For the first time since records began in the mid 20th century , this extended winter period (November to March) is the first in our observational records to see three Sudden Stratospheric Warming (SSW) events. Met Office research suggests the likelihood of having three SSW events in one winter period is just a one in 250-year chance, although it is more likely to happen during an El Niño winter, such as this winter.
The record of SSW events goes back to the 1950s with the introduction of radiosonde balloons which are used to take observations high in the stratosphere on a routine basis. Since then, there has been typically one SSW every two extended winters. However, there are occasional runs of years with no warming events at all e.g. in the 1990s. There are also winters with two warmings such as the winter of 2009/10.
Professor Adam Scaife, Head of Long-Range Forecasting at the Met Office, said: “Although we have not seen it before, we recently documented the chances of an unprecedented three SSW events happening in one winter. Our research work, using multiple computer simulations, showed that this could occur about once in every 250 winters.”
Professor Scaife added, “Although this is very rare, we also found that the chance of multiple SSW events is increased during El Niño and so the chance of multiple events this winter is raised.”
Forecast pressure for mid-March showing relatively high pressure over Iceland and low pressure over mid latitudes (Units: hPa).
A SSW is a disruption of the normal westerly air flow 10 to 50 km above the earth. This often makes the jet stream meander more, which can lead to the development of a large area of high pressure over northern Europe at the Earth’s surface. This can ‘block’ the Atlantic low-pressure systems which are responsible for the relatively mild, wet and windy weather that often occurs in UK winters. This blocking pattern increases the chance of cold, dry weather in the UK and mild, wet and windy conditions for southern Europe. However, the impacts of an SSW do not always equate to cold weather, for example, we have only seen intermittent drops in temperature around the two SSW events early this winter and typically around 70% of events are associated with a cold snap.
SSW is just one of a number of global drivers that can affect weather in the UK, the current SSW is consistent with the latest long-range outlook for March which suggests a continued increased chance of blocked, high-pressure conditions to the north of the UK and a southward shift in the Atlantic jet stream.
Warmer weather, flooding, and droughts are already affecting rugby, but how will the increasing effects of climate change impact rugby in the future?
A new report by World Rugby (the rugby union governing body), has identified six major climate risks which could impact the sport, either directly or indirectly, in the future if action is not taken to increase the sport’s resilience against the risks of climate change.
The Climate Change and Rugby report investigated climate hazards across ten countries (Argentina, Australia, England, Fiji, France, India, Japan, New Zealand, South Africa, and the USA), and found there would be significant impacts for each region if global average temperature were to reach levels of +2°C above a pre-industrial level.
The IPCC Sixth Assessment Report (AR6) states that since the Industrial Revolution, the average temperature of the planet has risen by around 1.1°C.
Using a methodology which includes projections alongside observations, research by the Met Office indicates the current global warming level could be as high as 1.25°C. This is a rapid change in terms of our global climate system and is already leading to changes in the extreme weather we experience on the Earth’s surface.
Extreme heat days
As global temperatures rise, so do the instances of extreme heat days (days in which the temperature exceeds 35°C). This not only puts rugby players at risk, but fans of the sport too. This has been seen in other sports in the past where matches have needed to be called off because of scorching temperatures. For example, in 2014, play had to be suspended on all uncovered courts for more than 4 hours at the Australian open due to temperatures rising to over 40°C, causing a risk of heat exhaustion or heatstroke for the athletes.
World Rugby’s report found that six out of the ten countries they investigated would face ten or more additional days each year where playing rugby would be ill advised or even impossible due to climbing temperatures.
Increased frequency and intensity of droughts
Droughts affect the availability of water, and reduced access to this resource could result in drier, harder and less grassy pitches. The report indicates that dry conditions will reduce the quality of playing surfaces, affecting ball bounce and player movement. This could also increase the risk of players getting injured when athletes tumble onto hard ground. Half of all countries in the study would likely see an increase in the frequency and intensity of droughts, leading to less days where pitches are suitable for use.
Marine submersion and flooding risks
The report shows that rising sea levels pose a threat to stadiums near the coast, while flash floods caused by the increased frequency and intensity of rain pose a threat to both coastal pitches and those further inland. Floods could make stadiums inaccessible for extended periods of time, as even after the water subsides, turf and building structures can be left with substantial damage. Repairing stadiums after flooding can be costly and take a long time. World Rugby says that 11% of the 111 stadiums in the report can expect to see an increased annual submersion risk, while eight out of ten countries studied will face an increase in the frequency and intensity of heavy precipitation and flash floods.
