Fungi and plants clean up California pollution / Photo: © AFP
RIO
2.0500
The Fort Worth Press - Fungi and plants clean up California pollution
USD
-
AED 3.672499
AFN 64.501308
ALL 81.091764
AMD 369.248031
ANG 1.789884
AOA 917.999814
ARS 1395.523747
AUD 1.382485
AWG 1.8
AZN 1.698555
BAM 1.662466
BBD 2.013854
BDT 122.689218
BGN 1.668102
BHD 0.377545
BIF 2976.339735
BMD 1
BND 1.267973
BOB 6.9098
BRL 4.914103
BSD 0.999873
BTN 94.420977
BWP 13.425192
BYN 2.825886
BYR 19600
BZD 2.010964
CAD 1.36575
CDF 2316.000248
CHF 0.778435
CLF 0.022607
CLP 889.770183
CNY 6.80505
CNH 6.80103
COP 3738.9
CRC 459.648974
CUC 1
CUP 26.5
CVE 93.718924
CZK 20.662698
DJF 178.070373
DKK 6.35355
DOP 59.467293
DZD 132.269335
EGP 52.717905
ERN 15
ETB 156.137601
EUR 0.85023
FJD 2.184898
FKP 0.734821
GBP 0.734715
GEL 2.679792
GGP 0.734821
GHS 11.264445
GIP 0.734821
GMD 72.999787
GNF 8773.107815
GTQ 7.634866
GYD 209.223551
HKD 7.82816
HNL 26.583478
HRK 6.404025
HTG 130.919848
HUF 302.820499
IDR 17368.9
ILS 2.90496
IMP 0.734821
INR 94.478103
IQD 1309.963492
IRR 1312900.000029
ISK 122.270146
JEP 0.734821
JMD 157.601928
JOD 0.708974
JPY 156.754504
KES 129.130063
KGS 87.420497
KHR 4012.087263
KMF 419.000313
KPW 899.950939
KRW 1466.68497
KWD 0.30763
KYD 0.833358
KZT 462.122307
LAK 21929.626969
LBP 89547.492658
LKR 321.915771
LRD 183.493491
LSL 16.405102
LTL 2.952741
LVL 0.60489
LYD 6.322723
MAD 9.144703
MDL 17.099822
MGA 4176.618078
MKD 52.401617
MMK 2099.606786
MNT 3578.902576
MOP 8.06268
MRU 39.968719
MUR 46.820195
MVR 15.454972
MWK 1733.612706
MXN 17.23635
MYR 3.920978
MZN 63.900189
NAD 16.405102
NGN 1359.689667
NIO 36.794016
NOK 9.20175
NPR 151.087386
NZD 1.67806
OMR 0.384529
PAB 0.999962
PEN 3.457057
PGK 4.415452
PHP 60.485968
PKR 278.66746
PLN 3.598017
PYG 6107.687731
QAR 3.654753
RON 4.440951
RSD 99.791978
RUB 74.148427
RWF 1465.941884
SAR 3.780624
SBD 8.032258
SCR 14.326153
SDG 600.498337
SEK 9.218875
SGD 1.267885
SHP 0.746601
SLE 24.600677
SLL 20969.496166
SOS 571.467429
SRD 37.43097
STD 20697.981008
STN 20.823594
SVC 8.749309
SYP 110.543945
SZL 16.394307
THB 32.224021
TJS 9.329718
TMT 3.51
TND 2.904513
TOP 2.40776
TRY 45.36475
TTD 6.776593
TWD 31.394497
TZS 2604.644023
UAH 43.92104
UGX 3746.547108
UYU 39.879308
UZS 12128.681314
VES 496.20906
VND 26308
VUV 118.026144
WST 2.704092
XAF 557.575577
XAG 0.012389
XAU 0.000212
XCD 2.70255
XCG 1.802048
XDR 0.695511
XOF 557.525817
XPF 101.364158
YER 238.601522
ZAR 16.42005
ZMK 9001.201083
ZMW 19.037864
ZWL 321.999592
- Slot says final flourish would not mask Liverpool failure
- US adds 115,000 jobs in April, beating expectations
- Negative views of US jump among Europeans: polls
- Russia, Ukraine trade attacks ahead of Kremlin's WWII celebrations
- Rubio says expecting Iran response to US proposal on Friday
- Man City must put pressure on Arsenal, says Guardiola
- Canada captain Davies' World Cup preparations hit by fresh injury
- Poland signs 44-bn-euro EU defence loan deal to modernise military
- Swiatek battles into Italian Open third round
- South Africa top court revives impeachment inquiry against president
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
