The Fast Break – Victoria
In summary
- Previous months predictions for being wetter have not come to fruition.
- Most models still predicting increased chance of wetter in future, but our confidence is low based on recent performance.
- Progress towards a La Niña still very slow.
- Oceans are warmer to the north of Australia, but connections to tropical moisture are being hampered by unhelpful pressure positioning.
Another drier month in the north has seen crops and pastures with access to soil moisture rapidly using it up. In the south, frequent low rainfall events are yet to lead to runoff in the southwest.
The Pacific Ocean is still neutral, having only made minor progress towards a La Niña in the last 30 days. Ocean temperatures at depth have cooled and this is starting to outbreak a small amount at the surface. Early in the month a burst of easterly wind probably helped this to occur, but it hasn’t been sustained and the trade winds have returned to normal in the central equatorial Pacific. A phase of positive La Niña like Southern Oscillation Index (SOI) values has also not been sustained. Cloud has picked up north of Australia along with some lower pressure, but this could be associated with a passing phase of the Madden Julian Oscillation (MJO). Nearly all models predict a cooling of the central Pacific to form a ‘modoki’ style La Niña for spring and summer but there is still much work needed by the trade winds to get this to occur.
The Indian Ocean has warmed up across the basin and the area of cooler water (drier pattern) off Indonesia has faded away. Pressure and cloud have returned to more normal values from positive Indian Ocean Dipole (drier) like patterns. Despite this, northwest cloud band activity has been supressed and moisture in the Timor Sea has been moving away from Australia. Most models predict the Indian Ocean to stay warmer but in a neutral phase for the rest of spring.
The Southern Annular Mode (SAM) has spent time in both positive and now negative phases, but SAM’s reliability as a climate driver in spring is poor. A negative position could mean more frontal activity for southern areas but also less easterly moisture flow from the tropics.
The MJO has recently passed across northern Australia with some strength, but no passing weather systems were able to get a connection into that moisture.
Pressure has been lower south of the Great Divide with many frontal systems passing by. This is due to the position of high-pressure systems being much further north of the average Adelaide position in spring. Higher pressure to the northwest of Victoria has been blocking moisture transport from the northwest.
My assessment of 12 climate models for Victoria is for increased chances of wetter, although our confidence in the wetter forecasts is low given the poor form of models in recent months. Temperatures are likely to be warmer for the next three months.
Soil moisture
Compared to 30 days earlier than 20 August 2024
The BoM Australian Water Outlook decile (AWO) deciles for perennial pasture rank most of the northwest, northern country, Wimmera, northeast, and eastern southwest at decile one. The far coastal southwest, central and east Gippsland are ranked average or wetter. The moisture probe network shows most northern crop sites significantly drier as well as two sites in central Gippsland. The median change of probes that dried in the past month was minus 30 percentage points. The Coonooer Bridge wheat decreased 39 percentage points from 88 to 49% and the Jancourt dairy pasture increased 54% from 46 to 100%
Soil moisture probe data can be accessed in real time at Agriculture Victoria’s soil moisture monitoring website.
Probes from Agriculture Victoria, Dookie Land Management Group, Gecko Clan, Perennial Pasture Systems, Gippsland Agriculture Group, Murrayville Landcare and Riverine Plains Inc. networks.
Leongatha perennial | 100 |
Bessiebelle perennial | 91 |
Terang perennial | 100 |
Jancourt perennial rye | 100 |
Yalla-Y-Poora wheat | 6 |
Greta annual pasture | 89 |
Hamilton wheat | 15 |
Omeo crop | 34 |
Buchan perennial | 93 |
Baynton granite annual | 81 |
Omeo perennial | 51 |
Birchip crop | 80 |
Moyston perennial | 32 |
Yarram ryegrass | 91 |
Lawloit lucerne | 44 |
Raywood canola | 42 |
Dartmoor lucerne | 95 |
Taylors Lake wheat | 46 |
Bairnsdale perennial | 100 |
Bairnsdale annual | 100 |
Baynton basalt phalaris | 100 |
Baynton granite phalaris | 100 |
Greta phalaris | 100 |
Greta summer pasture | 100 |
Longwarry chicory | 100 |
Longwarry perennial rye | 100 |
Pigeon Ponds phalaris | 62 |
Cann River perennial | 100 |
Elmore wheat | 17 |
Coonooer Bridge wheat | 49 |
Brim wheat | 42 |
Speed wheat | 63 |
Paradise perennial | 43 |
Ouyen lupin | 68 |
Sheep Hills barley | 51 |
Normanville crop | 57 |
Youanmite crop | 49 |
Cowangie crop | 46 |
Giffard fodder | 79 |
Yarram prairie grass | 68 |
Goorambat crop | 57 |
Glenlofty perennial | 47 |
Model distribution summary for the next 3 months
Predicted rainfall: October to December 2024
Predictions for October to December 2024, the outlook from 12 global model forecasts is for likely wetter across Victoria.
