Fungi and plants clean up California pollution / Photo: © AFP
SCS
0.0200
The Fort Worth Press - Fungi and plants clean up California pollution
USD
-
AED 3.672504
AFN 66.265317
ALL 82.40468
AMD 381.537936
ANG 1.790403
AOA 917.000367
ARS 1449.250402
AUD 1.508523
AWG 1.8025
AZN 1.70397
BAM 1.670125
BBD 2.014261
BDT 122.309039
BGN 1.670704
BHD 0.377951
BIF 2957.004398
BMD 1
BND 1.292857
BOB 6.910892
BRL 5.541304
BSD 1.000043
BTN 89.607617
BWP 14.066863
BYN 2.939243
BYR 19600
BZD 2.011357
CAD 1.37965
CDF 2558.50392
CHF 0.79556
CLF 0.023213
CLP 910.640396
CNY 7.04095
CNH 7.033604
COP 3808
CRC 499.466291
CUC 1
CUP 26.5
CVE 94.159088
CZK 20.779904
DJF 178.088041
DKK 6.380104
DOP 62.644635
DZD 130.069596
EGP 47.704197
ERN 15
ETB 155.362794
EUR 0.853804
FJD 2.283704
FKP 0.746974
GBP 0.747496
GEL 2.68504
GGP 0.746974
GHS 11.486273
GIP 0.746974
GMD 73.000355
GNF 8741.72751
GTQ 7.663208
GYD 209.231032
HKD 7.78155
HNL 26.346441
HRK 6.434404
HTG 131.121643
HUF 330.190388
IDR 16697
ILS 3.20705
IMP 0.746974
INR 89.57735
IQD 1310.106315
IRR 42100.000352
ISK 125.630386
JEP 0.746974
JMD 160.018787
JOD 0.70904
JPY 157.75804
KES 128.909953
KGS 87.450384
KHR 4013.492165
KMF 420.00035
KPW 899.985447
KRW 1475.760383
KWD 0.30723
KYD 0.83344
KZT 517.535545
LAK 21660.048674
LBP 89556.722599
LKR 309.636651
LRD 177.012083
LSL 16.776824
LTL 2.95274
LVL 0.60489
LYD 5.420776
MAD 9.166901
MDL 16.930959
MGA 4548.055164
MKD 52.559669
MMK 2099.831872
MNT 3551.409668
MOP 8.015542
MRU 40.023056
MUR 46.150378
MVR 15.450378
MWK 1734.170189
MXN 18.033704
MYR 4.077039
MZN 63.903729
NAD 16.776824
NGN 1460.160377
NIO 36.804577
NOK 10.138704
NPR 143.372187
NZD 1.737016
OMR 0.385423
PAB 1.000043
PEN 3.367832
PGK 4.254302
PHP 58.571038
PKR 280.195978
PLN 3.59225
PYG 6709.363392
QAR 3.641038
RON 4.335404
RSD 100.004038
RUB 80.695957
RWF 1456.129115
SAR 3.750651
SBD 8.146749
SCR 15.161607
SDG 601.503676
SEK 9.268304
SGD 1.293304
SHP 0.750259
SLE 24.050371
SLL 20969.503664
SOS 570.513642
SRD 38.441504
STD 20697.981008
STN 20.921395
SVC 8.750267
SYP 11057.107339
SZL 16.774689
THB 31.425038
TJS 9.215661
TMT 3.5
TND 2.927287
TOP 2.40776
TRY 42.746504
TTD 6.787925
TWD 31.518904
TZS 2495.196618
UAH 42.285385
UGX 3577.131634
UYU 39.263908
UZS 12022.543871
VES 282.15965
VND 26312.5
VUV 121.400054
WST 2.789362
XAF 560.144315
XAG 0.014892
XAU 0.000231
XCD 2.70255
XCG 1.8024
XDR 0.69664
XOF 560.144315
XPF 101.840229
YER 238.403589
ZAR 16.77901
ZMK 9001.203584
ZMW 22.626703
ZWL 321.999592
- England 'flat' as Crawley admits Australia a better side
- Australia four wickets from Ashes glory as England cling on
- Beetles block mining of Europe's biggest rare earths deposit
- French culture boss accused of mass drinks spiking to humiliate women
- NBA champions Thunder suffer rare loss to Timberwolves
- Burning effigy, bamboo crafts at once-a-decade Hong Kong festival
- Joshua knocks out Paul to win Netflix boxing bout
- Dogged Hodge ton sees West Indies save follow-on against New Zealand
- England dig in as they chase a record 435 to keep Ashes alive
- Wembanyama 26-point bench cameo takes Spurs to Hawks win
Fungi and plants clean up California pollution
In an industrial wasteland in Los Angeles, Kreigh Hampel is uprooting California buckwheat with a pitchfork to find out how much lead it has absorbed.
