Chlorine is no biggy !

vostok

vostok

Well-Known Member
Impact of Watering Lawns and Gardens with Chlorinated Water

Many water providers add chlorine to drinking water to keep it clean for human consumption. Chlorine prevents bacterial growth in water distribution systems. Many residents use chlorinated water to irrigate their lawn and garden. If chlorine is added to drinking water to kill bacteria, what impact does it have on beneficial soil microorganisms? Does it kill beneficial organisms in compost piles, too? Researchers have found that chlorinated drinking water may kill a number of microorganisms in soil or a compost pile. However, their reproduction rate is so rapid that populations rebound in a short time. Under normal conditions, chlorinated water will not threaten microorganism populations. Microorganisms reproduce rapidly. In one study, researchers continuously applied highly chlorinated water to soil for 126 days. Two days after they stopped, the soil microorganism populations reached pre-treatment levels at all depths of soil.


One reason chlorinate water has little impact is that chlorine binds to soil particle surfaces. This immobilizes chlorine and reduces its ability to kill microorganisms. The organisms in the topmost surface of soil or a compost pile may be affected after irrigation but as the water moves downward little chlorine remains. In one study, researchers found that water chlorinated at 5 parts per million killed organisms only in the top half inch of soil. Organisms deeper than one half inch were thriving.

The amount of chlorine in drinking water is quite low. In order to kill soil microorganisms to 6 inch soil depth, water containing 65 parts per million of chlorine was required in one study. Drinking water usually contains much lower chlorine levels. For example, Colorado Springs Utilities water contains between 0.05 to 0.90 parts per million of chlorine, 70 times below the threshold level.

Colorado State University Extension, Denver Botanic Gardens, and Green Industries of Colorado, Inc.
linl: http://www.ext.colostate.edu/ptlk/ptlk2000.html
 
peter berger

peter berger

Well-Known Member
vostok said:
Impact of Watering Lawns and Gardens with Chlorinated Water

Many water providers add chlorine to drinking water to keep it clean for human consumption. Chlorine prevents bacterial growth in water distribution systems. Many residents use chlorinated water to irrigate their lawn and garden. If chlorine is added to drinking water to kill bacteria, what impact does it have on beneficial soil microorganisms? Does it kill beneficial organisms in compost piles, too? Researchers have found that chlorinated drinking water may kill a number of microorganisms in soil or a compost pile. However, their reproduction rate is so rapid that populations rebound in a short time. Under normal conditions, chlorinated water will not threaten microorganism populations. Microorganisms reproduce rapidly. In one study, researchers continuously applied highly chlorinated water to soil for 126 days. Two days after they stopped, the soil microorganism populations reached pre-treatment levels at all depths of soil.


One reason chlorinate water has little impact is that chlorine binds to soil particle surfaces. This immobilizes chlorine and reduces its ability to kill microorganisms. The organisms in the topmost surface of soil or a compost pile may be affected after irrigation but as the water moves downward little chlorine remains. In one study, researchers found that water chlorinated at 5 parts per million killed organisms only in the top half inch of soil. Organisms deeper than one half inch were thriving.

The amount of chlorine in drinking water is quite low. In order to kill soil microorganisms to 6 inch soil depth, water containing 65 parts per million of chlorine was required in one study. Drinking water usually contains much lower chlorine levels. For example, Colorado Springs Utilities water contains between 0.05 to 0.90 parts per million of chlorine, 70 times below the threshold level.

Colorado State University Extension, Denver Botanic Gardens, and Green Industries of Colorado, Inc.
linl: http://www.ext.colostate.edu/ptlk/ptlk2000.html
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good info bro, i actually picked up the basics of growing by jorge cervantes based on your recommendation, its a good read so far and very informative.
 
testiclees

testiclees

Well-Known Member
hotrodharley said:
Chlorine really is no biggie if everything else in the water is within usable limits.
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any experience with municipal water that has something outside of "usable limits"?
just curious. in my city state ppms are ~200 Ca/Mg mostly.

chloramines are complexed in soil just as easily as chlorine so no unicorn needed for that either.
 
hotrodharley

hotrodharley

Well-Known Member
testiclees said:
any experience with municipal water that has something outside of "usable limits"?
just curious. in my city state ppms are ~200 Ca/Mg mostly.