Model distribution summary for Victoria
Predicted temperature: October to December 2024
Predictions for October to December 2024, the outlook from 11 global model forecasts is for likely warmer across Victoria.
Model distribution summary for the next 4 to 6 months
Predicted rainfall: January to March 2025
Predictions for January to March 2025, the outlook from nine global model forecasts is for likely wetter across Victoria.
Predicted temperature – January to March 2025
Predictions for January to March 2025, the outlook from 9 global model forecasts is for likely warmer across Victoria.
Model consensus forecast for the next 6 months
Current outlook (23 September)
Phenomena | October-December | January-March 25 |
---|---|---|
Pacific Ocean | Cool (La Niña Modoki) | Cool (La Niña Modoki) |
Indian Ocean | Slightly warm | Slightly warm |
Rainfall | Wetter | Wetter |
Temperature | Warmer | Warmer |
Previous outlook (20 August)
Phenomena | September-November | December-February 25 |
---|---|---|
Pacific Ocean | Cool (La Niña Modoki) | Cool (La Niña Modoki) |
Indian Ocean | Slightly warm | Slightly warm |
Rainfall | Wetter / neutral | Neutral / wetter |
Temperature | Warmer | Warmer |
Sea surface temperature (SST) anomalies
The equatorial Pacific Ocean surface cooled over September particularly in the central region. The oceanic values for NINO3 and NINO3.4 were -0.15ºC and -0.21ºC respectively (15 September). Both these values remain normal. A La Niña value would be cooler than -0.8ºC. Ocean temperatures are warmer than normal in the Coral Sea to our northeast as a better moisture source.
The Indian Ocean has rewarmed across the basin and the cooling around Sumatra that existed last month has disappeared. The Dipole Mode Index is currently -0.07ºC (15 September), a neutral value. The Timor Sea is warmer to our northwest as a better moisture source.
Sea surface temperatures are the key to the world’s rainfall. For more information on how they are measured, maps created and how to read them, check out our eLearn
National Oceanic and Atmospheric Administration (NOAA) Coral Reef Watch Daily 5 km SST Anomalies (Version 3.1) 21 September 2024.
Equatorial Pacific subsea temperature anomalies
Analysis done 19 September 2024
The Pacific Ocean Equatorial sub-surface temperature increased in size and lowered in temperature during September. This looks like a stronger pre-La Niña pattern. Cooler water has started to upwell in the central Pacific.
Southern Oscillation Index (SOI)
30-day moving SOI
The SOI climbed strongly into La Niña like positive values in September but has been unable to sustain it, recently dropping below the +7 threshold. The SOI is currently at +4.0 (as of 21 September 2024). The strongly positive SOI was driven mainly by higher pressure at Tahiti rather than lower pressure at Darwin. Recently the pressure has lowered around Darwin but this could be due to the passing phase of the MJO.
© Copyright Commonwealth of Australia 2024. Bureau of Meteorology. Climatology period 1933–92.
Dipole Mode Index (DMI)
The DMI is the difference between the temperature of the west and east boxes of ocean monitored for the IOD. The IOD is behaving normally (currently -0.07oC at 15 September) with temperatures warm across the whole Ocean. A few models are predicting a late forming negative IOD (wetter), but most just keep the ocean warmer with no differential in temperature between east and west.
© Copyright Commonwealth of Australia 2024. Bureau of Meteorology.
Pacific Ocean surface wind anomalies
Wind direction and strength anomalies for the last 30 days
Operational data: Surface winds (m/s) 30-day anomaly for: Saturday 24 August to Sunday 22 September 2024.
