Sustainability at centre of British polar science strategy / Photo: © AFP
RBGPF
0.1000
The Fort Worth Press - Sustainability at centre of British polar science strategy
USD
-
AED 3.672498
AFN 63.999978
ALL 83.571528
AMD 379.306739
ANG 1.790083
AOA 917.000543
ARS 1394.5488
AUD 1.42107
AWG 1.8
AZN 1.702826
BAM 1.70403
BBD 2.026631
BDT 123.441516
BGN 1.709309
BHD 0.377535
BIF 2983.464413
BMD 1
BND 1.284852
BOB 6.95265
BRL 5.249899
BSD 1.006257
BTN 93.307018
BWP 13.64595
BYN 3.067036
BYR 19600
BZD 2.023756
CAD 1.37275
CDF 2269.999671
CHF 0.792795
CLF 0.023189
CLP 915.63033
CNY 6.87305
CNH 6.902925
COP 3708.35
CRC 469.967975
CUC 1
CUP 26.5
CVE 96.081456
CZK 21.329798
DJF 179.186419
DKK 6.51722
DOP 60.835276
DZD 132.611748
EGP 52.238599
ERN 15
ETB 157.116838
EUR 0.87214
FJD 2.218798
FKP 0.749449
GBP 0.753801
GEL 2.71498
GGP 0.749449
GHS 10.968788
GIP 0.749449
GMD 73.99993
GNF 8818.979979
GTQ 7.707255
GYD 210.505219
HKD 7.83798
HNL 26.6321
HRK 6.568969
HTG 131.875123
HUF 343.11898
IDR 16996
ILS 3.114899
IMP 0.749449
INR 93.36525
IQD 1318.032101
IRR 1314999.999943
ISK 124.89907
JEP 0.749449
JMD 157.992201
JOD 0.709053
JPY 159.738969
KES 129.602799
KGS 87.449671
KHR 4029.54184
KMF 427.999977
KPW 899.9784
KRW 1500.204982
KWD 0.30682
KYD 0.838475
KZT 485.403559
LAK 21591.404221
LBP 90120.825254
LKR 313.313697
LRD 184.128893
LSL 16.795929
LTL 2.95274
LVL 0.60489
LYD 6.420803
MAD 9.415922
MDL 17.543921
MGA 4190.776631
MKD 53.767521
MMK 2100.10344
MNT 3571.101739
MOP 8.123072
MRU 40.161217
MUR 46.510185
MVR 15.460116
MWK 1744.806191
MXN 17.81945
MYR 3.937986
MZN 63.899385
NAD 16.795929
NGN 1363.679914
NIO 37.027516
NOK 9.593355
NPR 149.303937
NZD 1.71947
OMR 0.384501
PAB 1.006169
PEN 3.436114
PGK 4.341518
PHP 60.079501
PKR 281.091833
PLN 3.728215
PYG 6503.590351
QAR 3.658789
RON 4.4412
RSD 102.446978
RUB 83.875022
RWF 1468.813316
SAR 3.754759
SBD 8.04524
SCR 14.496822
SDG 601.000264
SEK 9.409825
SGD 1.283335
SHP 0.750259
SLE 24.650018
SLL 20969.510825
SOS 575.063724
SRD 37.374991
STD 20697.981008
STN 21.350297
SVC 8.803744
SYP 110.58576
SZL 16.800579
THB 32.782992
TJS 9.62383
TMT 3.5
TND 2.960823
TOP 2.40776
TRY 44.31915
TTD 6.820677
TWD 32.0139
TZS 2601.22963
UAH 44.250993
UGX 3785.225075
UYU 40.745194
UZS 12269.740855
VES 450.94284
VND 26315
VUV 119.592862
WST 2.733704
XAF 571.627633
XAG 0.013408
XAU 0.000207
XCD 2.70255
XCG 1.813334
XDR 0.710924
XOF 571.630124
XPF 103.919416
YER 238.575013
ZAR 16.989715
ZMK 9001.167862
ZMW 19.677217
ZWL 321.999592
- Energy prices surge, stocks sink amid rising energy shock fears
- Iran causes 'extensive' damage to Qatar gas hub, sparks Trump warning
- Baby monkey Punch acclimatising, making new friends at Japan zoo
- Labubu creators hope for monster film hit in Sony co-production
- Crude prices surge, stocks sink amid rising energy shock fears
- Kings of K-pop: What to know about BTS's comeback
- Patching the wounds of Kinshasa's street children
- Thailand's Anutin: Millionaire PM with a populist approach
- Thailand's new parliament elects Anutin as PM
- In Seoul square of protest and history, BTS fans welcome grand comeback
Sustainability at centre of British polar science strategy
With research stations shifting to renewable energy and artificial intelligence mapping out fuel-efficient marine routes, the British Antarctic Survey is putting sustainability at the heart of its new 10-year plan.
