Time stands still for 'leap-second'
Global time will stand still today, delaying midnight by a second.
An extra sliver of time - a "leap-second" - is being added to the world's clocks to adjust for the inaccuracy of the spinning Earth.
Before the invention of super-accurate atomic clocks, time was based on the Earth's rotation, one complete turn taking 24 hours.
Now a plethora of time-sensitive systems, including computer programmes and financial markets, rely on the precise ticking of atomic clocks that measure the energy transitions of atoms.
The problem is that due to the moon's gravity the Earth is slowing down, and not in a regular way. So every now and then a leap second is added to allow astronomical time to catch up with atomic time. It is similar to the introduction of leap years keep our calendars lined up with the Earth's orbit around the Sun.
The latest pause - the 26th - will occur at 23:59:59 co-ordinated universal time (UTC), which is an hour behind British Summer Time. UTC provides a world-wide time standard free of time zones.
Computer programmers try to take account of leap seconds but many systems could be caught out, warns atomic clock expert Professor Judah Levine, from the US National Institute of Standards and Technology (Nist) in Boulder, Colorado.
He told National Geographic magazine: "It's a major interruption mostly because there are a lot of systems that aren't prepared to handle the leap second correctly."
The last leap second in 2012 temporarily disrupted a number of high-profile websites including Mozilla, Reddit, Gawker, LinkedIn, FourSquare and Yelp.
In Australia, more than 400 Quantas flights were delayed as staff were forced to switch to manual check-ins.
Leap seconds were first introduced in 1972, by which time atomic clocks and astronomical clocks were already out of kilter by 10 seconds.
That year, scientists had to add 10 seconds to the world's astronomical clocks in one go. The impact then in the pre-internet age was nothing like as great as it would have been today.
Experts at the National Physical Laboratory (NPL) in Teddington, south-west London, will be responsible for adding the extra second to UK time.
Dr Peter Whibberley, senior research scientist with the Time and Frequency group at NPL, said: "There are consequences of tinkering with time. Because leap seconds are only introduced sporadically it is difficult to implement them in computers and mistakes can cause systems to fail temporarily.
"However, we have always taken the Earth's rotation as the ultimate reference for timekeeping, and astronomers and navigators still make use of it. We shouldn't break the link without carefully weighing the consequences."
Prof Levine is one of a number of experts who advocate doing away with leap seconds.
"The price for that would be atomic time would slowly walk away from astronomical time," he said. But he pointed out that it would only mean a difference of a minute or two over a hundred years.