User guidance for the UK three month outlook

This page has three sections:

• Background
• Long range predictions
• The UK 3-month Outlook - product guidance

Background

Long-range outlooks are unlike weather forecasts for the next few days. The nature of our atmosphere is such that it is not possible to predict months ahead the precise weather for a particular day and place. At this longer range we have to acknowledge that many outcomes remain possible, even though only one can eventually occur. However, over the course of a whole season (or over a whole year or decade), factors in the global climate system (the atmosphere and oceans) may act to make some outcomes more likely than others. It is because of this that we can make long-range predictions, and the spread of possible outcomes provided in this outlook can be used to assess the likelihood and risk of particular events.

The skill of long-range outlooks varies with the time of year and with location, due to fundamental differences in how dependent local weather conditions are on global-scale atmospheric and oceanic processes at different times and in different regions of the world. Forecasts tend to be more skilful in the tropics than for mid-latitude regions. For example, our long-range forecasts are routinely used to predict inflow in water reservoirs in Africa. The UK is one of the most challenging regions for which to provide robust long-range information. This is because weather in the UK is dominated by the atmospheric circulation over the North Atlantic which is highly variable, and thus less predictable. In contrast, weather in the tropics is particularly dependent on slow variations of ocean conditions, such as El Niño, which are predictable months ahead.

The Met Office and our partners are continually improving all links in the forecast chain, from the model representation of key processes that affect UK weather to post-processing techniques that help decisionmakers use all available information.

The UK 3-month Outlook provides an indication of possible average temperature, rainfall and wind speed conditions over the UK in the next three months. It is part of a suite of forecasts designed and produced for use by contingency planners, and is one of several tools used in environmental risk planning by a number of different sectors. The 3-month Outlook should not be used in isolation. It is recommended that this is used in conjunction with other information provided by the Met Office for the contingency planning community, including shorter range forecasts (one-month, 15-day and five-day) with more detailed information and weather warnings.

Long range predictions

• What is climatology? 

• What is a long-range prediction? 

• How are long-range predictions produced?

• What level of detail can be provided?

• How accurate are long-range predictions?

• What are the limitations?

What is climatology?

Climatology represents the meteorological conditions (e.g. temperature, rainfall, sunshine) experienced across a particular region during the reference period, typically 30 years (e.g. 1991-2020).

The Met Office provides comprehensive UK and regional climatology information. This can be expressed as an average - i.e. a 'climatological average' - which is simply the mean of all observations. Alternatively it can be expressed in a more comprehensive way, as the observation distribution within the period. This can provide users with probabilistic information for one or more specific outcomes in which they may have a particular interest. For example, a user may be interested in the occurrence of very cold winters, and has a temperature threshold by which they define a 'very cold winter'. A user can count up the number of years in the climatological record in which mean temperature was below this threshold, and then convert this to a percentage - let's say it comes out at 20%. It is then appropriate to state that the 'climatological probability' of a very cold winter (by the user's definition) is 20%. Then, say, if the outlook for the upcoming winter were to indicate that there was a 30% chance of it being very cold (using the same definition), the user could state that the risk of that winter being very cold is 'higher than normal' or 'higher than climatology'. Note that this does not imply that the event is likely (as the chance of occurrence is still less than 50%). Conversely, if the expectation for the upcoming winter being very cold had instead been 15%, we could have said that the chances were 'lower than normal' or 'lower than climatology'.

What is a long-range prediction? 

A long-range prediction is a forecast of the possible conditions averaged over a large region (e.g. country-wide) and over a specified period of time (e.g. three months). Specifically, the UK 3-month outlook gives an indication of the possible conditions over the UK for the coming month and the coming 3-month period. This outlook does not indicate that these average conditions will prevail continuously, as the period is likely to contain a range of different types of weather. This outlook does not indicate that these average conditions will be the same over the whole region. The 3-month Outlook is produced using output from the Met Office long-range prediction system, together with information from other leading international forecast centres, expert judgement of the current state of the atmosphere and oceans, and understanding of the influence of different factors on conditions in different regions. Long-range prediction systems are complex global forecast models of the atmosphere, which were originally developed for weather forecasting and, later on, linked to models of other Earth system components (oceans, sea-ice) and applied to climate prediction. During the last decade they have been used for monthly to seasonal prediction with the aim of providing risk information on climate variability up to a few months ahead.

