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Organic
Ade
Suck
It Up!
(AKA
Phytoremediation)
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Witch
Hazel
the "easy organic"
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So
you've had your soil tested and you're in trouble.
Somehow, somewhere, chemicals have gotten into your
soil. A burst septic system, a chemical spill, arsenic
treated wood, lead paint, blasting powder from well
digging, or a stump hole has poisoned the soil in your
yard.
And,
here come the experts, telling you the only way to have
a garden you can enjoy is to remove all the soil and
replace it with new. So there goes your garden budget
anyway. Right?
WRONG! Read on...
Welcome to the wonderful world of Phytoremediation (break it down
fight-o-remeedee-ay-shun). Using plants to fix soil is an old, old tactic,
but one that has somehow been lost to the average gardener or farmer. Plants
can clean up pesticides, heavy metals, explosive and oils, among other
things, and keep those contaminants from being washed down into the water
table. The plants can do this by one of three ways. They can store the
chemical in their roots, stems and leaves. They can change the chemicals
into less harmful chemicals within themselves. Or they can change them into
gases, which are exhaled and reduced to harmless trace amounts when combined
with the air. Also, if you have inoculated your plants before planting them,
the fungi that live on and near the roots of the plants can break down the
chemicals, or just concentrate them and stick them to the roots of the
plants, to be pulled from the soil later.
The
benefits to phytoremediation are obvious. It is letting nature take care of
our slip-ups. In some cases the absorbed materials can be extracted from the
plants, reutilizing them so that further mining isn't as necessary. Some of
the down sides are that it takes a little time, and effort on the part of
the property owner. It may appeal to some to just have someone come in and
remove the polluted soil. But that isn't fixing the problem; it is only
moving it from one place to another.
In some areas, the toxic accumulations are a part of the natural flow.
Evaporation of underground water can bring toxic amounts of selenium and
boron, nickel and other materials to the top of dry soils in the form of
salts. Since this is a recurring problem, a cyclic planting of absorptive
plants can be initiated. Every four to ten years a crop of hyper
accumulators could be planted instead of the favored crops, thus loosing one
season of crops, but ensuring the continued viability of the soil for future
plantings.
When trees are used for phytoremediation, they are for the most part left in
place to stabilize the contaminants and to change them into harmless gasses
but if you have a use for a specific area, annuals and herbaceous perennials
might be your way to go. The previous seasons growth can be cut and disposed
of properly (not in a compost pile) to disperse the contaminant. There are
specific plants for specific contaminants, and I hope to hit a few here for
you, and show you what to look for. Remember, after a season of
phytoremediation, get your soil tested again, to see if you need to kick it
up a notch, or if the soil will be safe to work with.
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The
Best Suckers for...
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Seeds
Available From
Thompson and Morgan |
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Brake Fern sucks up
arsenic
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Arsenic:
One of the best hyper accumulators of arsenic in the soil and in
ground water (from treated wood) is the pteris vittata, a Brake fern
that sucks arsenic from the soil at an amazing rate. This fern can
also be grown hydroponically to cleanse water sources. The fronds
should be cut in the fall and disposed of safely. Brassicas,
particularly Indian mustard, are also hyper accumulators of arsenic
and other metals, if you need a sunny patch cleared up.
Leachate:
The nasty liquid that percolates from landfill areas can be safely
contained and controlled by rapidly growing poplars. These poplars
then exhale them as gasses into the air, and transform them. They are
short lived, however, so it is advisable to plant longer living trees,
like mulberry and Osage orange, amongst them. They are capable of
breaking down some of the most toxic and persistent poisons, including
PCB's. Got a new house on an old landfill? Start planting. Benzene:
Alfalfa grass and poplar trees can remove not only benzene compounds,
but also ethyl benzene and other chemical compounds from the soil.
Again, cut the grass and dispose of it the first year.
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Sunflower and Cabbage
suck up metals
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Heavy
Metals: Plants can't do much about the music, but the actual
metals in your soil, like zinc and cadmium can be absorbed by Alpine
Pennycress and cabbage. For those of you who are thinking that these
beneficial plants are looking distressingly like a lot of weeds, take
heart. The Pelargonium Geranium is also a hyper accumulator of heavy
metals, and are excellent at treating CCA (chromium, copper, arsenic
treated woods…you know…your deck?), and lead in soils, including
the lead that is in gasoline. Sunflowers are also a heavy metal
accumulator, so you can have your cheery garden while healing the
soil.
