Bacteria in Water - What Happens If You Drink Bacteria Water?

Contaminated Drinking Water: An Overview

Coliform Bacteria, Fecal Contamination, Pathogenic Bacteria, Contaminated Drinking Water

Most often than not, people are oblivious to the millions of imperceptible and microscopic organisms living and thriving in the water they drink.

When bacteria found in drinking water result in health problems, it becomes a serious call for concern. After all, safe and clean water is a basic human need —now, is it?

The transmission of sickness through drinking water is one of the essential worries for a safe water supply. Human diseases like typhoid, dysentery (or loose bowels), cholera, hepatitis, and giardiasis have been heavily associated with contaminated drinking water caused by human waste.

Bacteria of the most prominent concern in drinking water are those that begin from the stomach of warm-blooded animals. Sources include wildlife, pets, and livestock on ranches, farms, or in feedlots.

For example, an old well with a broken casing can permit toxins into the drinking water supply. Pollution issues emerge from inappropriately planned, fizzling, or over-burden wastewater treatment systems, including septic systems from private homes and releasing sanitary sewer pipes.

Human sources are a specific concern as they incorporate microbes of human origin and may incorporate human pathogens. In another example, floodwater regularly contains high levels of bacteria from various sources. Surface waters regularly contain bacteria.

Groundwater ought to be free from those microbes that emerge from animal sources. In order to do this, a legitimate and properly designed plan and development should be done to safeguard drinking water sources from being contaminated by surface waters.

Bacteria levels for livestock change according to water use. As such, grown-up animals are more lenient toward microbes than youthful animals. Water for cleaning and disinfecting should be of very good quality to forestall diseases and tainting food items.

Take note of the following bacteria guidelines for livestock water supplies:

Adult animals
1,000 fecal coliforms per 100 milliliter
Young animals
1 fecal coliform per 100 milliliter
Dairy wash water
1 coliform per 100 milliliter

1.1 Testing Drinking Water For Bacteria

Public water supplies are directed by the Environmental Protection Agency (EPA). The EPA obliges all open water providers to routinely test for bacterial contamination and deliver only water that satisfies the EPA standard for total coliform bacteria in drinking water, which is zero total coliforms per one hundred (100) milliliters of water.

Testing for all potential pathogens would be not too practical and rather costly. Still, it is necessary because total coliform is utilized as a sign of water quality as to microbes since it is regularly tracked down in the environment, responds in the natural environment and to treatment in a way like numerous microorganisms, and is generally simple and cheap to test for.

Be that as it may, a water test testing positive for complete coliform microbes isn't really dangerous for utilization. A water sample testing positive for fecal coliform bacteria shows recent fecal contamination, a sign there is a risk that pathogens are present.

As mentioned above, testing a water supply for disease-causing organisms is very costly. This is because handling and culturing disease organisms requires extraordinary preparation and equipment.

Likewise, on the off chance that the water supply is being debased by human wastes, but the disease organism is absent the day the sample is taken, the risk of future exposure to the disease is still present.

As an alternative, water supplies are tried as an indicator of human or animal waste — coliform bacteria.

On an important note, you should know that coliforms don't really cause infection. They are, be that as it may, consistently present in the stomach-related and digestive systems of humans and animals and can be tracked down in their wastes. Coliforms are likewise present in the soil, dirt, and plant material.

If by chance, a water supply is found to contain coliform microorganisms, it could be tainted by sewage or manure, and there is a risk of exposure to waterborne disease. The test for coliform microscopic organisms is generally cheap (typically ranging around $6 to $15 per test) and simple to perform.

Lastly, to decide if the bacteria present is from human or animal waste, extra tests should be performed. Coliform bacteria could additionally emerge out of normal sources like soil or decaying vegetation. Some coliform bacteria are just present in fecal material; these are called fecal coliforms.

Moreover, these microorganisms demonstrate the presence of human or animal waste. On the other hand, bacterial testing for private water supplies might be given by certified commercial, city/area health offices, and state health division laboratories.

Private water supply users can have water tried by a state-confirmed laboratory. Contingent on the technique, water test results might be accounted for as "present or absent" or as a number to show whether microorganisms were detected at all.

1.2 Collecting and Handling Water Samples

Proper collection and handling of a water sample are basic for a legitimate water test. Sample containers ought to constantly be acquired from the testing laboratory since holders might be uniquely ready for a particular contaminant.

