". New York, NY, USA: NASA GISS. Cite journal requires |journal= (help). Website curator: Schmunk, R.B.

[4] Environnement et Lutte contre les changements climatiques (2019). "Classification climatologique des températures" (in French). Gouvernment of Québec. Retrieved 2021-04-18.

[5] Meteorological Service of Canada (2019-08-01). "Temperature Anomaly Forecast: Day 8 to 14 Outlooks". Environment and Climate Change Canada. Retrieved 2021-04-18.

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hide v t Meteorological data and variables
General	Adiabatic processes Advection Buoyancy Lapse rate Lightning Surface solar radiation Surface weather analysis Visibility Vorticity Wind Wind shear
Condensation	Cloud Cloud condensation nuclei (CCN) Fog Convective condensation level (CCL) Lifted condensation level (LCL) Precipitation Water vapor
Convection	Convective available potential energy (CAPE) Convective inhibition (CIN) Convective instability Convective momentum transport Conditional symmetric instability Convective temperature (T_c) Equilibrium level (EL) Free convective layer (FCL) Helicity K Index Level of free convection (LFC) Lifted index (LI) Maximum parcel level (MPL) Bulk Richardson number (BRN)
Temperature	Dew point (T_d) Dew point depression Dry-bulb temperature Equivalent temperature (T_e) Forest fire weather index Haines Index Heat index Humidex Humidity Relative humidity (RH) Mixing ratio Potential temperature (θ) Equivalent potential temperature (θ_e) Sea surface temperature (SST) Temperature anomaly Thermodynamic temperature Vapor pressure Virtual temperature Wet-bulb temperature Wet-bulb globe temperature Wet-bulb potential temperature Wind chill
Pressure	Atmospheric pressure Baroclinity Barotropicity Pressure gradient Pressure-gradient force (PGF)
Velocity	Maximum potential intensity