Increased humidity
Increased humidity can cause additional heat-related suffering for athletes, officials, and spectators. Higher levels of humidity can make heat feel more intense and reduce the body’s ability to perform certain functions, such as sweating. Additionally, high levels of humidity can cause issues with the health and growth of certain grass varieties that may be used on pitches. The report found that most climate regions will experience periods of higher humidity, impacting the ability to play rugby.
Adaptation
To reduce the impacts of climate change on rugby, some adaptations will need to be made in the future. World Rugby has suggested in their report the development and implementation of individual sustainability plans, to help reduce rugby’s environmental impact. As well as this, climate projections will need to be considered when implementing new policies to prepare the game for a changing climate.
In a recent blog, we shared details of a piece of work by the Met Office which explores expected future climatic conditions for a range of range of cultural, sporting and social events across the UK. The study compares observations and climate projections for temperature and rainfall may change in the future for the start of the Six Nations (February) at the Twickenham (London), Murrayfield (Edinburgh) and Principality (Cardiff) stadiums.
Climate change already has, and will likely continue to affect rugby, but with research and the implementation of new strategies and adaptation, risks can be minimised to allow fans and athletes to continue to enjoy the sport.
The Met Office has just published its latest briefing on Arctic and Antarctic sea ice.
The update doesn’t reveal any record-breaking figures, but it does reveal that sea ice loss remains a serious issue.
Alex West who co-ordinates the sea ice briefings said: “After last year’s record-breaking minimum extent of sea ice in the Antarctic, the latest update shows greater sea ice extent than last year, but it is still the second lowest on record for the time of year.
Following a warm June, Arctic sea ice extent is below average for the time of year but some way above record low levels, with conditions fairly typical of recent years.
“Extent is particularly low in the Laptev Sea and in the Atlantic sector, but nearer average in other parts of the Arctic.
“This year’s September Arctic sea ice extent is likely to be well below average, but there are not yet heightened indications of a new record low.”
The Advancing Arctic Capabilities programme – a new project led by the Met Office -brings international partners to develop an improved understanding of what is happening to the region’s ice, ocean and atmosphere to support global climate resilience.
The project will deliver cutting-edge insights into Arctic weather patterns and ocean currents.
Hurricane Beryl, which has been tearing through the Caribbean, has been hitting the headlines for several reasons.
Firstly, there is the undeniable fact that during her existence as a Category 4 and 5 hurricane Beryl caused much damage and loss of life across several nations and territories, including Grenada, St Vincent and the Grenadines, Jamaica and the British Overseas Territory of the Cayman Islands.
Satellite image of Hurricane Beryl crossing Jamaica in early July 2024
Secondly, Beryl has become infamous for being the earliest Category 5 hurricane in the historical record in the Atlantic Basin. Category 5 is the highest ranking for hurricanes requiring sustained wind speeds of at least 157 mph. Hurricane Beryl’s wind actually peaked at 165 mph on 2 July. The earliest date in the year any previous Atlantic hurricane had achieved winds of this strength was a full month later on 5 August.
Active hurricane season
Julian Heming is a Met Office tropical cyclone expert who has been studying these systems for many years. He said: “In the second half of May several prediction centres, including the Met Office, forecast an active Atlantic hurricane season with between 150% and 200% of usual activity.
“These Atlantic seasonal forecasts have been influenced by the development of cooler waters in the equatorial eastern Pacific in recent months – in line with the anticipated La Niña or cooler phase of the naturally-variable El Niño Southern Oscillation (ENSO) cycle.
“Developing La Niña conditions have a known association with a more active Atlantic hurricane season. So, we know that natural variation in the climate system has a huge observable effect on hurricane activity.
“But this trend towards La Niña favouring hurricane development would not solely explain Hurricane Beryl and the prediction of an active hurricane season.
“Sea temperatures across the tropical Atlantic and Caribbean Sea have been well above average since the Spring of 2023 which provides fuel for intense hurricanes like Beryl. There is much meteorologists do not yet understand about how these high sea-surface temperatures have developed and why they have persisted for so long. This is an active area of research.”
“Furthermore, higher sea-surface temperatures in line with a warming climate are expected to favour the development of a greater proportion of intense tropical cyclones in the long term.”
International effort
Will Lang is the Met Office’s head of Situational Awareness. He said: “Met Office forecasts are a crucial part of the international effort to predict Atlantic hurricanes, and our experts work at the heart of UK Government’s international response to damaging hurricanes such as Beryl.”
You can watch an interview about Hurricane Beryl here.
