CA1050455A - Establishing reversible dormancy of microorganisms - Google Patents
Establishing reversible dormancy of microorganismsInfo
- Publication number
- CA1050455A CA1050455A CA225,097A CA225097A CA1050455A CA 1050455 A CA1050455 A CA 1050455A CA 225097 A CA225097 A CA 225097A CA 1050455 A CA1050455 A CA 1050455A
- Authority
- CA
- Canada
- Prior art keywords
- mixture
- microorganisms
- dormancy
- population
- weight
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Micro-Organisms Or Cultivation Processes Thereof (AREA)
Abstract
METHOD OF PREPARING STOWABLE, DORMANT BACTERIA
Abstract of the Disclosure A method of establishing reversible dormancy in a population of active microorganisms. The method entails produc-ing a wet mixture containing, along with such population, a liquid carrier and diatomaceous earth particles.
Abstract of the Disclosure A method of establishing reversible dormancy in a population of active microorganisms. The method entails produc-ing a wet mixture containing, along with such population, a liquid carrier and diatomaceous earth particles.
Description
i~5~D~5 S
Back~round, Summar~ and Detailed Des'cription of the Invention This invention pertains to the processing of active microorganisms, and more particularly to a method of establishing reversible dormancy in such organisms.
Various kinds of microorganisms are employed today for many different beneficial purposes. For example, some kinds, such as those derived from the excre~a or rumen contents of certain animals, are used, among other things, as constituents in so-called soil i~provers. Many other specific uses of micro-organisms are, of course, known.
A problem heretofore, however, has been the difficultyof successfully and economically storing such organisms over extended periods of time in a condition ready for use.
A general object of the present invention, therefore, is to provide a novel method of preparing different kinds of microorganisms for satisfactory long term storage.
More specifically, an object of the invention is to provide such a method whereby microorganisms can easily be placed in a state of reliable reversible dormancy, out of which the organisms may be reactivated at any selected later time.
These highly desirable objectives are readily attained by the method of the present invention which contemplates the very simple yet unique procedure of preparing a wet mixture containing, essentially, and in particular critical proportions, three constituents: a population of the desired microorganisms, a suitable liquid carrier (such as water or oil or another), and particles of diatomaceous earth. This procedure is applicable to any type of microorganism.
The relevant proportions of the'above constituents 3Q which must be maintained for succes'sful pract'ice of the invention are'as follows: in the final mixture, the'weight of diatomaceous earth particles must be in the range of about 25 percent to ~ .
1.
. ' ' ,' about 400 percent of the weight of the liquid carrier in the mixture; and, the weight of the microorganisms should not exceed about 15 percent of the total weight of the mix~u~e. With respect to the relative p-;oportions of diatomaceous earth parti-cles and a liquid carrier, a very satisfactory, and preferred, relationship is one where the weight of the particles is about 65-70 percent of the weight of the carrier.
On preparation of a mixture as above des~ribed, the active microorgan~sms therein become dormant, but reactivatable at any later time. By enclosing the prepared mixture in a suitable moisture-impervious sealed container, such as a sealed plastic pail or tub, to maintain the moisture content of the mixture substantially constant, the microorganisms can be held in reversible donmancy indefinitely. Reactivation is accomplish-ed simply by unsealing the mixture, and increasing the amount of liquid carrier therein to where the carrier has a weight greater than four times that of the diatomaceous earth particles.
By way of example, a population of microorganisms contained in animal excreta, and intended for later use as a plant and soil nourisher, is successfully made dormant for long-term storage purposes in the following manner. One-quarter pound of fresh manure, along with one-quarter pound of fresh urine from a heifer are blended into 100 lbs. of water (liquid carrier). This blend is then allowed to sit in a tank for a period of about four days -- such sitting allowing the natural assimilation into the water of microorganisms from the manure and urine.' After this period, the liquid and solid constituents of the'blend are'suitably separated as by siphoning off the former. Sixty-seven lbs. o~ commercially available diatomaceous earth particles are'then added to this separated liquid consti-tuent to produce the final mixture.' Such diatomaceous earth is normally powder-like in ~orm, and typically contains particles
Back~round, Summar~ and Detailed Des'cription of the Invention This invention pertains to the processing of active microorganisms, and more particularly to a method of establishing reversible dormancy in such organisms.
Various kinds of microorganisms are employed today for many different beneficial purposes. For example, some kinds, such as those derived from the excre~a or rumen contents of certain animals, are used, among other things, as constituents in so-called soil i~provers. Many other specific uses of micro-organisms are, of course, known.
A problem heretofore, however, has been the difficultyof successfully and economically storing such organisms over extended periods of time in a condition ready for use.
A general object of the present invention, therefore, is to provide a novel method of preparing different kinds of microorganisms for satisfactory long term storage.
More specifically, an object of the invention is to provide such a method whereby microorganisms can easily be placed in a state of reliable reversible dormancy, out of which the organisms may be reactivated at any selected later time.
These highly desirable objectives are readily attained by the method of the present invention which contemplates the very simple yet unique procedure of preparing a wet mixture containing, essentially, and in particular critical proportions, three constituents: a population of the desired microorganisms, a suitable liquid carrier (such as water or oil or another), and particles of diatomaceous earth. This procedure is applicable to any type of microorganism.
The relevant proportions of the'above constituents 3Q which must be maintained for succes'sful pract'ice of the invention are'as follows: in the final mixture, the'weight of diatomaceous earth particles must be in the range of about 25 percent to ~ .
1.
