Creation of ER-M-Climate
The ER-M-Climate is derived from a set of extended range re-forecasts created using the same calendar start dates over several years for data times either side of the time of the extended ensemble run itself. The re-forecast runs are at the same resolution as the extended medium range run itself (currently ~18km up to day15 and ~36km thereafter) and run over the 46-day extended range ENS period.
There is merit in examining the real-time performance of a forecasting system. But the sample sizes created for one system are far too small to conclude anything about its true performance levels. Re-forecasts are used to increase the available data to produce a model climate. The results of forecast system may be compared with this model climate.
Re-forecasts are a fundamental component of all seasonal forecasting system; they have two applications:
- extended range forecast verification metrics are based on the re-forecasts.
- re-forecasts allow computation of the ER-M-climate which allows actual forecasts to be converted into an anomaly format. Forecasts in terms of anomalies relative to a model climate (rather than relative to the observed climatology) mean that some calibration for model bias and drift into the products is incorporated.
Selection of extended range re-forecasts
The set of re-forecasts is based on using the three consecutive dates surrounding the day and month of the extended ENS run in question. Re-forecasts are created using the same calendar start dates for each of the last 20 years.
The set of re-forecasts is made up from:
- a set of re-forecasts using the same calendar start dates for each of the last 20 years.
- three consecutive re-forecasts (covering a 1 week period), the middle one of which corresponds to the preceding Monday or Thursday that is closest to the actual ensemble run date.
- each re-forecast is from an 11-member ensemble (1 control and 10 perturbed members) run over the 46-day ensemble forecast period.
In total, each set of re-forecasts consists of 20 years x 3 runs x 11 ensemble members = 660 re-forecast values. These are available for each forecast parameter, forecast lead-time, calendar start date, location, at forecast intervals of 6 hours. These are used to define the ER-M-climate.
A lower number of re-forecasts than for evaluating M-climate is justified because the tails are less important and should not be so prone to having a reduced sample size.
The ER-M-climate is used in association with the extended range ensemble forecast:
- to present the day15 to day46 ensemble meteograms with the extended range climate (ER-M-climate).
- to highlight significant anomalies of forecast 2m temperature, wind speed, cloudiness and precipitation from the norm for a given location and time of year.
Different reference periods for M-Climate and ER-M-Climate
ECMWF uses different reference periods but essentially the same re-forecast runs to build the M-Climate and the ER-M-Climate. The key difference is that those runs are grouped and used in different ways:
- For shorter ranges, the priority is the best possible capture of the climatological distribution of the tails (e.g. for EFI and SOT). This can be better achieved using a re-forecast span of 5 weeks (1980 re-forecast values).
- For longer ranges, the priority is the correct representation of seasonal cycles. This can be better achieved by using a span of 1 week (660 re-forecast values). The tails should not be so prone to having a reduced sample size.
Note before Cy41r1 in spring 2015, the M-climate was constructed from only 500 re-forecasts was more prone to sampling errors and as a result.
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