2011–12 Australian region cyclone season

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2011–12 Australian region cyclone season
First system formed 3 December 2011
Last system dissipated 1 July 2012
Strongest storm1 Lua – 930 hPa (mbar), 165 km/h (105 mph) (10-minute sustained)
Tropical lows 20 official, 1 unofficial
Tropical cyclones 7
Severe tropical cyclones 2
Total fatalities 16
Total damage > $230 million (2012 USD)
1Strongest storm is determined by lowest pressure
Australian region tropical cyclone seasons
2009–10, 2010–11, 2011–12, 2012–13, 2013–14,
Related articles

The 2011–12 Australian region cyclone season is an event in the ongoing cycle of tropical cyclone formation. It began on 1 November 2011, and ended on 14 May 2012. The regional tropical cyclone operational plan defines a "tropical cyclone year" separately from a "tropical cyclone season"; the "tropical cyclone year" began on 1 July 2011 and ended on 30 June 2012.[1]

The scope of the Australian region is limited to all areas south of the equator, east of 90°E and west of 160°E. This area includes Australia, Papua New Guinea, western parts of the Solomon Islands, East Timor and southern parts of Indonesia.[1]

Tropical cyclones in this area are monitored by five Tropical Cyclone Warning Centres (TCWCs): the Australian Bureau of Meteorology in Perth, Darwin, and Brisbane; TCWC Jakarta in Indonesia; and TCWC Port Moresby in Papua New Guinea.[1] The Joint Typhoon Warning Center issues unofficial warnings for the region, designating tropical depressions with the "S" suffix when they form west of 135°E, and the "P" suffix when they form east of 135°E.

Seasonal forecasts

TSR forecasts
Date		 Tropical
storms		 Severe Tropical
cyclones		 Landfalling
cyclones		 ACE Ref
Average (1975/76—2010/11) 10.5 5.5 4.5 79 [2][3]
11 May 2011 11.2 5.9 4.7 -- [2]
4 July 2011 10.6 5.5 4.4 -- [4]
8 September 2011 11.8 6.2 4.9 -- [5]
8 November 2011 12.9 6.8 5.3 -- [6]
7 December 2011 12.9 6.8 5.3 94 [3]
Region Average Chance of
Above average		 Actual activity Ref
Whole 12 80% 7
Western 7 65% 5
North-Western 5 60% 3
Northern 3 60% 1
Eastern 4 65% 1
Total Forecast
Center		 Tropical
lows		 Tropical
cyclones		 Severe tropical
cyclones		 Ref
Actual activity: BoM 20 7 3
Actual activity: JTWC 17 8 4

During each tropical cyclone year, Australia's Bureau of Meteorology National Climate Centre (BoM), the Guy Carpenter Asia-Pacific Climate Impact Centre, New Zealand's National Institute of Water and Atmospheric Research (NIWA) and partners issue seasonal forecasts for the Australian region and its various subregions. Since a tropical cyclone can move through a region, the actual number of tropical cyclones in a region include any that form in or move into a region from another.

Bureau of Meteorology

In October 2011, ahead of the tropical cyclone season starting on November 1, the BoM issued seasonal forecasts for the whole Australian region, one for each of the subregions Western, North-Western, Northern and Eastern Australia with each one covering the whole tropical cyclone year.[7] For each forecast they took into account, the current neutral ENSO conditions to weak La Niña conditions that had been observed during that summer.[7] For the whole region they predicted that there was an 80% chance that the season would be above average.[7]

For the Western region between 90°E and 125°E, the BoM forecast that the area would see activity near to or slightly above the average, with a 35% chance of a below average cyclone activity.[7] For the North-Western subregion between 105°E and 130°E, it was predicted that there was a 60% chance of above average tropical cyclone activity, while TCWC Perth noted that there was a likelihood of two tropical cyclones and one severe tropical cyclone impacting Western Australia.[8] The Northern Territory which was defined as being between as being 125°E and 142.5°E had a 60% chance of being above average, while the Eastern region had a 65% chance of having an above average tropical cyclone season.[7] During February after Cyclone Heidi and Iggy had threatened Western Australia, it was reported that there was a likelihood of at least one more coastal impact and a significant risk that it could be a severe tropical cyclone.[9] The BoM also issued a seasonal forecasts for the South Pacific region between 142.5°E and 165°E and one for the Eastern Southern Pacific region between 165°E and 120°W.[10] The outlook called for a westward shift in tropical cyclone activity with a 65% chance that the Western Pacific Region will see more than the average number of tropical cyclones while there was a 40% chance that the Eastern Pacific Region will see above average number.[10]

