Abstract: A biologically pure isolate of a selected bacterium derived from Clostridium autoethanogenum is described which has improved efficiency in the production of ethanol by anaerobic fermentation of substrates comprising carbon monoxide. The bacterium can produce ethanol and acetate at an ethanol to acetate ratio of at least 1.0 and has a productivity of at least 1.2 g of ethanol/l of fermentation broth per day. The bacterium is also characterized in that it has substantially no ability to sporulate.

Abstract: Systems, apparatuses, and methods of treating wastewater are provided. In some aspects, a container may be provided and may include a first member, a second member spaced apart from the first member, and media supported by and extending between the first and second members. An organism may be introduced into the container and wastewater may be introduced into the container for treatment. The media may be loop cord media. In other aspects, two containers may be provided and wastewater may be initially introduced into a first container for treatment, removed from the first container, and subsequently introduced into the second container for further treatment. A first species of organism may be present in the first container and a second species of organism may be present in the second container. Methods of using these containers are also provided.

Abstract: A method for treating waste material includes screening the material to produce “unders” that pass a screen and “overs” that do not. The overs are hydrothermally treated to produce a partially hydrolyzed biomass. The unders from the waste material, and the partially hydrolyzed biomass, are anaerobically digested. The method can also include recovering, and anaerobically digesting, volatile organic compounds from the hydrothermal treatment. A system for treating waste material comprises a screening device, an autoclave, and an anaerobic digester. The screening device separates the waste material into unders and overs, the autoclave receives the overs from the screening device and processes the overs with steam to produce a partially hydrolyzed biomass, and the digester receives and anaerobically digests the unders of the waste material and the partially hydrolyzed biomass. The system can also include an eductor coupled to the autoclave and configured to discharge to the digester.

Abstract: Embodiments of a process for discharging amine byproducts formed in an amine-based solvent are provided. The process comprises the steps of contacting the amine-based solvent with flue gas comprising carbon dioxide, oxygen, nitrogen, NOx, SOx, or mixtures thereof to form a carbon dioxide-laden amine-based solvent that contains the amine byproducts. Carbon dioxide is separated from the carbon dioxide-laden amine-based solvent to form a carbon dioxide-depleted amine-based solvent. The amine byproducts from the carbon dioxide-depleted amine-based solvent are fed to an algae source.

Abstract: Waste material is screened to produce unders and overs, the overs are treated to produce a partially hydrolyzed biomass, and the partially hydrolyzed biomass and the unders are anaerobically digested. Treating the overs includes fermenting and mixing the overs with an aerotolerant anaerobic bacteria in a controlled environment, such as a rotating drum, while air is passed through the controlled environment. The moisture content, pH, and biological content of the overs can be adjusted before the overs are treated. Volatile fatty acids from the air passed through the controlled environment can be collected for anaerobic digestion or can be recirculated back into the controlled environment. The cleansed air can also be recycled back into the controlled environment.

Abstract: Seeds of plants stably infected with isolated endophytes selected from the group consisting of ATCC Deposit No. PTA-6499, PTA-8827, PTA-8828, and PTA-8829 are disclosed.

Abstract: A composition and method for the inhibition of microorganisms.

Abstract: Novel polyene polyketides, their pharmaceutically acceptable salts, prodrugs and derivatives have been found to have antibiotic activity. One method for obtaining the compounds is by cultivation of Amycolatopsis orientalis ATCC™ 43491 or a mutant or variant such as the strain IDAC-220604-1. Another method for obtaining the compounds is post-biosynthesis chemical modification of the compounds obtained by cultivation. Novel polynucleotide sequences and encoded proteins for the biosynthesis of the polyene polyketides are also presented.

Abstract: A process for the treatment of aqueous effluents containing at least one of the following ethers is described: ethyl tert-butyl ether (ETBE) and/or methyl tert-butyl ether (MTBE) and/or tert-amyl methyl ether (TAME) in order to reduce the concentration of these ethers. A bacterium Gordonia terrae CIP I-2194 is innoculated under aerobic conditions. In particular, a bacterium Burkholderia cepacia CIP I-2052 or a bacterium Alcaligenes sp. CIP I-2561 or a bacterium Mycobacterium sp. CIP I-2562 is added in the presence of a growth substrate and, optionally, of a cobalt salt, and the ether contained in the effluents is degraded by the bacteria thus innoculated until its mineralization. The process is useable in the ether-contaminated water treatment industry.