. ' ' ,' about 400 percent of the weight of the liquid carrier in the mixture; and, the weight of the microorganisms should not exceed about 15 percent of the total weight of the mix~u~e. With respect to the relative p-;oportions of diatomaceous earth parti-cles and a liquid carrier, a very satisfactory, and preferred, relationship is one where the weight of the particles is about 65-70 percent of the weight of the carrier.
On preparation of a mixture as above des~ribed, the active microorgan~sms therein become dormant, but reactivatable at any later time. By enclosing the prepared mixture in a suitable moisture-impervious sealed container, such as a sealed plastic pail or tub, to maintain the moisture content of the mixture substantially constant, the microorganisms can be held in reversible donmancy indefinitely. Reactivation is accomplish-ed simply by unsealing the mixture, and increasing the amount of liquid carrier therein to where the carrier has a weight greater than four times that of the diatomaceous earth particles.
By way of example, a population of microorganisms contained in animal excreta, and intended for later use as a plant and soil nourisher, is successfully made dormant for long-term storage purposes in the following manner. One-quarter pound of fresh manure, along with one-quarter pound of fresh urine from a heifer are blended into 100 lbs. of water (liquid carrier). This blend is then allowed to sit in a tank for a period of about four days -- such sitting allowing the natural assimilation into the water of microorganisms from the manure and urine.' After this period, the liquid and solid constituents of the'blend are'suitably separated as by siphoning off the former. Sixty-seven lbs. o~ commercially available diatomaceous earth particles are'then added to this separated liquid consti-tuent to produce the final mixture.' Such diatomaceous earth is normally powder-like in ~orm, and typically contains particles
2~
1050~55 having mesh sizes in the range of about 200-400 mesh.
This final mixture, it will be noted, contains less than 15 percent (by weight) of microorganisms (from the manure and urine). Further, the weight of the dia~omaceous earth particles in the mixture is about 67 percen~ of the weight of the water therein. Thus, the mixture fits ~he criteria set forth above. ~onsequently, and as is desired, the manure-carried and urine-carried microorganisms which have been assimi-lated in the water become dormant in the mixture.
For long-term storage purposes, the mixture is sealed in a moisture-impervious plastic container. Such sealing main-tains the moisture content of the mixture substantially constant, and thereby maintains a state of dormancy in the microorganisms.
This state can be held ind finiteIy.
When it is desired to reactivate the microorganisms for use, this is done simply by opening the container, and by then adding the mixture to enough new water whereby the combined weight of the original water in the mixture, plus the new water, is greater than four times t~at of the diatomaceous earth parti-cles in the'mixture.
The present invention, thus, affords a simple methodof establishing reversible dormancy in microorganisms. Within ~he limits defined above,' it is apparent that various specific storable'mixtures, wherein microorganic dormancy is attained, '' can be'prepared in accordance with the'steps of the invention.
Any suitable'liquid carrier may be'used. ' . .
1050~55 having mesh sizes in the range of about 200-400 mesh.
This final mixture, it will be noted, contains less than 15 percent (by weight) of microorganisms (from the manure and urine). Further, the weight of the dia~omaceous earth particles in the mixture is about 67 percen~ of the weight of the water therein. Thus, the mixture fits ~he criteria set forth above. ~onsequently, and as is desired, the manure-carried and urine-carried microorganisms which have been assimi-lated in the water become dormant in the mixture.
For long-term storage purposes, the mixture is sealed in a moisture-impervious plastic container. Such sealing main-tains the moisture content of the mixture substantially constant, and thereby maintains a state of dormancy in the microorganisms.
This state can be held ind finiteIy.
When it is desired to reactivate the microorganisms for use, this is done simply by opening the container, and by then adding the mixture to enough new water whereby the combined weight of the original water in the mixture, plus the new water, is greater than four times t~at of the diatomaceous earth parti-cles in the'mixture.
The present invention, thus, affords a simple methodof establishing reversible dormancy in microorganisms. Within ~he limits defined above,' it is apparent that various specific storable'mixtures, wherein microorganic dormancy is attained, '' can be'prepared in accordance with the'steps of the invention.
Any suitable'liquid carrier may be'used. ' . .
Claims (3)
1. A method of establishing reversible dormancy in a population of active microorganisms, said method comprising pre-paring a mixture containing said population along with a liquid carrier and diatomaceous earth particles, said population com-prising up to about 15 percent by weight of said mixture, and said particles having a weight in the mixture in the range of about 25-400 percent of the weight of the liquid carrier.
2. The method of claim 1, which further is for preser-ving for an indefinite time dormancy in said population, and which to this end further comprises maintaining substantially constant the moisture content in the mixture.
3. The method of claim 2, wherein said maintaining is accomplished by enclosing said mixture in a moisture-impervious container.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA225,097A CA1050455A (en) | 1975-04-21 | 1975-04-21 | Establishing reversible dormancy of microorganisms |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA225,097A CA1050455A (en) | 1975-04-21 | 1975-04-21 | Establishing reversible dormancy of microorganisms |
Publications (1)
Publication Number | Publication Date |
---|---|
CA1050455A true CA1050455A (en) | 1979-03-13 |
Family
ID=4102870
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA225,097A Expired CA1050455A (en) | 1975-04-21 | 1975-04-21 | Establishing reversible dormancy of microorganisms |
Country Status (1)
Country | Link |
---|---|
CA (1) | CA1050455A (en) |
-
1975
- 1975-04-21 CA CA225,097A patent/CA1050455A/en not_active Expired
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