A burst of stronger easterly wind in the first weeks of September occurred across the Equatorial Pacific. This has helped the Pacific Ocean surface to cool further. This burst of wind was possibly kicked off by the MJO being positioned west of Australia and drawing wind from the east into it. Currently the winds are normal, indicating no consistent strengthening of the easterlies.
Off Indonesia, the winds are currently normal but had previously been a bit stronger southeasterly with moisture in that zone moving away from Australia.
(NCEP Operational climatology data: 1985–96, smoothed with 5-day running mean.) Source: NOAA.
World cloudiness anomalies
OLR anomalies: Average of 22 August to 21 September 2024
Cloud at the junction of the dateline is slightly less but shows no La Niña like pattern. Greater cloud existed in the north from the warmer Coral Sea but this could also be an effect of a passing MJO cloud wave phase. A lack of northwest cloud band activity into Western Australia is indicative of that being a problem for many months in Victoria as well.
Source: Bureau of Meteorology.
Southern Annular Mode (SAM)
AAO: Observed and GFS forecasts
26 May 2024 to 22 September 2024
The Southern Annular Mode (SAM) or Antarctic Oscillation (AAO) has been weakly positive in the first half of September and is currently weakly negative. SAM has historically led to variable results in spring for Victoria compared to greater dependability of influence in winter or summer. A negative SAM could push fronts up closer to Victoria which could be useful for some coastal areas but could also lead to less easterly flow from the tropics. In the next 14 days both BoM and NOAA predict the SAM to go moderately strong negative before returning to neutral values.
Source: NOAA.
Madden Julian Oscillation (MJO)
MJO Phase Diagram for 13 August to 21 September 2024
For September the MJO cloud band weakly formed west of Indonesia then made a stronger rush across northern Australia in the last fortnight. Unfortunately, no passing front or low was in a position to get a connection to it. The BoM ACCESS model predicts the MJO to spend the next 30 days traversing the Pacific and Indian Ocean, arriving off Indonesia with no strength.
Source: Bureau of Meterology.
Air pressure
Last 30 days air pressure
Sea level pressure (mb) 30-day mean for: Saturday 24 August to Sunday 22 September 2024.
In the past 30 days the Sub Tropical Ridge of High Pressure (STR) has been further north of a normal spring position of Adelaide. This shifting of patterns north has meant a lot of westerly winds flow, and plenty of frontal activity south of the Divide. The pressure ridge has been doing a good job of blocking connections to tropical moisture.
Source: NOAA.
Air pressure anomalies
Last 30 days air pressure anomaly
Sea level pressure (mb) 30-day anomaly for Saturday 24 August to Sunday 22 September 2024.
The Sub Tropical Ridge was lower in pressure south of the Great Divide, but higher in pressure north of Victoria. This was indicative of many fronts passing in the south and an inability to connect to the tropics in northern Victoria. Some lower pressure north of Australia is a bit more La Niña like but the pressure in Tahiti has shifted from higher to normal. This is why the SOI is neutral.
(NCEP Operational climatology data: 1985–96, smoothed with 5-day running mean.) Source: NOAA.
Climate definitions
Read a list of climate acronyms and explanations.
Modelled climate and ocean predictions for Victoria from September 2024 run models
Twelve climate models show their predictions for the next 6 months for the Pacific Ocean, Indian Ocean, rainfall and temperature for Victoria.
View a colour-coded version of this table (WORD - 77.2 KB)
Our e-learning module How to read the Fast Break table explains this table.