Others

Seasonal summary

Storms

Severe Tropical Cyclone Alenga

Category 3 severe tropical cyclone (Australian scale)
Category 2 tropical cyclone (SSHWS)
150px 150px
Duration 3 December – 11 December
Peak intensity 150 km/h (90 mph) (10-min)  968 hPa (mbar)

On 3 December, TCWC Perth and TCWC Jakarta started monitoring a tropical low that had developed about 1220 km (760 mi) to the southwest of Jakarta, Indonesia.[11] Over the next few days, the low moved towards the southeast, while the system's low-level circulation centre gradually developed further, in an area of moderate vertical wind shear.[11][12] During the next day, the low moved out of the Australian region and moved into the South-West Indian Ocean, where it was named Alenga by the Mauritius Meteorological Service on 5 December.[11] During that day, RSMC La Reunion reported that Alenga reached an initial 10-minute peak windspeed of 100 km/h (65 mph), as it started to recurve and move towards the Australian region.[11][13] The system then weakened slightly, before re-intensifying and surpassing its initial peak intensity, as it moved back into the Australian region during 7 December.[14] Later that day, the JTWC reported that Alenga had become equivalent to a category one hurricane on the Saffir-Simpson Hurricane Scale (SSHS).[14] During the next day, TCWC Perth reported that Alenga had become a Category 3 Severe Tropical Cyclone, and reached its 10-minute peak windspeeds of 150 km/h (90 mph) before the JTWC also reported that Alenga had intensified further and peaked with 1-minute windspeeds of 175 km/h (110 mph), and had become equivalent to a category 3 severe tropical cyclone, on the SSHWS.[11][14] Alenga then started to rapidly weaken as it moved into an area of higher vertical wind shear, with convection diminishing and the low-level circulation centre becoming elongated.[15] On 9 December, TCWC Perth reported that Alenga had degenerated into a tropical low, while the JTWC followed suit and issued their final advisory on Alenga.[15] TCWC Perth then tracked the remnants for another three days, in their tropical weather outlooks, before dropping it on 12 December. Alenga brought severe storms to Perth on 12 and 13 Dec.[16]

Tropical Low Fina

Tropical low (Australian scale)
150px 150px
Duration 18 December – 23 December
Peak intensity 55 km/h (35 mph) (10-min)  994 hPa (mbar)

On 18 December, TCWC Brisbane reported that a tropical low had developed within the South Pacific Convergence Zone, to the southeast of Port Moresby, in Papua New Guinea.[17][18] Over the next few days, the low moved towards the south-southwest under the influence of a weak upper ridge of high pressure in an area of weak vertical wind shear. On 20 December, as convection had consolidated over the systems low level circulation centre, the JTWC issued a tropical cyclone formation alert on the system. During the next day TCWC Brisbane reported that the low had become a category one tropical cyclone and named it Fina during the next day as it had 10-minute windspeeds of 65 km/h (40 mph).[19] However, as soon as Fina was named, it started weakening as an upper level trough of low pressure moving through eastern Australia, increased windshear over the system, which meant that Fina's low level circulation centre became exposed, with convection displaced over 135 kilometres (85 mi) from the centre.[17] As a result of this, the JTWC decided to cancel their tropical cyclone formation alert late on 22 December, while TCWC Brisbane reported that Fina had degenerated into an extratropical cyclone. Over the next few days Cyclone Fina developed storm force winds and produced dangerous surfing conditions in southeast Queensland over the Christmas holiday. In post-analysis on early-2012, the BoM downgraded Fina to a tropical low.[17]

Tropical Low 03U (Benilde)

Tropical low (Australian scale)
150px 150px
Duration 21 December – 28 December (Exited basin)
Peak intensity Winds unknown 

On 21 December, TCWC Perth reported within their tropical weather outlooks that a tropical low was developing about 770 km (410 mi) to the northeast of the West Island of the Cocos (Keeling) Islands. Over the next few days they continued to monitor it, as the system slowly moved west-southwestward. On 28 December it moved into RSMC La Réunion's area of responsibility, where it commenced a strengthening trend.