chloramines are complexed in soil just as easily as chlorine so no unicorn needed for that either.
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pH of 8.0 and a starting EC of 1.4 to 1.5. THAT was when I began to believe in testing and treating.
 
vostok

vostok

Well-Known Member
peter berger said:
good info bro, i actually picked up the basics of growing by jorge cervantes based on your recommendation, its a good read so far and very informative.
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I am a fan of George Van Patton(Cervantas) myself, but he still has to shake off the High Times image that does his cause, no good at all
his books are great for noobie to average stage grower, but like many of his fans I feel, he lacks the depth for the really advanced stuff, hopefully that will come in time,
tho others have surfaced it still don't feel the same
 
hotrodharley

hotrodharley

Well-Known Member
testiclees said:
interesting...no idea of those values for my municipal water
Click to expand...
You can get a free report from the company if it is not posted online. This was in Alaska in this place below several glaciers. Grinding that rock for millenia and sending the dust it makes downstream. Harder than a teenage boy's dick. But the pH was NOT listed in the report. Just TDS etc. So bought test strips and checked it. Around 8 on test strips. That couldn't be right so I brought a pH meter from work (I was a dialysis nurse) and by God it was 8.1 without re-calibrating, 8.0 after calibration.
 
ttystikk

ttystikk

Well-Known Member
vostok said:
Impact of Watering Lawns and Gardens with Chlorinated Water

Many water providers add chlorine to drinking water to keep it clean for human consumption. Chlorine prevents bacterial growth in water distribution systems. Many residents use chlorinated water to irrigate their lawn and garden. If chlorine is added to drinking water to kill bacteria, what impact does it have on beneficial soil microorganisms? Does it kill beneficial organisms in compost piles, too? Researchers have found that chlorinated drinking water may kill a number of microorganisms in soil or a compost pile. However, their reproduction rate is so rapid that populations rebound in a short time. Under normal conditions, chlorinated water will not threaten microorganism populations. Microorganisms reproduce rapidly. In one study, researchers continuously applied highly chlorinated water to soil for 126 days. Two days after they stopped, the soil microorganism populations reached pre-treatment levels at all depths of soil.


One reason chlorinate water has little impact is that chlorine binds to soil particle surfaces. This immobilizes chlorine and reduces its ability to kill microorganisms. The organisms in the topmost surface of soil or a compost pile may be affected after irrigation but as the water moves downward little chlorine remains. In one study, researchers found that water chlorinated at 5 parts per million killed organisms only in the top half inch of soil. Organisms deeper than one half inch were thriving.

The amount of chlorine in drinking water is quite low. In order to kill soil microorganisms to 6 inch soil depth, water containing 65 parts per million of chlorine was required in one study. Drinking water usually contains much lower chlorine levels. For example, Colorado Springs Utilities water contains between 0.05 to 0.90 parts per million of chlorine, 70 times below the threshold level.

Colorado State University Extension, Denver Botanic Gardens, and Green Industries of Colorado, Inc.
linl: http://www.ext.colostate.edu/ptlk/ptlk2000.html
Click to expand...
Go Colorado State, my alma mater!
 
ttystikk

ttystikk

Well-Known Member
I am blessed indeed; the municipal water that comes rushing out of my tap is 7.0, EC 0.05. Most of the year it's even cold!
 
vostok

vostok

Well-Known Member
tangerinegreen555 said:
I was once told by a famous grower/breeder that cannabis NEEDS a trace of Chlorine. Anybody agree with that?
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this is true ...I was there and you were about 10 yo at the time, I'll tell you again

chlorine is used to build muscle fiber in the roots and (vip) at the stomata,

its like a protein is to humans but used in a different way, increasing veggie cells, and 'making' root fibre
 
jacktheknife

jacktheknife

Member
Gentlemen,

I have cloromine in my water supply.
Grown plants seem to do alright with it but clones and seedlings don't like it.
It rained real good and with 4 - 55 gallon barrels under my barn roof,
I caught 200 gallons of rain water. Buying water or hauling it is very expensive however and I am developing the 'rain water' idea with a gutter system...
but what about cloromine...?
Does it build up in the soil so that it is not a good idea to use at all?
If so I'll not use tap water any more but I was wondering if it has any use growing?


Thank you...


Knife...
 
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