Four coupled global circulation model forecasts
Phenomena | System 5 ECMWF Europe | ACCESS-S BoM Australia | SINTEX-F JAMSTEC Japan | CFSv2 NCEP USA |
---|---|---|---|---|
Month of Run | Sept | Sept | Sept | Sept |
Forecast months* | OND | OND | OND | OND |
Rainfall Skill OND | Moderate | Moderate | - | Moderate, Low SW |
Spring Pacific Ocean NINO3.4 | Cool (weak La Niña Modoki) | Slightly cool | Cool (La Niña Modoki) | Slightly cool |
Spring Eastern Indian Ocean | Slightly warm | Slightly warm | Slightly warm | Warm |
Spring Rainfall | Slightly wetter, neutral SW, E Gipps | Neutral | Neutral | Slightly wetter, neutral SW Coast |
Spring Temperature | Slightly warmer, warmer Coast | Warmer W, slightly warmer E | Warmer | Neutral |
Forecast months* | JFM | DJF | DJF | JFM |
Summer Pacific Ocean NINO3.4 | Slightly cool | Normal | Cool (La Niña Modoki) | Normal |
Summer Eastern Indian Ocean | Slightly warm | Slightly warm | Slightly warm | Slightly warm |
Summer Rainfall | Slightly wetter, neutral NW | - | Neutral | Neutral |
Summer Temperature | Neutral, slightly warmer SW, Wimm | - | Warmer | Slightly warmer |
Further Info | Operational | Operational | Experimental | Operational |
*OND = October, November, December DJF = December, January, February JFM = January, February, March
Four coupled global circulation model forecasts
Phenomena | GEOS-S2S NASA USA | EPS JMA Japan | CSM1.1m BCC China | GloSea5 UKMO UK |
---|---|---|---|---|
Month of Run | Sept | Sept | Sept | Sept |
Forecast months* | OND | OND | OND | OND |
Rainfall Skill OND | Moderate | Moderate | - | Moderate |
Spring Pacific Ocean NINO3.4 | Cool (La Niña Modoki) | Slightly cool (La Niña Modoki) | Cool (La Niña) | Cool (La Niña Modoki) |
Spring Eastern Indian Ocean | Normal (weak +IOD) | Slightly warm (weak -IOD) | Slightly warm | Warm (weak -IOD) |
Spring Rainfall | Neutral, slightly wetter E Gipps | Wetter | Neutral W, slightly wetter E | Slightly wetter |
Spring Temperature | Warmer | Warmer | Warmer W, neutral E | Warmer |
Forecast months* | JFM | - | JFM | DJF |
Summer Pacific Ocean NINO3.4 | Cool (La Niña Modoki) | - | Normal | Cool (La Niña Modoki) |
Summer Eastern Indian Ocean | Normal | - | Normal | Slightly warm |
Summer Rainfall | Slightly wetter | - | Neutral, slightly drier Central | Slightly wetter |
Summer Temperature | Slightly warmer | - | Warmer | Warmer |
Further Info | Experimental | Experimental | Operational | Operational |
*OND = October, November, December DJF = December, January, February JFM = January, February, March
Three ensembles and a statistical model forecast
Phenomena | NMME USA | C3S Europe | MME APCC Korea | SOI phase USQ/Qld Australia |
---|---|---|---|---|
Month of Run | Sept | Sept | Sept | Sept |
Forecast months* | OND | OND | OND | OND |
Rainfall Skill OND | Moderate | - | - | - |
Spring Pacific Ocean NINO3.4 | Cool (La Niña Modoki) | Cool (La Niña Modoki) | Cool (La Niña Modoki) | SOI neutral |
Spring Eastern Indian Ocean | Slightly warm | Slightly warm (weak -IOD) | Slightly warm | - |
Spring Rainfall | Slightly wetter | Slightly wetter | Slightly wetter | Neutral |
Spring Temperature | Warmer S, slightly warmer N | Neutral, slightly warmer S, Wimm | Warmer S, slightly warmer N | - |
Forecast months* | JFM | DJF | JFM | - |
Summer Pacific Ocean NINO3.4 | Cool (La Niña Modoki) | Cool (La Niña Modoki) | Slightly cool (weak La Niña Modoki) | - |
Summer Eastern Indian Ocean | Slightly warm | Slightly warm | Slightly warm | - |
Summer Rainfall | Slightly wetter, neutral SW, NC | Slightly wetter, neutral SW, far W | Neutral W, slightly wetter E | - |
Summer Temperature | Warmer S, slightly warmer N | Warmer | Warmer W, slightly warmer E | - |
Further Info | Experimental Summary of 8 dynamic models | Experimental Summary of 7 dynamic models | Experimental Summary of 13 dynamic models | 5 phase system based on previous 2 months SOI |
*OND = October, November, December DJF = December, January, February JFM = January, February, March
Image references
Original images used in this document are sourced from the Bureau of Meteorology under a Creative Commons 3.0 licence and from the NOAA which has a public domain policy. Annotations highlighting areas of interest have been added by Dale Grey.