Tropical Cyclone Grant

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Main article: Cyclone Grant
Category 2 tropical cyclone (Australian scale)
Tropical storm (SSHWS)
150px 150px
Duration 21 December – 2 January
Peak intensity 100 km/h (65 mph) (10-min)  978 hPa (mbar)

An area of thunderstorms north-northeast of Darwin was designated Tropical Low 04U by TCWC Darwin on 21 December.[20] Tropical Low 04U developed into a Category 1 tropical cyclone on the morning of 25 December,[21] and reached Category 2 strength in the afternoon of 25 December.[22] A cyclone watch was declared between Dundee Beach and Nhulunbuy, whilst a cyclone warning was issued for areas between Cape Fourcroy and Milingimbi including the Tiwi Islands.[23] A gale warning had been issued for Darwin and the Tiwi Islands on 24 December.[24]

Upon intensification to Category 1 on 25 December the cyclone was moving slowly towards the Cobourg Peninsula. The system intensified further on 25 December, reaching Category 2 status in the afternoon.[25] The system crossed Van Diemen Gulf and made a second landfall east of Point Stuart in the early morning of 26 December. Shortly thereafter the cyclone was downgraded to Category 1[26] and by the afternoon of that day it was downgraded to an ex-tropical low.[27]

On 28 December in the evening, the system moved back onto the waters of the Gulf of Carpentaria,[28] and was downgraded to a tropical low. The system continued to move eastward across the Cape York Peninsula and into the Coral Sea, even as the storm weakened, until Grant underwent an extratropical transition on 2 January 2012. Later on the same day, the extratropical remnant of Grant dissipated.

Severe Tropical Cyclone Heidi

Category 3 severe tropical cyclone (Australian scale)
Category 1 tropical cyclone (SSHWS)
150px 150px
Duration 9 January – 13 January
Peak intensity 120 km/h (75 mph) (10-min)  975 hPa (mbar)

Early on 9 January, both the JTWC and TCWC Perth started to monitor a tropical low that had developed within a monsoon trough, about 950 km (590 mi) to the north of Port Hedland in Western Australia.[29][30] Over the next two days, the low gradually moved southwards and developed in favourable conditions into a tropical cyclone, before late on 10 January, it was assigned the designation 06S by the JTWC and named Heidi by TCWC Perth.[30][31]

In preparation for the cyclone Port Hedland Port Authority closed the port, oilfields and gas production off the North-West coast were halted, and flights from Perth to Port Hedland were cancelled.[32]

In the early morning of 12 January the system made landfall just east of Port Hedland[33] and after a few hours the system was downgraded to Category 1 cyclone.[34] Port Hedland received 128.0 mm (5.04 in) of rain by 9:00am with gusts of 131 km/h (81 mph) and Wallal Downs recording 166.0 mm (6.54 in) of rain.[35] More than 3,500 homes and businesses in Port Hedland were left without power.[36] Late on 12 January the system was downgraded to a tropical low about 45 kilometres (30 mi) northeast of Tom Price. Flood Warnings continued for the Ashburton and De Grey River areas.[37] On 13 January, the remnants of Heidi continued to move south through the Gascoyne region with widespread rainfall totals of up to 30 mm (1.2 in).[38] Significant rainfall was recorded in the Gascoyne region through early morning 14 January at the homestead of Mount Vernon with 117.0 mm (4.61 in) of rain and Tangadee with 74.0 mm (2.91 in) of rain.[39] In the early morning of 15 January a severe weather warning was cancelled for northeast Gascoyne. However showers from the remants of the tropical low still persisted.[40]

Ahead of Cyclone Heidi making landfall during 12 January, various tropical cyclone alerts and warnings were issued for parts of the Pilbara Coast between Wallal and Dampier.[41]

Track data subsequently released by the BoM indicated that Heidi's winds were equivalent to a Category 3 system.

Tropical Low 10U

Tropical low (Australian scale)
150px 150px
Duration 22 January – 27 January
Peak intensity Winds unknown  995 hPa (mbar)

Tropical Cyclone Iggy

Category 2 tropical cyclone (Australian scale)
Category 1 tropical cyclone (SSHWS)
150px 150px
Duration 24 January – 3 February
Peak intensity 100 km/h (65 mph) (10-min)  970 hPa (mbar)

