This Maprooms explores the predictability of weather-within-climate variability of rainfall by the state of ENSO.
The map shows the 1981-2020 historical probability of seasonal weather-within-climate characteristics of precipitation (see Options tab for details) to fall within the upper (High), middle (Normal), or bottom (Low) tercile given the phase of the El Niño-Southern Oscillation during that same 3-month long season (see Index definition below).
By default, the map shows the likelihood of Low Tercile Total Rainfall conditions in July-September season during La Niña. Mouse over the map to explore the other rainfall and sst categories. Menus in the top control bar allow to change the 3-month season of interest, the years to span, and the weather-within-climate variable.
Clicking on the map will then display local yearly seasonal weather-within-climate characteristics time series. The color of the bars depicting which ENSO Phase it was that year for that season, and the horizontal lines depicting the historical terciles limits for the historical rainfall characteristics. This allows to quickly picture which years fell into which ENSO Phase and into which Rainfall Tercile category.
This analysis is not a forecast and is solely based on historical observations of rainfall and SST. However, it would be a good tool for exploring the effect of different ENSO phases on seasonal rainfall. The ENSO state for each season is defined according to the Oceanic Niño Index (ONI). It is calculated using Sea Surface Temperature (SST) anomalies, based on centered 30-year base periods updated every 5 years, in the geographical box (170˚W, 5˚S, 120˚W, 5˚N). A season is considered El Niño (La Niña) if it is part of at least 5 consecutive overlapping 3-month long seasons where the ONI is above 0.5˚C (below -0.5˚C). Use the controls on the page to select the season, rainfall tercile category of interest, and ENSO state. The analysis reproduces, using same SST dataset, the following definition from NOAA.
Reference for ENSO phases definition: V. E. Kousky and R. W. Higgins, 2007: An Alert Classification System for Monitoring and Assessing the ENSO Cycle. Wea. Forecasting, 22, 353–371.doi: http://dx.doi.org/10.1175/WAF987.1
Years and Season:
Specify the range of years over which to perform the analysis and choose the 3-month
long season of interest over which the weather-within-climate diagnostics are to be
computed.
Weather-within-climate: Choose the seasonal diagnostic quantity (i.e the statistic of the daily data) to
be computed for each season, from the following choices.
Total Rainfall: total cumulative precipitation (in mm) falling in the season.
Number of Wet Days: the number of wet days (as defined below) during the season.
Rainfall Intensity: the average daily precipitation over the season considering only wet days.
Number of Wet (Dry) Spells:
the number of wet (dry) spells during the season according to the definitions below.
For example, if a wet spell is defined as 5 contiguous wet days, 10 contiguous wet
days are counted as 1 wet spell, not 2. Note that a spell, according to the definitions
below, that is overlapping the start or end of the season will be counted only if
the part of the spell that falls within the season reaches the minimal length of consecutive
days.
Wet/Dry Day/Spell Definitions:
These define the amount in millimeters (non inclusive) above which a day is considered
to be a wet day (as opposed to dry), and the minimum number (inclusive) of consecutive
wet (dry) days to define a wet (dry) spell.
Data Source: Reconstructed rainfall over land areas on a 0.0375˚ x 0.0375˚ lat/lon grid (about 4km). Rainfall time series (1981-2020) reconstructed from station observations and remote sensing proxies : ENACTS precipitation data.
Data Source: Sea Surface Temperature : Extended Reconstructed Sea Surface Temperatures (ERSST), at 2˚ spatial resolution, produced by NOAA CDC.
Contact help@iri.columbia.edu with any technical questions or problems with this Map Room.