Inspecting and dealing with methods will rely upon the particular water quality concern and ought to be followed cautiously. On the off chance that the water is being dealt with, it could be a prerequisite to test both when the water goes through the treatment equipment.

In bacteria sampling, water samples for bacteria tests should continuously be gathered in a sterile compartment. Take the sample from an inside fixture with the aerator eliminated.

Sanitize by blazing the finish of the tap with a dispensable butane lighter. Run the water for two minutes to clear the water lines and get new water. Try not to contact or debase within the container or cap.

Cautiously open the example compartment and hold the beyond the cap. Fill the holder to the line to permit blending and supplant the top.

After which, refrigerate the sample and transport it to the testing research center somewhere around a day and a half (ideally in a fridge). Numerous labs, including the state Health Department, won't receive bacteria samples on Friday or before a vacation, so really take a look at the lab's timetable schedule.

Furthermore, iron bacteria shape a plain to see sludge within pipes and fixtures. A water test isn't required for recognizable proof. Instead, you should check for ruddy, earthy-colored ooze inside a latrine tank or where water stays for a few days.

1.3 Dealing with Bacterial Contamination in Water

To begin with, don't overreact or panic. Bacterial contamination, no matter how nasty it sounds, is extremely normal. In fact, investigations have discovered that in excess of forty percent (40%) of private water supplies are defiled with coliform bacteria.

Spring water supplies are the most often sullied, with in excess of seventy percent (70%) containing coliform bacteria. On the one hand, further developing the protection of a well or spring from the inflow of surface water is a significant choice to consider in the event that the stockpile is sullied with microorganisms.

It is vital to recall that the groundwater isn't really sullied in these cases; rather, the well is acting to pipe pollutants down into the groundwater.

Moreover, a well-protected well is confirmed by the good packaging reaching out over the outer layer of the ground and the ground inclining away from the well to keep water from gathering around the packaging.

In addition to that, an appropriately safeguarded spring is grown underground, and the water is diverted to a fixed spring box —never should the water be presented to the ground surface.

Keeping the pipes and plumping system clean is a significant aspect of keeping a clean water supply. Any time work is performed on the pipes or pump; the whole water system ought to be thoroughly cleaned with chlorine.

Basically, hauling the pump out of the well, setting it on the grass to chip away at it, and returning it to the well is enough to taint the well with bacteria.

The strategy for cleaning and disinfecting a well or spring with chlorine is called shock chlorination. Centralizations of chlorine going from fifty (50) to two hundred (200) milligrams for each liter are utilized in the shock chlorination process.

This is a hundred (100) to four hundred (400) times how much chlorine is found in city water. The exceptionally chlorinated water is held in the lines for twelve (12) to twenty-four (24) hours before it is flushed out, and the framework is fit to be utilized once more.

Periodical shock chlorination likewise might be successful in decreasing an iron bacteria issue. How much chlorine is expected to shock chlorinate water is set in stone by how much water remains in the well.

The Harmful Bacteria Found in Your Drinking Water

Coliform Bacteria, Disease cuasing organisms

Bacteria are regularly single-celled organisms and are a natural part of water. But before we get in-depth with the seven kinds of bacteria present in water, it is important to first know the two main groups of bacteria found in tap water, such as the following:

Coliform Bacteria

Coliform bacteria is a gathering of microscopic organisms that are normally tracked down in the soil, plants, and the gastrointestinal systems of humans and animals. Not all bacteria in this group are viewed as harmful in the event that they are present in the water supply.

However, a subgroup, fecal coliforms, can cause disease. For instance, drinking water with the bacteria Escherichia coli (E. coli), a fecal coliform, can bring about digestive inflammation. An E. coli disease can cause side effects, for example, cramping, looseness of the bowels, vomiting, and fever.

This disease ordinarily requires treatment with anti-infection agents or antibiotics.

As such, testing is the best way to affirm what sort of bacteria is available and at what levels in the water supply. On the off chance that your water tests positive for coliform bacteria, this might show an issue with your water system, and it is potential for E. coli to develop.

If, by chance, you have a system to treat bacteria, a part of the system should be fixed or regularly maintained. In the event that you don't have a treatment system, you ought to consider getting your water treatment done in order to obliterate all possibly destructive microscopic organisms in it.