On 21 January, JTWC reported that an area of convection with a weak low level circulation had developed about 480 kilometres (300 mi) from Port Hedland.[42] By 24 January, TCWC Perth reported that a tropical low had formed, and that it was 720 kilometres (445 mi) north northwest of Exmouth moving west at 23 km/h (14 mph).[43] The tropical low was then given the identification 11U. Late on 25 January, the JTWC upgraded it into a tropical depression and designated as 09S. Soon after the system strengthened and the TCWC Perth had named the system Tropical Cyclone Iggy. The system was located 960 kilometres (595 mi) northwest of Exmouth, moving west at 5 km/h (3.1 mph).[44]

During its formative stages, Iggy was responsible for triggering severe weather, including tornadoes and flooding in Java, Bali, and in Lombok, Indonesia, causing the deaths of at least 16 people, and the destruction of thousands of houses.[45]

Early on 26 January, the system began to recurve and headed slowly towards the Pilbara coast.[46] Early on 27 January, the system was upgraded to a Category 2 system, while located 610 kilometres (380 mi) northwest of Exmouth moving east southeast.[47] By late 27 January a cyclone warning had been issued from Mardie to Ningaloo.[48] On 28 January, Iggy reached its peak intensity, with a minimum central pressure of 970 mbars. By 29 January, the system became stationary. Wind shear and lower sea surface temperatures, which the cyclone remained stationary over inhibited intensification. Later in the day, the cyclone weakened into a Category 1 cyclone.[49] On 30 January, after regaining forward momentum, the system began moving southwest at 6 km/h (3.7 mph), and restrengthened into a Category 2 system.[50] Early on 31 January, the system had once again weakened into a Category 1 cyclone, only to reintensify into a Category 2 cyclone on 1 February.[51]

Iggy eventually lost cyclone strength on 2 February, as it made landfall near Jurien Bay. A Severe Weather Warning for damaging winds and heavy rain was issued for the area bound by Kalbarri, Morawa, Wongan Hills, Narrogin and Harvey including Geraldton, Perth (the first ex-tropical cyclone to affect the region since Bianca) and Mandurah. The town of Lancelin received 98.0 mm (3.86 in) of rain.[52] On 3 February, Iggy dissipated inland.

Tropical Cyclone Jasmine

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Main article: Cyclone Jasmine
Category 2 tropical cyclone (Australian scale)
Tropical storm (SSHWS)
150px 150px
Duration 1 February – 6 February (out of basin)
Peak intensity 100 km/h (65 mph) (10-min)  979 hPa (mbar)

Severe Tropical Cyclone Jasmine was a long–lived annular tropical cyclone that affected several countries, particularly Vanuatu and Tonga, over a 19–day span. The sixth cyclone of the season, Cyclone Jasmine developed from an area of disturbed weather on 1 February in the Gulf of Carpentaria. Initially, the storm moved towards the east and across the Cape York Peninsula.[53] Dry air and wind shear prevented the system from strengthening significantly, but a moisture field over the Australian continent helped the storm maintain its intensity. Wind shear would later be subdued, allowing Jasmine to strengthen quicker. On 5 February, Jasmine reached its peak intensity in the Australian basin as a Category 2 on the Australian tropical cyclone intensity scale, with 10-minute sustained winds of 95 m/h (60 mph). After moving to the southeast in response to a nearby subtropical ridge, Jasmine exited the BOM's area of responsibility on 6 February.[54][55]

In Queensland, Jasmine produced heavy rains and gusty winds. Heavy rainfall from Jasmine's outer rainbands produced large precipitation totals across southern areas of Queensland. After moving into the Coral Sea, a surface trough attached to the system produced more rain showers over Australia.[56] In Cairns, Queensland, several roads were closed and trees were uprooted by strong winds associated with Jasmine.[57] In addition, power lines that were knocked down in the city's northern suburbs caused power outages for affected areas.[58]

Tropical Low 13U (Hilwa)

Tropical low (Australian scale)
Tropical storm (SSHWS)
150px 150px
Duration 5 February – 14 February (Exited basin)
Peak intensity 65 km/h (40 mph) (1-min)  1000 hPa (mbar)

On 5 February, TCWC Perth reported within their tropical weather outlooks that a tropical low was developing near 12°S 95°E, 200 km (120 mi) to the west of the West Island of the Cocos (Keeling) Islands. Over the next few days, TCWC Perth continued to monitor the storm, as it slowly moved westward. TCWC Perth predicted it would move west of 90°E without developing into a Tropical Cyclone. On 14 February, JTWC classified the storm as Tropical Cyclone 13S, as the storm moved out of the BoM's area of responsibility, and into the South-West Indian Ocean basin.