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Sunflower sucks up
radiation
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Radiation:
Okay, so this isn't your average problem with soil in a garden. But
folks who live in the desert near where testing has occurred can find
that their soil has suffered fallout and contains radioactive
materials.
Pigweed (amaranthus retroflexum), though it may seem to be
just another noxious weed, can remove radioactive cesium from the
soil. In a heavily contaminated area, pigweed can remove three percent
of the cesium in three months. In a lightly contaminated garden, it
could clean it up in one or two growing seasons, planted two or three
times a season. And here is where sunflowers shine again, as lovely
plants with a purpose. They are used to absorb cesium and strontium
from soils.
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Alfalfa sucks up
petroleum
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Petroleum:
Picture this…your husband or teenage son has been working on your
car, changing the oil. The pan is left in the way a little to long,
and WHOOPS! Into the garden or yard it goes. Not a good scene. But
never fear! Fescue and Bermuda grass, clover and alfalfa can stabilize
that oil and keep it from killing off the garden. The microbes used to
inoculate the clover and alfalfa are better at stabilizing it faster
than the other grasses, but either will work. One season should do the
trick, and you can go back to planting there next year.
Explosives:
Okay, well, again, this is not a problem for most folks, unless, like
my family, they have some hicks in the woodpile that went fishing with
dynamite when they were young, drunk and stupid. Or maybe you have a
kid who is into the whole evil genius scene. In any case, if you have
TNT, RDX or any of the other explosives chemicals in your property,
parrot feather, reed canary grass, water star grass, and elodea could
be your answer. Nitrates:
This is not generally a problem in soils, but in water, nitrates can
build up and cause problems. Nature has given us the right idea where
water is concerned. She filters her waters through bogs and marshes,
slowly easing the water through a myriad of roots, leaves and stems to
make sure that what flows into the sea can be assimilated by the life
already there. Plants such as bulrushes, water lilies, arrowhead,
cattail, sweet flag, and water hyacinths can absorb the extra nitrates
along with moderate amounts of heavy metals and even chlorine to
cleanse the water and make it safe for wildlife and humans alike. |
| Pollutant |
Best
Plants
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Heavy
metals
Aromatics
(e.g. benzene, toluene, zylene)
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Alpine
Pennycress, Barley, Cabbage, Crucifer, Dandelions, grass (Rye,
Fescue, Bermuda, Sorghum), Hop, Indian Mustard, Nettle,
Pelargonium, phreatophyte trees (poplar, willow, cottonwood, aspen),
Rape Seed, Stone cress (Thlaspi caerulescens), Sunflowers |
Wood
Preservatives
(e.g. arsenic, PAH) |
Brake
Fern, Indian Mustard, fibrous rooted grass (Rye, Fescue, Bermuda,
Sorghum), phreatophyte trees (poplar, willow, cottonwood, aspen) |
Leachate
(e.g. PCBs, pesticides, herbicides) |
grass
(Rye, Fescue, Bermuda, Sorghum), legume (Clover, Alfalfa, Cowpea)
Mulberry, Osage Orange, phreatophyte trees (poplar, willow,
cottonwood, aspen), |
| Radiation |
Indian
Mustard, Pigweed, Sunflower |
| Petroleum |
Alfalfa,
grass (Rye, Fescue, Bermuda, Sorghum), Hybrid Poplar, Indian
Mustard, Juniper |
| Explosives |
elodea,
grass (Rye, Fescue, Bermuda, Sorghum), legume (Clover, Alfalfa,
Cowpea), parrot feather, phreatophyte trees (poplar, willow,
cottonwood, aspen), reed canary grass, water star grass |
Nitrates
(agricultural runoff) |
grass
(Rye, Fescue, Bermuda, Sorghum), legume (Clover, Alfalfa, Cowpea),
Indian Mustard, phreatophyte trees (poplar, willow, cottonwood,
aspen),
Bullrush,
Cattail, Coontail, Pondweed, Arrowroot, Duckweed; Algae, Stonewort,
Parrot Feather, Eurasian Water Milfoil, Hydrilla, Sweet Flag, Water
Hyacinths, Water Lilies |
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