Australian bushfires may have helped trigger La Nina / Photo: © AFP
CMSC
0.0500
The China Mail - Australian bushfires may have helped trigger La Nina
USD
-
AED 3.673042
AFN 63.503991
ALL 82.403989
AMD 368.150403
ANG 1.790403
AOA 918.000367
ARS 1465.449815
AUD 1.427684
AWG 1.8025
AZN 1.70397
BAM 1.705709
BBD 2.013483
BDT 122.708482
BGN 1.69088
BHD 0.37702
BIF 2985
BMD 1
BND 1.290663
BOB 6.90816
BRL 5.152304
BSD 0.999721
BTN 94.239742
BWP 13.585663
BYN 2.777729
BYR 19600
BZD 2.010527
CAD 1.417515
CDF 2280.000362
CHF 0.807865
CLF 0.02293
CLP 902.460396
CNY 6.769604
CNH 6.78349
COP 3452.68
CRC 453.506829
CUC 1
CUP 26.5
CVE 96.403894
CZK 21.091104
DJF 177.720393
DKK 6.516504
DOP 58.403884
DZD 133.34504
EGP 49.986489
ERN 15
ETB 158.37504
EUR 0.872353
FJD 2.235504
FKP 0.755711
GBP 0.757022
GEL 2.650391
GGP 0.755711
GHS 11.22504
GIP 0.755711
GMD 73.503851
GNF 8775.000355
GTQ 7.625892
GYD 209.119888
HKD 7.83688
HNL 26.68504
HRK 6.573199
HTG 130.583803
HUF 306.820388
IDR 17826.3
ILS 2.96854
IMP 0.755711
INR 94.330504
IQD 1310
IRR 1375000.000352
ISK 125.530386
JEP 0.755711
JMD 157.959917
JOD 0.70904
JPY 161.30504
KES 129.403801
KGS 87.450384
KHR 4010.00035
KMF 429.503794
KPW 900.00035
KRW 1527.650383
KWD 0.30793
KYD 0.833035
KZT 487.855928
LAK 22055.000349
LBP 89550.000349
LKR 333.641485
LRD 182.150382
LSL 16.405039
LTL 2.95274
LVL 0.60489
LYD 6.375039
MAD 9.225039
MDL 17.654036
MGA 4200.000347
MKD 53.732839
MMK 2099.479867
MNT 3580.422334
MOP 8.070939
MRU 40.060379
MUR 47.850378
MVR 15.450378
MWK 1737.000345
MXN 17.34565
MYR 4.137904
MZN 63.910377
NAD 16.403727
NGN 1360.440377
NIO 36.610377
NOK 9.70261
NPR 150.787532
NZD 1.743816
OMR 0.384983
PAB 0.999725
PEN 3.384039
PGK 4.38775
PHP 60.716504
PKR 278.325038
PLN 3.71375
PYG 6138.96617
QAR 3.640504
RON 4.568104
RSD 102.170373
RUB 73.103247
RWF 1464
SAR 3.74824
SBD 8.061424
SCR 13.683262
SDG 600.503676
SEK 9.589325
SGD 1.292404
SHP 0.746601
SLE 24.750371
SLL 20969.503664
SOS 571.503662
SRD 37.402504
STD 20697.981008
STN 21.4
SVC 8.747449
SYP 110.532098
SZL 16.403649
THB 32.890369
TJS 9.272075
TMT 3.5
TND 2.91175
TOP 2.40776
TRY 46.45903
TTD 6.779085
TWD 31.715038
TZS 2630.985038
UAH 44.909735
UGX 3638.520172
UYU 39.96965
UZS 12005.000334
VES 606.63266
VND 26310
VUV 118.132932
WST 2.751795
XAF 572.078806
XAG 0.015428
XAU 0.000241
XCD 2.70255
XCG 1.801643
XDR 0.703697
XOF 565.000332
XPF 104.250363
YER 238.603589
ZAR 16.454065
ZMK 9001.205044
ZMW 17.919703
ZWL 321.999592
- European countries close schools, cancel trains as heatwave set to intensify
- Crude prices drop, most stocks rise on 'positive' US-Iran talks
- 'Progress', say mediators, after Iran-US talks on ending war
- Slimy beans: Japanese natto disgusts and delights the world
- Clark wins despite hecklers but hopes not to be 'heel of the PGA'
- Cape Verde targeting World Cup knockout rounds after Uruguay draw: coach
- Father's Day near-miss at US Open brings Burns to tears
- New coach Rennie names Savea as All Blacks captain
- Scheffler praises Clark's resolve in gutsy US Open triumph
- Yamal kickstarts Spain World Cup bid as Cape Verde stun Uruguay
Australian bushfires may have helped trigger La Nina
Australia's "Black Summer" bushfire catastrophe coughed up so much smoke it may have fuelled the global onset of La Nina in 2020, according to new research published Thursday.
The report, in peer-reviewed journal Science Advances, said the bushfires were "exceptional" in their severity -- pumping out emissions on a scale similar to major volcanic eruptions.
It suggested this led to the formation of vast banks of cloud over the southeastern Pacific Ocean, which soaked up radiation from the sun and led to the cooling of surface water temperatures.
These disruptions could have helped trigger the start of an unusually long La Nina weather pattern, the researchers found.
The "Black Summer" bushfires raged across Australia's eastern seaboard from late 2019 to early 2020, razing swathes of forest, killing millions of animals, and blanketing cities in noxious smoke.
A rare "triple-dip" La Nina shaped global weather patterns between September 2020 and March 2023, whipping up a series of devastating tropical cyclones while exacerbating droughts in other parts of the planet.
Researchers John Fasullo and Nan Rosenbloom, from the National Center for Atmospheric Research in the United States, used modelling to demonstrate how emissions from the bushfires could shift weather patterns.
Bushfire smoke is laden with particles that act as "condensation nuclei", which attract water molecules in the atmosphere, seeding the formation of clouds.
- Atmospheric impact -
This blanket of cloud could cause "widespread surface cooling" in the tropical Pacific Ocean, the modelling showed, which is one of the key ingredients for the start of La Nina.
"The results here suggest a potential connection between this emergence of cool conditions in the eastern Pacific Ocean and the climate response to the Australian wildfire emissions," the paper stated.
Australian climate scientist Tom Mortlock said the bushfires caused clouds to form in a part of the Pacific that plays a crucial role in global climate regulation.
"The southeast corner of the Pacific is a really sensitive and important area for what goes on with El Nino and La Nina," he told AFP.
"Often we see the first signs of an El Nino or La Nina forming in that part of the ocean."
Pete Strutton, from the Australian Centre of Excellence for Climate Extremes, said it demonstrated the sheer scale of the bushfires.
"We've got an event that happened on the land in southeast Australia, which is having an impact on the atmosphere," he told AFP.
A separate team of British researchers last year found that the "Black Summer" bushfires spewed millions of tonnes of emissions into the atmosphere, likely aggravating the Antarctic ozone hole.
Global weather patterns oscillate between cooling La Nina and warming El Nino cycles -- with neutral conditions in between.
W.Cheng--ThChM