How are long-range predictions produced?

We have all experienced how the weather can change dramatically in a short space of time - days that started with similar conditions in the morning can be completely different in the evening. This ability of the atmosphere to diverge rapidly from similar initial conditions (what scientifically is defined as chaos) makes long-range prediction very challenging, and a topic currently at the cutting-edge of science. For weather forecasting, atmospheric conditions for the next few days are predicted by taking the latest observations from around the world to define the starting conditions. These are used in a comprehensive and complex dynamical global forecast model based on solving the fundamental physical equations of the atmosphere.

The same model employed for weather forecasting is used for long-range prediction, but with added complexity to represent the oceans, sea-ice and other important components of the Earth's climate system. In fact, it is thanks to these additional components that long-range forecasting is possible because the changes in the conditions of the oceans, sea-ice and land surface are much slower than changes in the atmosphere but can and do influence it. These changes at the surface can have a profound influence on the overlying atmosphere and affect the local and remote development of weather patterns. However, because of the atmosphere's ability to diverge rapidly from similar starting conditions, one model simulation (i.e. a single forecast) is not enough. We need to complete an ensemble of simulations (multiple forecasts), each one of them representing the various interactions between the slow changing (oceans) and fast changing (atmosphere) components.

The aim for an ensemble of simulations is to capture, as well as possible, the uncertainties in the initial state (for example due to incomplete observations) and in the models themselves. An ensemble of simulations provides a set of outcomes from which it is possible to derive probabilities of the possible conditions affecting the region during the period of interest. Specifically, for this outlook the Met Office completes a total of 42 simulations for the coming months. Additional information such as forecasts from other centres and expert interpretation is then used to assess the likelihood of different outcomes.

What level of detail can be provided?

In general, the longer the forecast lead time, the less spatial and temporal detail can be provided in the outlook. Therefore, the 3-month Outlook does not aim to provide information for a particular location or a particular day. Instead, it aims to inform the user of the average weather conditions across a large area (e.g. the UK) over a 1-month or 3-month period. Taking such a long averaging period smoothes out the unpredictable influence of chaos and allows the effect of slower, more predictable fluctuations, (e.g. changes in the ocean temperatures) over the region of interest to be identified.

There are similar reasons for averaging over relatively broad geographical regions. The level of regional detail from long-range predictions is also affected by the resolution of the forecast model used - in the current prediction system, the highest model resolution we can afford is approximately 150 km grid boxes in the atmosphere (and the ocean as a 0.25° resolution grid). This imposes a limit on the amount of geographical detail we can provide with any confidence.

How accurate are long-range predictions?

Long-range predictions are routinely verified and the Met Office invests considerable effort and resources in analysing their skill. However, this is a complex issue.

Long-range predictions are inherently probabilistic and, therefore, it is not possible to say that a single prediction is 'right' or 'wrong'. This can be better understood if we think of a prediction for a football match in which Team-A is given a 70% chance of winning, Team-B a 20% chance of winning and the remaining 10% chance is for a draw. If Team-B wins the match, the prediction was 'right' because there was a 20% chance of that happening (we would anticipate this outcome 20 times out of 100 different matches played). But if Team-A wins, the prediction was also 'right' because there was a 70% chance of that happening, which takes us into the absurd situation that a single probabilistic forecast is always
'right'. Simply, there is no way of verifying a single probabilistic forecast.

Probabilistic forecasts can be verified, but to do it properly, a large number of predictions are needed, not just one. Because of the long time that it would take to accumulate real-time forecasts, long range forecasting systems typically use a large set of predictions of past cases (referred to as 'hindcasts') to evaluate the skill of the system.

