Although we’ve highlighted citizen science so many times on these pages, it never occurred to me that some of these projects have spanned nearly 9 decades.This particular project’s device is called a continuous plankton recorder (CPR). An apt acronym, indeed.
Since 1931 ‘citizen scientists’ on ships have enabled data collection on the tiny building blocks of the sea. Now this research could shape how we tackle the climate crisis
On a clear day, from their small, unassuming warehouse on the south Devon coast, Lance Gregory and Dave Wilson can see right across Plymouth Sound to the Eddystone lighthouse. Today, they’re watching a ferry from Brittany, the Armorique, pull into dock.
Behind it, the ferry is towing a one-metre-long device shaped like a torpedo. It doesn’t look like much, but it’s part of the planet’s longest-running global marine survey.
The device is called a continuous plankton recorder (CPR), and it’s one of 53 such devices that Gregory and Wilson manoeuvre using forklifts in their warehouse, surrounded by racks of distinctive yellow boxes and clipboards covered in spreadsheets.
They dispatch these CPRs in bright yellow boxes to “ships of opportunity” – ferries, cargo or container vessels that have agreed to volunteer for the mission. Once a ship leaves port, the crew attach the device to the stern using steel wire, then toss it overboard.
Trailing along behind the ship, it collects data for the CPR survey. The mission is vast but the subject is minuscule: plankton, the tiny organisms that drift in the ocean. Every marine ecosystem relies on plankton for its basic food source, and it generates half the oxygen we breathe. Perhaps more than any other organism, it is crucial to all life on our planet.
The CPR survey is the longest-running marine science project of its kind. It began in 1931 when the scientist Sir Alister Hardy investigated how herring were influenced by plankton in the North Sea. This month the distance surveyed will reach an impressive 7m nautical miles, equivalent to 320 circumnavigations of the Earth.
Since that first tow from Hull to Germany 89 years ago, the equipment has hardly changed. So far a quarter of a million samples have been analysed, representing a vast geographical spread over the course of the past century. The immense scope has allowed scientists to see dramatic patterns in ocean health, across both time and space, building a much clearer picture of how our marine environments are changing.
It is also, says Gregory, “one of the oldest citizen science projects in the world”.
Although it is coordinated by the Marine Biological Association in Plymouth, which houses the world’s largest biological library of microscopic plankton, the survey relies on the goodwill of the merchant ships who agree to take the recorders with them as they cross the world’s oceans.
“We have a navy of volunteers,” Wilson says, “from the crane operators to the ship’s agents and terminal managers in ports, right through to the boatswains and captains on the ships that tow our equipment.”
He’s known as the “Milk Tray man” in British ports, because he often takes chocolates as gifts for the sailors to thank them for their help.
“Because most crews and port staff remember us, a glitch at sea or tricky courier logistics are much easier to resolve,” he says. “We also realise that while it’s mission critical for us, for these guys in ports, it’s an add-on – and they’re under more pressure than ever right now.”
Covid-19 has posed the biggest threat to this research in 90 years – even more so than the second world war, organisers say – because the logistics of getting the CPRs to and from ports is very difficult with current travel restrictions.
But while the pandemic has scuttled much biological research, the plankton survey has been able to continue on essential shipping routes, because no special scientific knowledge is required of the crew volunteers. CPRs are designed to be robust, failsafe and very easy to use. And because this low-tech piece of kit is mechanically driven by a small propeller that spins while being towed, it’s low maintenance.
Seawater flows in through a small aperture at the front; for every 10 nautical miles towed, it filters three cubic metres of water. Inside, plankton are collected between two layers of silk on a “cassette” that moves constantly onto a collection spool, which sits in formaldehyde to preserve the sample. Tried and tested for decades, the little torpedoes can be towed for up to 500 nautical miles at a time, with each 10cm of silk representing one 10-nautical mile sample…
…“We’ve recorded more than 200m biological records of individual species from the samples we’ve analysed,” says David Johns, head of the CPR survey. “This resource is freely available online to everyone, from schoolchildren all the way up to top-flight scientists, who use our data for a myriad of different reasons.
”Plankton are defined as organisms that drift in the ocean, unable to swim against the current. Because they are so dependent on ocean patterns, studying them can teach us about the health of not just the seas, but of the planet itself. The longer the research continues, the greater its value for predicting future trends – and confronted with a climate crisis, that predictive power has never been more valuable.
Read the entire article here.