Tropical Cyclone Koji–Joni

Category 2 tropical cyclone (Australian scale)
Tropical storm (SSHWS)
150px 150px
Duration 5 March – 8 March (out of basin)
Peak intensity 95 km/h (60 mph) (10-min)  986 hPa (mbar)

On 6 March, an area of thunderstorms that TCWC Perth had been watching since 3 March,[59] became a tropical low.[60] Later on the same day, the BoM designated the storm as Tropical Low 15U while the JTWC designated the storm as Tropical Cyclone 16S. On the morning of 8 March, the low strengthened into a Category 1 tropical cyclone, assigning the name Koji.[61] However, a few hours later, Koji moved west of 90°E and was renamed Joni by the Mauritius Meteorological Service. Despite this, the combined name Koji–Joni was now used on advisories issued on the storm, instead of a "single" name. This would be the last system to be renamed, with Cyclone Bruce in 2013 being the first system to retain its name when it moved west of 90°E

Severe Tropical Cyclone Lua

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Main article: Cyclone Lua
Category 4 severe tropical cyclone (Australian scale)
Category 2 tropical cyclone (SSHWS)
150px 150px
Duration 9 March – 18 March
Peak intensity 165 km/h (105 mph) (10-min)  930 hPa (mbar)

On 8 March, a low-pressure area developed well off the coast of Pilbara. On 9 March, TCWC Perth noted the low had become a tropical low, and then assigned the identification 16U. On 13 March, both the BoM and the JTWC upgraded the system to a category 1 tropical cyclone and named it Lua. On 14 March, Lua intensified into a category 2 tropical cyclone as it began moving westwards away from Western Australia. Lua became a category 3 severe tropical cyclone on 16 March. Lua intensified into a category 4 severe tropical cyclone early on 17 March, and it made landfall near Pardoo later. Early on 18 March, Lua weakened below tropical cyclone intensity. The renmants of the storm dissipated later on that day, after moving deeper into Western Australia.

Lua is so far the strongest cyclone to impact the Australian coast, since Yasi in 2011, and the Pilbara coast, since Laurence in 2009. Lua is also notable for maintaining cyclone strength as far south as Wiluna, making it the closest a cyclone has approached the Goldfields-Esperance region, since Steve in 2000.[62] The city of Kalgoorlie received 59.4 mm of rainfall from the system, its heaviest rainfall in 12 years, while Norseman received 60 mm.[63]

Tropical Low 17U

Tropical low (Australian scale)
150px 150px
Duration 12 March – 22 March
Peak intensity 55 km/h (35 mph) (10-min)  991 hPa (mbar)

On 9 March, an area of low pressure developed to the north of Kimberley.[64] Over the next 3 days, the low moved into the Timor Sea, as the storm slowly intensified. On 12 March, TCWC Darwin reported that the storm had intensified into a tropical low and gave it the identification 17U.[65] As the storm approached the northern coast of Western Australia, it continued to intensify slowly. On 14 March, Tropical Low 17U slowly began to weaken as the storm made landfall on the northeastern border of Western Australia. Several hours later, 17U made a second landfall over the northwestern border of the Northern Territory. Afterwards, TCWC Darwin issued their last bulletin on the storm as it degenerated into a weak low.[66] During the next several hours, 17U continued moving eastwards deep into the Northern Territory while maintaining its intensity. However, TCWC Darwin continued to track 17U on their 3-Day Outlook, until the storm entered TCWC Brisbane's area of responsibility, on 16 March. Late on 15 March, 17U crossed over into Northern Queensland with the northern part of the storm emerging into the southern part of the Gulf of Carpentaria. Soon afterwards, 17U began to reintensify. Late on 17 March, 17U began to stall in the southeastern Gulf of Carpentaria. Late on 18 March, TWCW Brisbane issued their last asvisory on the storm, as it was not expected to become a tropical cyclone, at this point. However, the agency continued to track the storm on their outlook, until the storm's dissipation. Late on 19 March, Tropical Low 17U began moving southward, deeper into Queensland. Early on 20 March, wind shear began weakening the storm, as it turned eastward. Late on 21 March, 17U began emerging off the eastern coast of Queensland, as it was drawn towards a powerful extratropical cyclone, to the east. By 22 March, the extratropical storm had absorbed Tropical Low 17U, and thus the storm was dropped from TCWC Brisbane's outlook.