Of course, there is always a chance of one of the less likely outcomes in the outlook happening and this needs to be considered carefully when making decisions. For example, most people insure their home every year even if it is unlikely that the house will burn down. Decision-making in the face of uncertainty is complex, and the forecast information is not the only variable that needs to be taken into account -
possible losses and costs are different for different users and also need to be evaluated. The full benefit of any long-range outlook is only realised when they are used to guide decision-making over a longer period of time. Subjective verification of the accuracy of any single forecast is not possible.

What are the limitations?

Even with 'perfect' prediction systems and 'perfect' observations of the current state - neither of which are possible - the fundamental chaotic nature of the atmosphere will still affect the skill of predictions. This means that probabilistic approaches will always be required for monthly predictions as well as those for longer timescales, and in interpreting the information provided.

These outlooks provide a view of possible changes in average conditions and do not by themselves indicate the risks of possible extreme weather. However, research so far indicates that there tends to be a relationship between the two. A high percentage for dry conditions, for example, would indeed indicate a higher-than-normal chance of drought. But if the chance of drought in a normal year is very small, it may still be unlikely. In this situation, drought should not be taken as a certainty but additional information should be considered (for example, the user's possible losses and costs) for optimal decision-making.

However, there are limitations to any prediction system. Model resolution is a critical factor in determining how well the model represents key processes and regional detail. Increasing model resolution is computationally expensive, however, so improvements can only be delivered within the constraints of available supercomputing power. There are a number of important drivers that are expected to give rise to predictability (i.e. more confident forecasts) over mid-latitudes that are currently poorly represented in the models used for long range predictions. These include land surface processes, the influence of Arctic sea-ice and atmosphere-ocean interactions. Research on long-range prediction is developing quickly, and the Met Office has implemented a flexible forecasting system to allow new science to be brought into our operational predictions as rapidly as possible.

The UK 3-month Outlook - product guidance

About

The UK 3-month outlook provides a broad indication of possible weather trends for the upcoming 1-month and 3-month period. It is issued towards the end of each month and can be found on our contingency planners webpage. The outlook includes a 1-month overview, but this only stays on the website for a few days as other long range Met Office forecasts contain much more detail at this shorter time frame.

The outlook provides an indication of possible temperature, rainfall  and wind conditions in the next three months. These early indications can help with long term contingency planning and give a general heads-up on emerging areas of concern.

Understanding the outlook

The outlook consists of seven sections:

• 3-month summary
• 1-month summary
• Guide to the Outlook
• Shifts in likelihood
• What is average?
• Q&A
• Find out more

The 3-month and 1-month summary pages include a summary of key messages and the likelihood of impacts compared to normal. The likelihoods are shown in percentages.

The outlook uses 3 categories, linked to previous observed UK conditions, for possible UK temperature, precipitation and wind speed in the coming season:

COLD, NEAR AVERAGE and MILD for temperature

WET, NEAR AVERAGE and DRY for precipitation

CALM, NEAR AVERAGE and WINDY for wind speed.

The NEAR AVERAGE category has a normal likelihood of 60%, and the other categories, which are more often associated with weather impacts, have a normal likelihood of 20%.  The multipliers show how much larger or smaller these chances are than normal. The remaining pages of the outlook provide additional details to help you understand the main summary and give further insight into its confidence and limitations.

The ‘Guide to the Outlook’ page sets the context for the outlook. The ‘Outlook in Context’ box describes the wider meteorological context for the outlook. Meanwhile, the ‘Understanding the Outlook’ text defines the different categories for temperature, precipitation and wind speed and shows the categories that were observed in the past 10 years. By knowing the years which fell into specific categories, it is possible to relate the outlook to operational experience.

The ‘Shifts in likelihood’ page show an alternative way of visualising the data in the outlook summary for the 3- and 1-month period. The dashed line shows the normal likelihood for the period and the solid line shows the forecast.

The ‘What is average?’ pages show the long-term average for the 3-month and 1-month period with a breakdown of the periods for each year over the last five years.

Finally, the ‘Q&A’ and ‘Find out more’ pages address some of the questions we anticipate you might have about the outlook and link to further information such as explainers.