NOTTINGHAM: If you work in an office, the chances are there are some colleagues you would rather sit next to than others. But we’re not just talking personality likes or dislikes here – what can also be a factor is how clean they keep their desk.
The average office desk is said to contain 400 times more germs than a toilet seat – meaning that many office workers could be at risk of sickness due to dirty desks.
Research by the University of Arizona found that humans are the most common source of bacteria and that, compared to women, men have three to four times the number of bacteria in, on and around their desks, phones, computers, keyboards, drawers and personal items.
Theories as to why this might be the case include men having bigger desks, meaning an increased surface area available for depositing, as well as having on average, lower standards of personal grooming.
As microbiologists, when we look at offices we are looking at what is called the built environment. It is thought that the built environment micro-flora (all the bacteria, viruses, fungi and other microbes detected) is far less varied than the outside world.
It is also thought that it can be strongly affected by the geography that surrounds it. For example it was impossible to tell apart the microbial mix between offices in San Francisco and New York.
The office bacteria in Tucson, in Arizona are quite different due to the higher temperatures and the desert environment that surrounds it. What is also clear is that the microbes in two offices in different cities are more similar than, say a kitchen and an office in the same building.
MORE BACTERIA ON PHONES THAN TOILET SEATS
Humans are the biggest source of microorganisms at the desk – most bacteria in an office comes from people. The computer keyboard and mouse are a common part of office life for many. Unsurprisingly each key strike both deposits and picks up micro-organisms.
Studies of keyboards outside of offices has found pathogenic bacteria within hospitals, whereas within universities, multi-user keyboards have a greater range of organisms – including some gut bacteria.
The microbial flora of mobile phones has also been under scrutiny, heightened perhaps by how close we bring them to vulnerable entry points such as our mouths and ears.
Research varies on just how many germs are on the average phone, but a study at the University of Arizona found that mobile phones carry ten times more bacteria than most toilet seats.
But touchscreen phones in a German university were found to have lower levels of bacteria – and these were typically skin, nasal and some gastrointestinal species.
BEWARE THE PAPER AND THE CUPS
Most paperwork these days is digital, so is prone to very different viruses and bugs. But still, many of us will regularly come into contact with different bits of paper – think, taking minutes in a meeting, leaving notes on a colleagues desk, or even when reading books or newspapers on a lunch break.
Paper and particularly library books are not a common source of contamination – but, despite this, a requirement for UK readers suffering from certain diseases to refrain from taking out any books while ill still exists.
Sick library book readers must also inform local authorities – who may choose to disinfect or destroy any volumes. The law requiring this was brought about as a result of scarlet fever being transmitted from an individual due to his unusual habit of using skin peelings as bookmarks.
Equally startling is guidance from Public Heath England that reusable coffee mugs must be cleaned properly to prevent bacterial growth.
Research has shown up to 90 per cent of mugs in office kitchens are coated in germs, and that 20 per cent of those cups actually carry fecal matter. If you ever needed a reason to take your own cup, there it is.
KEEP THINGS CLEAN
There is certainly evidence of survival of micro-organisms on stationary. But in your office, you only need to be worried if you chew on pens and happen to lend them to people with poor bathroom hand-washing practices.
But of course, none on these surfaces are created to encourage bacterial growth – so if they are kept clean, they harbour few nasty surprises.
Michael Loughlin is senior lecturer in the School of Science and Technology, Nottingham Trent University. This commentary first appeared on The Conversation.