The plant's delicate white and pink flowers belie an astonishing cleaning power, which scientists think could be harnessed to get rid of dangerous pollutants -- and even recycle them.
"That's the miracle of life," enthuses 68-year-old Hampel, who is volunteering on the project.
"Plants really can do this work and they know how to do it, they've done it so many times over millions of years," he says.
The experiment is part of a project run by University of California Riverside which has scattered carefully selected plants and fungi on this former industrial site in the hope of getting rid of the heavy metals and petrochemicals that have contaminated the area for decades.
Danielle Stevenson, who is leading the study, says such bioremediation techniques can be much more cost-effective than traditional techniques.
"The conventional method of cleaning up sites is just to dig up all the contaminated soil and to dump it somewhere else," she told AFP.
"That approach doesn't actually solve the problem, right? It just moves it somewhere else." And, she says, it costs a lot of money.
Stevenson's project, which is being carried out on three sites in and around Los Angeles, has a price tag of around $200,000 and so far is showing very promising results.
- Solar-powered vacuum cleaners -
"In three months, we had a 50 percent reduction of the petrochemicals and then in six months, we were getting pretty close (to that level) with some of the metals," she said.
Stevenson, a mycologist by training, has chosen her anti-pollution weapons with care.
Oyster mushrooms have been incorporated into the soil because of their natural role in decomposition: Their underground part, called the mycelium, is sucking up diesel.
"Those same fungi that in nature would eat a dead tree will also recognize diesel oil, for example, as a food source.
"The reason is, it's basically the same thing. A lot of our fossil fuels are just dead stuff that got compressed over long periods of time."
Several California native plants, including the telegraph weed and the California bush sunflower, are particularly good at absorbing heavy metals.
Stevenson thinks of the plants essentially as "solar powered vacuum cleaners: They basically suck up the metals, like lead, into their bodies.
"When we pull out the plants, we've removed the lead from the soil."
The lead and other metals can then be recovered from those plants -- and even reused.
Throughout the United States and the industrialized world, commercial sites that outlive their useful life to the companies that pollute them are often just abandoned, says Stevenson.
The responsibility to put them right falls on poorly funded or ill-equipped local authorities, who struggle to find the money or the expertise.
Historically the problem is worse in working class or ethnic minority neighborhoods, where politicians feel more able to ignore complaints.
In the United States, where the Environmental Protection Agency lists nearly 1,900 problem sites, only a small number of clean-up projects are carried out each year, Stevenson says.
She hopes that a cheaper method will enable more sites to be cleaned up.
- 'The Last of Us' -
Advocates say bioremediation's uses are not limited to fixing former industrial sites. The process can also be used to help clean up the toxic ash left by some wildfires -- an annual problem in fire-prone California.
So why is this technique still so underdeveloped?
"Bioremediation is still considered risky," explains Bill Mohn, professor of microbiology at the University of British Columbia in Canada.
Unlike soil excavation, "it's hard to guarantee that you will systematically reach the level of pollutants that are required.
"Whereas, we know that if you dig up the soil and send it to somebody who will take it if you pay them, then you've solved your problem."
Stevenson, meanwhile, points to unhealthy prejudices about mushrooms -- think of the terrifying fungi that infect the zombies of the HBO smash series "The Last of Us."
"I get asked all the time: 'If you introduce a fungus to clean up a site, is it going to take over, eat our house and take over the world?'" she says.
It won't, she is quick to add.
But that is why it is important to be conducting this kind of experiment in a real-world setting, not just in a laboratory.
"I think once we get more field tests of these methods, people will feel more confident choosing some of these approaches," she says.
L.Coleman--TFWP