Tropical Low 18U (Daphne)

Tropical low (Australian scale)
150px 150px
Duration 29 March – 31 March (Exited basin)
Peak intensity Winds unknown 

Tropical Low 19U

Tropical low (Australian scale)
150px 150px
Duration 16 April – 23 April
Peak intensity Winds unknown  1006 hPa (mbar)

Tropical Depression 19S

Tropical depression (Australian scale)
Tropical depression (SSHWS)
150px 150px
Duration 7 May – 14 May
Peak intensity 55 km/h (35 mph) (10-min)  996 hPa (mbar)

On 5 May, the JTWC reported that a tropical disturbance had developed within the Banda Sea, about 425 km (265 mi) to the northeast of Dili, on Timor Island.[67] On 7 May, TCWC Jakarta and the JTWC reported that the disturbance strengthened into a tropical depression, off the Indonesian east coast, and gave the storm the identifier 19S. Soon afterwards, the storm reached its peak intensity, with a central low pressure of 996 mbars. Late on 7 May, vertical wind shear from the north caused the system's northern convection to dissipate, as the storm turned to the southeast, prompting the JTWC to issue their last advisory on the system. However, on 8 May, the wind shear weakened, and the system regained its convection, as it began to reorganize. Later on the same day, 19S turned to the south-southwest and narrowly passed in between a few Indonesia islands. On 10 May, 19S turned to the southwest, as it approached Timor Island. On 11 May, Tropical Depression 19S turned westward, as it slightly organized. Early on 11 May, Tropical Depression 19S impacted southwestern Timor Island and stalled there for 2 days, while beginning to weaken. On 12 May, Tropical Depression 19S began to weaken more rapidly, as it turned to the northwest. Early on 14 May, Tropical Depression 19S passed to the east of Sumba and impacted Flores, as the storm continued to move northwestwards. Later on the same day, TCWC Jakarta and the BoM both issued their last advisories on Tropical Depression 19S, as the storm dissipated just north of Flores.

Tropical Low 20U

Tropical low (Australian scale)
Tropical storm (SSHWS)
150px 150px
Duration 29 June – 1 July
Peak intensity 45 km/h (30 mph) (10-min)  993 hPa (mbar)

This system was one of the few storms to form out of season.

Other systems

On 26 December, TCWC Perth reported that a tropical low had developed near the Western boundary of the region, located over in moderate vertical wind shear.[68][69] The tropical low slowly moved in a westward direction and the JTWC issued a TCFA;[70] although TCWC Perth issued its final advisory on the tropical low on 28 December.[71] On 5 January, TCWC Darwin had spotted a weak tropical low, formed from the monsoon trough over to the north of Timor, however this was the only known advisory for that system.[72] Two tropical lows also developed during January, but those storms remained extremely weak. On 3 March, TCWC Brisbane had reported a slow-moving low over in the central Coral Sea.[73] The low lingered for a few days and on 6 March, the JTWC upgraded it to a medium chance of becoming a tropical cyclone, and was reported that the low was having some subtropical characteristics.[74] TCWC Brisbane made its final advisory on the low on 7 March, as it became a remnant low.[75]