Heterotrophic Bacteria

Heterotrophic bacteria are, for the most part, tracked down in all water supplies. These bacteria utilize organic substances in their current circumstance, like sugar, to get by and reproduce.

Drinking water is tested for this kind of microscopic organisms utilizing the heterotrophic plate count. While a higher count of heterotrophic bacteria might demonstrate an environment is ready for the improvement of different sorts of microscopic bacteria, heterotrophic microbes are ordinarily not considered risky.

On the off chance that water testing demonstrates elevated degrees of heterotrophic microorganisms, further testing for different microbes, like E. coli, is practically required too.

In the event that you are worried about heterotrophic microorganisms alone, standard ways to deal with water treatment can lessen or wipe out this kind of bacteria.


1. Escherichia Coli

Escherichia Coli (otherwise called E. Coli) can cause sickness, vomiting, stomach pain, and diarrhea whenever polished off in contaminated water. Side effects ordinarily within one (1) to eight (8) days.

2. Campylobacter jejuni

Drinking water polluted with Campylobacter jejuni can cause infections, side effects of cramping, looseness of the bowels or diarrhea, fever, and agony. Side effects of contamination show up somewhere in the range of (2) two and ten (10) days after openness.

3. Hepatitis A

Hepatitis A is a serious disease and can be present in your drinking water. Side effects incorporate dark urine, jaundice, stomach pain, fever, and exhaustion/fatigue. Hepatitis A has an extended incubation period, and side effects probably won't show up until twenty-eight (28) days after exposure.

4. Giardia Lamblia

Giardia Lamblia is really a parasite that causes the disease giardiasis. Side effects incorporate nausea, spasms/cramps, gas, and looseness of the bowels or diarrhea. The brooding time frame for giardiasis is about fourteen (14) days in total.

5. Salmonella

Salmonella is a typical microbe that causes chills, fever, migraine, loose bowels/diarrhea, and pain. Salmonella debases water and food, and side effects happen in one (1) to three (3) days subsequent to drinking.

6. Legionella Pneumophila

Legionella pneumophila can cause serious bacterial contaminations known as Legionnaires' sickness. A few side effects of legionnaires contamination are fever, shortness of breath, cough, and muscle aches. Legionnaires are intense and, as a rule, include hospitalization or might, in fact, bring about death.

7. Cryptosporidium

Cryptosporidium is actually a protozoan that works like a parasite. It causes serious and difficult looseness of the bowels and spreads through polluted drinking water. Cryptosporidium can happen even in a city with clean water, and testing administrations are expected to decide water quality on the off chance that these protozoa are flourishing in your drinking water.

The Aftereffect of Drinking Water with Bacteria

Serious Infection, Typhoid Fever

Needless to say, drinking bacteria water can pose serious threats to us, causing health problems and myriads of infections.

When consumed, one may contract the following waterborne illnesses: gastrointestinal issues, diarrhea, nausea, intestinal or stomach cramping, intestinal or stomach aches and pains, dehydration, and worse, death.

The gravity and extent of these symptoms may depend on several factors, such as the overall health, age, and physical condition of the person

And so, having access to clean drinking water is a necessity. Contaminated water and poor sanitation are connected to the transmission of infections, for example, cholera, loose bowels, diarrhea, hepatitis A, typhoid, and polio. Absent, lacking, or improperly overseen water and sanitation services expose people to preventable health risks.

This is especially the situation in medical care offices where the two patients and staff are put at extra risk of contamination and illness when water, sterilization, and cleanliness administrations are deficient. Universally, fifteen percent (15%) of patients foster contamination during a clinic stay, with the extent a lot more noteworthy in low-pay nations.

Moreover, lacking administration of metropolitan, modern and rural wastewater implies the drinking water of countless individuals is perilously tainted or artificially contaminated.

The regular presence of synthetic substances, especially in groundwater, can likewise be of well-being importance, including arsenic and fluoride, while different synthetic substances, like lead, might be raised in drinking water because of filtering from water supply parts in touch with drinking water.

Contaminated Water: The Conclusion

To conclude, dangerous pathogens may inhibit your drinking water; and, therefore, should be dealt with appropriately and urgently to minimize their health-endangering effects. 

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