"The main target for our strategy is really focused on climate change because the polar regions are the regions on Earth which are changing most drastically," BAS director Jane Francis said, adding that these changes are "affecting the whole planet".
"What we're trying to do is plan the future of our science more now than we used to, because I think it's really so urgent that we can understand how our climate is changing. We need to support the relevant people in making good decisions about renewable energy, about how to save carbon, and how to live in better balance with our planet," she told AFP.
At the BAS headquarters in Cambridge, eastern England, AFP saw some of the cutting-edge technology used by scientists studying the polar regions.
Autonomous underwater vehicles are used to collect data from deep within the icy waters of the Southern Ocean, which encircles the Antarctic and acts as a carbon sink, absorbing heat and carbon from the atmosphere.
From the sky, drones and satellite technology help monitor and count animal populations in remote or inaccessible parts of the polar regions.
- Ice core study -
To gather information about atmospheric conditions in the past, scientists are drilling into ice sheets and glaciers to retrieve ice cores, some containing ice that is hundreds of thousands of years old.
The ice is cut inside a special cold room at the BAS labs where the temperature is kept at -25 degrees Celsius (-13 degrees Fahrenheit).
The air bubbles trapped inside are extracted to measure the concentration of greenhouse gases, such as carbon dioxide and methane.
In the field, the BAS currently operates five research stations in the Antarctic, one of them only during the southern hemisphere summer.
The stations are serviced by a fleet of vehicles, ranging from snowmobiles to Sno-Cats and tractors, that make their way through the workshops at BAS headquarters before being deployed.
The kit is modified to ensure it's "fit for purpose when it lands on the ice", for example by installing pre-heating systems that will help the engines start in freezing temperatures, BAS head of vehicles engineering Ben Norrish said.
Some snowmobiles are equipped with vehicle-tracking devices that have a distress button to request assistance from the station but also keep a record of refuelling stops and other activity while out in the field.
It gives BAS "some kind of carbon accounting to see where we've gone during any given season," Norrish added.
- Net-zero targets -
Reducing carbon emissions is part of the BAS's wider sustainability strategy with the aim to be fully decarbonised across its operations by 2040, said Net Zero transition lead Nopi Exizidou.
"For our research stations, we are investing a lot in renewable energy technology," Exizidou said, adding that BAS aims to decarbonise its polar stations within the next seven years.
The Bird Island station, off the northwest tip of South Georgia, west of the Falklands, is using a solar energy system and battery storage that is expected to reduce fuel use by 50 percent.
King Edward Point station, midway on South Georgia, has a hydropower plant, which meets 80 percent of energy demand in heating and electricity.
At Rothera, the largest British Antarctic research station located on Adelaide Island off the west coast of Antarctica, the new two-storey energy-efficient Discovery Building is set to replace several old buildings.
BAS also has a team of engineers developing an artificial intelligence and machine learning toolkit that will help plan marine routes and run research ships, such as the £200 million RRS Sir David Attenborough, more efficiently.
"They are developing tools that will sit alongside the master of the ship and will help him take more informed decisions on how to go from A to B," said Exizidou.
"We are developing, as we say, the Google maps of the Southern Ocean."
BAS director Francis said the changing technology that researchers will be using in the coming years is "really revolutionary now".
"We don't need to take the ship so far, we don't need to take the aircraft using fuel, we can send out our drones, we can send out our marine robots.
"And it means that we can collect data, so much more data, faster and do much better science."
G.George--TFWP
