Understanding sea state for better passage planning - Yachting Monthly (2024)

Consider wind and waves when planning and, as Norman Kean explains, you'll be able to predict and avoid rough waters

Understanding sea state for better passage planning

The basic driver of sea state is of course the wind. The stronger the wind, the greater the distance over which it blows unimpeded (termed the ‘fetch’), and the longer it blows for, the bigger the waves – up to a limit, for the wind strength.

Waves – as our stomachs know – are not generally regular. A typical wind-driven wave pattern is a combination of many wave trains, each with different wave height (trough to crest) and period (the time interval between crests). When these combine, the result appears as groups of waves. Waves passing one spot will build to one or two big ones, and then diminish again before the cycle repeats, while a short distance away the same thing is happening, but not in step, so to speak, and the sea surface is a continuous grid of these fan-like wave groups.

Understanding sea state for better passage planning - Yachting Monthly (1)

Wave patterns are not regular because multiple wave trains with different periods interact resulting in a pattern with variable amplitude

Understanding sea state for better passage planning - Yachting Monthly (2)

Wind-driven waves interact with storm-driven swell from a different direction to create patches of waves

The pattern is often best appreciated from the air, in breezy conditions. In a small vessel it’s often possible to steer between the groups in such a way as to dodge the biggest waves. If you’re watching waves break on a beach, it’s remarkable how often two or three big ones arrive in succession. In a random wave pattern, consisting of combinations of many wave trains of different heights and periods, about one wave in 25 will be twice the average height, and given several thousand waves – say 12 hours at sea – there is an excellent chance of meeting one three or even four times the average. Casually labelling these as ‘rogues’ or ‘freaks’, as the media often do, is thus not entirely appropriate, but it meets the need for sensational headlines.

Significant wave height is the average of the highest one-third of waves. This is regarded as the figure of greatest interest to sailors, and it’s the one that’s quoted in buoy reports and wave height forecasts. Long waves with long periods move faster, survive longer and travel further, and the most extreme example of this is a tsunami.

What causes dramatic sea states?

Understanding sea state for better passage planning - Yachting Monthly (3)

How depth and wavelength interact to affect the motion of water in waves

With winds of Force 5 or so, a lot of the wave crests topple over and break, and this of course becomes more frequent and heavier as the wind gets stronger. But it’s not the only factor at work. Wave motion involves a disturbance in the water that extends down to about half the wavelength below the surface. A diver hovering underwater moves in a vertical circle as each wave passes. Except in breakers, there’s no net onward movement of water. But when the water is moving bodily in the opposite direction, the wind-driven waves are effectively slowed so the energy transforms into shorter, steeper, higher waves – this is the wind-over-tide situation. When the wave height to wavelength ratio is around 1:7, the waves break, forming overfalls. The converse is also true, but we tend not to notice.

Shoals affect sea state

In water shallower than half the wavelength, the seabed starts to interfere. It slows the waves down, and again they pile up, getting shorter, steeper and higher. An underwater reef offshore can cause a bigger wave than usual to rear up, apparently out of nowhere, and break, sometimes with tremendous violence. In the North Atlantic, the swell’s wavelength can be 500 metres or more, and because it’s the wavelength that influences the effect, it can happen in surprisingly deep water and with little warning. Even the edge of the continental shelf, 100-200 metres down, is less than half the wavelength so it affects the sea state (200 metres horizontally is only a good golf shot, after all) and this is one reason for the reputation of the Bay of Biscay.

Understanding sea state for better passage planning - Yachting Monthly (5)

As the River Arun flows out of Littlehampton against a gentle southerly onshore breeze, the wind-over-tide effect is clear

A river mouth bar provides the setting for the worst of both worlds – outgoing stream meets onshore waves over a shallow patch – while the combination of an irregular bottom, strong tide and exposure to heavy seas can be spectacular.

In places like Corryvreckan, the Pentland Firth and Portland Bill, even in the absence of any wind or swell, the tide by itself creates a disturbed sea – a race – and there may be standing waves, which rear up continuously in the same place and can be almost wall-like.

Understanding sea state for better passage planning - Yachting Monthly (6)

In the foreground we can see a clapotic wave, which has reflected off the wall of Dawlish train station and collided with an incoming wave

Waves impinging on cliffs with deep water at their foot tend to bounce back, and the result is a jumbled and chaotic sea state of dancing peaks and hollows. The French have a word for it: clapotis. The term is familiar to kayakers, who frequent places like that, but the clapotic sea state is strangely absent from the sailor’s vocabulary.