Season effects

Name Dates active Peak classification Sustained
wind speeds		 Pressure Land areas affected Damages
(AUD)		 Damages
(USD)		 Deaths Refs
Alenga 3 – 11 December Category 3 severe tropical cyclone 150 km/h (90 mph) 968 hPa (28.59 inHg) None None None None [11]
Fina 18 – 23 December Tropical low 55 km/h (35 mph) 994 hPa (29.35 inHg) Papua New Guinea None None None
03U (Benilde) 21 – 28 December Tropical low Not Specified Not Specified None None None None
Grant 21 December – 2 January Category 2 tropical cyclone 100 km/h (65 mph) 978 hPa (28.87 inHg) Northern Territory Minor Minor None
05U 26 – 28 December Tropical low Not Specified Not Specified None None None None
06U 5 January Tropical low Not Specified Not Specified Timor None None None
Heidi 9 – 13 January Category 3 severe tropical cyclone 120 km/h (75 mph) 975 hPa (28.79 inHg) Western Australia Minor Minor None
08U 13 January Tropical low Not Specified Not Specified None None None None
09U 21 January Tropical low Not Specified Not Specified None None None None
10U 22 – 29 January Tropical low 55 km/h (35 mph) 993 hPa (29.34 inHg) Northern Territory, Queensland Minor Minor None
Iggy 22 January – 3 February Category 2 tropical cyclone 100 km/h (65 mph) 970 hPa (28.66 inHg) Western Australia Unknown Unknown 16
Jasmine 1 – 6 February Category 2 tropical cyclone 100 km/h (65 mph) 979 hPa (28.94 inHg) Northern Territory, Queensland Minor Minor None
13U (Hilwa) 5 – 14 February Tropical low Not Specified 1000 hPa (29.53 inHg) Christmas Island, Cocos Islands None None None
14U 3 – 7 March Tropical low Not specified 1000 hPa (29.53 inHg) Western Australia None None None
Koji-Joni 5 – 8 March Category 2 tropical cyclone 95 km/h (60 mph) 986 hPa (29.12 inHg) None None None None
Lua 9 – 18 March Category 4 severe tropical cyclone 165 km/h (105 mph) 930 hPa (27.46 inHg) Western Australia $298 million $230 million None [76][77]
17U 12 – 22 March Tropical low 55 km/h (35 mph) 993 hPa (29.32 inHg) Western Australia, Northern Territory, Queensland None None None
18U (Daphne) 29 – 31 March Tropical low Not specified Not specified None None None None
19U 16 – 25 April Tropical low Not Specified 1005 hPa (29.68 inHg) Papua New Guinea, Northern Territory, Queensland, Indonesia, East Timor None None None
19S 7 – 14 May Tropical depression 55 km/h (35 mph) 996 hPa (29.41 inHg) Indonesia, East Timor None None None
20U 29 June – 1 July Tropical low 45 km/h (30 mph) 993 hPa (29.32 inHg) Papua New Guinea None None None
Season Aggregates
21 systems 3 December – 1 July 165 km/h (105 mph) 930 hPa (27.46 inHg) $298 million $230 million 16


See also

References

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  22. http://www.weatherzone.com.au/news/top-end-communities-feeling-grants-fury/19735
  23. http://www.weatherzone.com.au/news/nervous-wait-as-nt-cyclone-picks-its-path/19727
  24. Lua error in package.lua at line 80: module 'strict' not found.
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  30. 30.0 30.1 Lua error in package.lua at line 80: module 'strict' not found.
  31. Lua error in package.lua at line 80: module 'strict' not found.
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  35. Lua error in package.lua at line 80: module 'strict' not found.
  36. http://www.weatherzone.com.au/news/clean-up-begins-in-the-wake-of-cyclone-heidi/19971
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  45. Lua error in package.lua at line 80: module 'strict' not found.
  46. Lua error in package.lua at line 80: module 'strict' not found.
  47. Lua error in package.lua at line 80: module 'strict' not found.
  48. Lua error in package.lua at line 80: module 'strict' not found.
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  50. Lua error in package.lua at line 80: module 'strict' not found.
  51. Lua error in package.lua at line 80: module 'strict' not found.
  52. Lua error in package.lua at line 80: module 'strict' not found.
  53. Lua error in package.lua at line 80: module 'strict' not found.
  54. Lua error in package.lua at line 80: module 'strict' not found.
  55. Lua error in package.lua at line 80: module 'strict' not found.
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  57. Lua error in package.lua at line 80: module 'strict' not found.
  58. Lua error in package.lua at line 80: module 'strict' not found.
  59. http://www.webcitation.org/65wE59Fnt
  60. http://www.webcitation.org/65xPbr4tY
  61. Lua error in package.lua at line 80: module 'strict' not found.
  62. Lua error in package.lua at line 80: module 'strict' not found.
  63. Lua error in package.lua at line 80: module 'strict' not found.
  64. http://www.webcitation.org/665rDqzpR
  65. http://www.webcitation.org/667VjnyO3
  66. http://www.webcitation.org/669c4Ozlm
  67. Lua error in package.lua at line 80: module 'strict' not found.
  68. Lua error in package.lua at line 80: module 'strict' not found.
  69. http://www.webcitation.org/64E24XFJu
  70. http://www.webcitation.org/64GWI91PL
  71. Lua error in package.lua at line 80: module 'strict' not found.
  72. Lua error in package.lua at line 80: module 'strict' not found.
  73. Lua error in package.lua at line 80: module 'strict' not found.
  74. http://www.webcitation.org/65xPfEiHw
  75. http://www.webcitation.org/65yy25VU7
  76. Lua error in package.lua at line 80: module 'strict' not found.
  77. Lua error in package.lua at line 80: module 'strict' not found.

External links

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