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A temperature anomaly is the departure, positive or negative, of a temperature from a base temperature that is normally chosen as an average of temperatures over a certain reference period, often called a base period. Commonly, the average temperature is calculated over a period of at least 30 years over a homogeneous geographic region, or globally over the entire planet.
Temperatures are obtained from surface and offshore
Precursor webpage
was archived as early as December 2013. Records of global average surface temperature are usually presented as anomalies rather than as absolute temperatures. Using reference values computed for distinct areas over the same time period establishes a baseline from which anomalies are calculated, so that normalized data is used to more accurately compare temperature patterns to what is normal. For example, sub-global datasets may be for land-only, ocean-only, and hemispheric time series. Anomalies provide a frame of reference that allows more meaningful comparisons between locations and more accurate calculations of temperature trends. Using different base periods does not change the shape of time series charts or affect portrayal of the trends within them. For example, World Meteorological Organization (WMO) policy motivates use of a 30 year base period, whereas for conceptual simplicity a century-long base period is sometimes used to track the big-picture evolution of temperatures across the entire global surface. Different meteorological organizations have used respective base periods for
Anomalies alone are not sufficient to characterize exceptionality of temperature values. The standard deviation—symbolized by a lower case sigma, σ, and sometimes called standardized anomaly—quantifies the degree of variation of a dataset's values (see coloured bands in chart at right). For example, a variation of +2 °C can be more significant over a region with normally stable temperatures than another of +3 °C from a region with normally large variability.
To summarize: choice of reference period determines vertical placement of a trace on a graph, and deviation determines how much the trace is "stretched" in the vertical direction on the graph.
A temperature anomaly is the departure, positive or negative, of a temperature from a base temperature that is normally chosen as an average of temperatures over a certain reference period, often called a base period. Commonly, the average temperature is calculated over a period of at least 30 years over a homogeneous geographic region, or globally over the entire planet.
Temperatures are obtained from surface and offshore weather station
A weather station is a facility, either on land or sea, with instruments and equipment for measuring atmospheric conditions to provide information for weather forecasts and to study the weather and climate. The measurements taken include tempera ...
s or inferred from meteorological satellite
A weather satellite or meteorological satellite is a type of Earth observation satellite that is primarily used to monitor the weather and climate of the Earth. Satellites can be polar orbiting (covering the entire Earth asynchronously), or g ...
data. Anomalies can be calculated based on datasets of surface and upper-air atmospheric temperatures or sea surface temperature
Sea surface temperature (SST), or ocean surface temperature, is the ocean temperature close to the surface. The exact meaning of ''surface'' varies according to the measurement method used, but it is between and below the sea surface. Air mas ...
s.
Description
Temperature anomalies are a measure of temperature compared to a reference temperature, which is often calculated as an average of temperatures over a reference period, often called a base period. Publication datePrecursor webpage
was archived as early as December 2013. Records of global average surface temperature are usually presented as anomalies rather than as absolute temperatures. Using reference values computed for distinct areas over the same time period establishes a baseline from which anomalies are calculated, so that normalized data is used to more accurately compare temperature patterns to what is normal. For example, sub-global datasets may be for land-only, ocean-only, and hemispheric time series. Anomalies provide a frame of reference that allows more meaningful comparisons between locations and more accurate calculations of temperature trends. Using different base periods does not change the shape of time series charts or affect portrayal of the trends within them. For example, World Meteorological Organization (WMO) policy motivates use of a 30 year base period, whereas for conceptual simplicity a century-long base period is sometimes used to track the big-picture evolution of temperatures across the entire global surface. Different meteorological organizations have used respective base periods for
global mean surface temperature
In earth science, global surface temperature (GST; sometimes referred to as global mean surface temperature, GMST, or global average surface temperature) is calculated by averaging the temperature at the surface of the sea and air temperature ...
datasets, such as
1951–1980 (NASA GISS and Berkeley Earth),
1961–1990 (HadCRUT U.K.),
1901–2000 (NCDC/NOAA), and
1991–2020 (Japan Met).
Standard deviation
Anomalies alone are not sufficient to characterize exceptionality of temperature values. The standard deviation—symbolized by a lower case sigma, σ, and sometimes called standardized anomaly—quantifies the degree of variation of a dataset's values (see coloured bands in chart at right). For example, a variation of +2 °C can be more significant over a region with normally stable temperatures than another of +3 °C from a region with normally large variability.
To summarize: choice of reference period determines vertical placement of a trace on a graph, and deviation determines how much the trace is "stretched" in the vertical direction on the graph.
Forecasting
Numerical weather prediction
Numerical weather prediction (NWP) uses mathematical models of the atmosphere and oceans to predict the weather based on current weather conditions. Though first attempted in the 1920s, it was not until the advent of computer simulation in th ...
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
Data assimilation is a mathematical discipline that seeks to optimally combine theory (usually in the form of a numerical model) with observations. There may be a number of different goals sought – for example, to determine the optimal state es ...
. 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.
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
{{Meteorological variables Temperature Meteorological concepts Climate history