Understanding sea state for better passage planning - Yachting Monthly (7)

This swell forecast indicates 18m off the northwest coast of Scotland

Waves radiate outwards in all directions over long distances from a storm centre, and as they travel, the component wave trains sort themselves out. The smaller, shorter waves quickly lose their energy and disappear, leaving the longer-period waves to reach coasts up to perhaps 1,000 miles away, in the form of swell. This long, regular roll from a distant storm may be quite unrelated to the wind-driven sea conditions locally, but it can have a big impact on passage planning, safety and comfort. If there is also a big local sea running in a different direction, a cross sea results, which can produce steep and dangerous waves. Because of their length, swell waves are also particularly prone to rearing up in shallow water. Surfers love them. They call them prowlers.

There are several excellent forecast websites and, on the ones listed on the previous page, sea state reports are available from met buoys. Check pressure charts for the whole ocean, to see where the storm centres are and how they’re moving, and you’ll get a grasp of the influences at work generating swell.

How does sea state affect your passage planning?

Understanding sea state for better passage planning - Yachting Monthly (8)

This yacht has opted to take a fair tide through The Swinge off Alderney, but even a relatively gentle wind against a racing tide kicks up steep seas

Unless you’re a real glutton for punishment, you’ll prefer not to sail in steep and breaking seas. So do your homework and give an unavoidable wind-over-tide headland an extra-wide berth. Check the reports from met buoys, and look at sea state forecasts to see what swell conditions will be like. In a big sea, stay away from shallows and shoals.

At harbour and river mouth bars, check the swell direction, and if things are marginal, try to time your entry for a high and rising tide. Some places and passages may have to be avoided altogether. A long (even barely perceptible) swell can make for a rolly and sleepless night at anchor, and swell waves are apt to be refracted round headlands, so bear in mind that an apparently sheltered bay may not be as snug as it looks on the chart.

But when all’s said and done, there’s something very pleasant about the steady motion of a good boat in an ocean swell. A life on the ocean wave!

Sea state forecasting and reporting sources

Passageweather.com

Magicseaweed.com

Metoffice.gov.uk

Met.ie

Nci.org.uk (phone and ask)

Around Ireland, and in addition to the standard met buoys, seven navigational buoys measure conditions including sea state, and tweet the data every 20 minutes. See cil.ie.

Sea state scale

Understanding sea state for better passage planning - Yachting Monthly (9)

This photo was taken from the bridge of RMS Carinthia by John Shepherd, a Cunard officer, in 1965, on passage from Greenock to Halifax, Nova Scotia. ‘Given that Carinthia’s bridge was 23m (75ft) above the waterline, and these mammoth swells are still cutting the horizon, I would estimate that they were about 24-26m (80-85ft) from trough to crest,’ he said

The Douglas scale, devised in the 1920s, is used to describe sea state in forecasting and reporting:

0 Glassy calm

0 to 0.1m Rippled calm

0.1 to 0.5m Smooth

0.5 to 1.25m Slight

1.25 to 2.5m Moderate

2.5 to 4m Rough

4 to 6m Very Rough

6 to 9m High

9 to 14m Very High

More than 14m Phenomenal

Phenomenal seas might occur two or three times in a winter, off Cornwall, the west of Ireland or Scotland, and in the northern North Sea. The highest recorded wave off the Irish coast was one of 25m, at the Kinsale Field gas rigs in February 2014.

Enjoyed reading Understanding sea state for better passage planning?Understanding sea state for better passage planning - Yachting Monthly (10)

A subscription to Yachting Monthly magazine costs around 40% less than the cover price.

Print and digital editions are available through Magazines Direct – where you can also find the latest deals.

YM is packed with information to help you get the most from your time on the water.

      • Take your seamanship to the next level with tips, advice and skills from our experts
      • Impartial in-depth reviews of the latest yachts and equipment
      • Cruising guides to help you reach those dream destinations

Follow us on Facebook, Twitter and Instagram.

Understanding sea state for better passage planning - Yachting Monthly (2024)

References

Top Articles
Latest Posts
Recommended Articles
Article information

Author: Msgr. Benton Quitzon

Last Updated:

Views: 6068

Rating: 4.2 / 5 (43 voted)

Reviews: 90% of readers found this page helpful

Author information

Name: Msgr. Benton Quitzon

Birthday: 2001-08-13

Address: 96487 Kris Cliff, Teresiafurt, WI 95201

Phone: +9418513585781

Job: Senior Designer

Hobby: Calligraphy, Rowing, Vacation, Geocaching, Web surfing, Electronics, Electronics

Introduction: My name is Msgr. Benton Quitzon, I am a comfortable, charming, thankful, happy, adventurous, handsome, precious person who loves writing and wants to share my knowledge and understanding with you.