23rd Aug – Damaging surf

SST update

SST anomaly for 21st August 2019 – RAMSSA

Weak cool anomalies surround much of the country, including the Great Australian Bight and the tropics. A big cold patch off southern Sumatra is due to upwelling. As mentioned last week, this is causing cool SSTs in the eastern IOD box and has led to a jump in the IOD index.

There are two significant warm areas. Firstly, the southwest corner of WA where it is 2 to 3 degrees about normal just to the south of Albany and also further west in a warm eddy. The other hot spot is along the NSW coast.

Two anomalously warm areas. SST anomalies for southwest WA and NSW – RAMSSA

Damaging and hazardous surf

A southerly surge up the east coast this week caused winds, waves and sea levels to spike. The media has speculated on batterings from fierce gales and likely coastal erosion.

The Bureau has issued warnings for Hazardous Surf and Damaging Surf.

‘Hazardous Surf’ is used to describe conditions that are not safe for swimmers, boaters and fishers.

‘Damaging Surf’ is when the conditions are likely to cause damage to property or significant coastal erosion.

Himawari-8 visible image overlaid with marine wind warning regions (dashed boxes) and lightning (red dots) for 22nd August 2019 – BOM

The sea level has surged along the southeastern coast and formed a coastally trapped wave. Yesterday the CTW was seen along eastern VIC and southern NSW. Today it has moved to northern NSW and it will reach southern QLD on Saturday.

Sea level anomaly for 12 UTC on 22nd August 2019 – OceanMAPS

The surge in OceanMAPS verified well yesterday, when a tide residual of 0.55 m was measured at Lakes Entrance.

Tide levels, predict, observed and residual for Lakes Entrance – BOM National Tidal Centre

But what about the waves?

Whopping significant wave heights up to 10 to 11 m were expected in the western Tasman Sea yesterday. The worst impacted place would be Lord Howe Island.

[I can’t find any online reports or photos from Lord Howe Island – hope everything it OK out there]

Significant wave height for Thursday 10 am and 4 pm local time – AUSWAVE-R

The large sea state has also caused notable wave setup along the mainland coast. The National Storm Surge model showed wave setups of 0.6 m along NSW, particularly on southfacing shorelines like near Newcastle.

Large wave setup + moderate coastally trapped wave + small (neap) tides = minor HAT exceedences on exposed coastlines.

National Storm Surge model for 0330 UTC on 22 August 2019. Box showing break down of components for a point – BOM

The National Storm Surge model indicated up to 15 cm above HAT in many places. This is not extreme, but wave over-topping is an additional factor that would have increased the risk of coastal erosion.

What have we seen so far?

Not many photos have yet emerged, no doubt because the event is still ongoing.

But we can see measurements that have backed up the wave forecast. Yesterday (Thursday) afternoon a significant wave height of 6.3 m was measured at Sydney buoy. The maximum wave was 13.3 m! An eyeball of the station history table shows that since 1993 that Hmax number has only been beaten once before with a 13.8 m recorded in June 2012. [Other NSW stations have recorded higher].

Wave measurements at MHL’s Sydney buoy for 22nd August 2019 – MHL

A report published this week in Nature Climate Change by CSIRO researchers, shows that 50% of global coastlines will be affected by changes in wave climate. Some areas will see increasing wave heights and some will see decreasing wave heights. Mean wave directions are also set to change by up to 15 degrees in places.

The trend may mean this “quite rare event” for NSW may not be all that rare in times to come.

Arctic hotspot

A hot well in northern Canada has developed in OceanMAPS.

SSTs are approaching 30 deg C – enough for a tropical cyclone to develop.

SST in OceanMAPS for 22nd August 2019

Ocean temperatures are certainly warmer than normal in the Arctic. Global SST analyses put the anomaly at least 4 to 5 deg C above climatology. The Arctic sea ice extent is at its lowest point ever for this time of year.

Current sea ice extent for the Arctic – Met.no
SST anomaly: GMPE SST ensemble mean minus NCEP OIv2 climatology. Hand drawn circles show area of interest – GHRSST/MetOffice

Many global SST products are struggling to capture the dynamics in the newly ice-free zones. Variance from analysis to analysis is large.

However, OceanMAPS has perhaps gone a bit too far. Strangely, the warm cell actually developed over the northern winter when the region was covered in ice. OceanMAPS doesn’t include ice so it does have difficulties in these areas, particularly when patches of ocean are surrounded by islands.

SST analysis comparison: OceanMAPS and Canada’s CMC SST for 11th August 2019 – Source: Helen Beggs

We have traced the problem back to a lack of SST observations getting into the data assimilation scheme in this spot. The rest of the Arctic is fine.

What this part of the world usually looks like. King William Island, Canada – StephenTrafton

Unless you are planning a swimming trip in the Arctic next week and wondering whether to pack your survival suit or your bikini, don’t worry. We have a working group onto it.

Stay tuned for updates on the fix.