Abstract: There is provided a method for controlling a target microorganism characterized in that an extrinsic environmental factor is added to a culture system where said target microorganism and other microbes coexist, said extrinsic environmental factor providing a desirable growth condition for the other microorganisms but an undesirable growth condition for the target microorganism, and said extrinsic environmental factor is typically an organic substance that is assimilable by the above other microorganisms but not by the target microorganism, and includes a sugar, an amino acid, an alkanol amine, an organic acid, and the like. In particular, the target microorganism is N16-1 strain of Burkholderia (FERM BP-5504) and the substance is D-serine.

Abstract: Air laden with biodegradable volatile organic compounds is passed sequentially through a first filter bed containing a biologically inert filter media, a second filter bed containing a biologically active filter media, and a third filter bed containing a biologically inert filter media. Water is present in the biologically active filter media and the biologically inert filter media. Water that drains from the second filter bed is collected and supplied to the first filter bed. Water that drains from the third filter bed is collected and recirculated to the third filter bed.

Abstract: This invention relates to mutants of Neisseria useful for vaccine preparation. Specifically this invention relates to mutants of Neisseria containing mutations in a major outer membrane protein gene such that no immunologically functional polypeptides encoded by said gene are produced. More specifically, the invention relates to a mutant strain of Neisseria gonorrhoeae having a mutation of the PIII gene and to vaccines derived therefrom.

Abstract: A method for degrading an undesirable ether-based environmental contaminant by contacting the ether with a hydrogen-oxidizing microorganism to convert the ether to innocuous compounds which are environmentally acceptable, including treating the ether-based contaminants in situ or removing them from the contaminated site for treatment in a bioreactor, examples of the ether-based contaminants being tertiary butyl ethers of the type utilized as gasoline oxygenates, for example, methyl tert-butyl ether, ethyl tert-butyl ether, and methyl tert-amyl ether, and also ether solvents, for example, tetrahydrofuran.

Abstract: A Rhodobacter species and variants thereof are provided for odor remediation of anaerobic livestock waste lagoons. Also provided are vector systems and genetically reconstituted Rhodobacter PS9 cells, and related methods for biomass production in anaerobic livestock waste lagoons.

Abstract: Air laden with biodegradable volatile organic compounds is passed sequentially through a first filter bed containing a biologically inert filter media and a second filter bed containing a biologically active filter media. Water is present in the biologically active filter media and the biologically inert filter media. Water that drains from the second filter bed is collected and supplied to the first filter bed.

Abstract: A composition for the treatment of natural bodies of water comprising A) beneficial aerobic microorganisms, B) an effective quantity of at least one water-soluble colorant; and, optionally, C) a growth accelerator for component A).

Abstract: A biologically pure bacterial culture has been isolated by a dilution enrichment process from a mixed bacterial culture, obtained by the enrichment of an activated sludge taken from a biotreater for treating wastewater in a Chemical plant. The mixed bacterial culture is capable of degrading aerobically a branched alkyl ether or a branched alkyl alcohol, particularly a tertiary carbon atom-containing alkyl ether or alkyl alcohol, more particularly MTBE or t-butyl alcohol, to CO2. The biologically pure bacterial culture is capable of cleaving the ether linkage of methyl t-butyl ether (MTBE) with the transient formation of t-butyl alcohol (TBA) which is subsequently degraded completely to CO2.

Abstract: Disclosed are compositions and/or paints containing hydrolytic enzyme(s), microorganism(s), or mixtures of the hydrolytic enzyme(s) and microorganism(s), wherein the microorganism or hydrolytic enzyme remove undesired growth from a surface. Such compositions and/or paints may contain a catalytically effective amount of an inorganic salt. Also disclosed are articles coated with the composition and/or paint. Finally, methods are disclosed for reducing fouling of a marine surface, for reducing marine corrosion, for limiting absorption of water by a marine surface, for reducing the coefficient of drag of a marine surface, removing marine growth from a marine surface, and for reducing mildew fungus on a marine surface.

Abstract: A system for nitrate removal from aquariums, both fresh water and marine aquariums, by means of permeable polymeric beads which contain a combination of fermentative and denitrifying bacteria and a carbon source. Preferred beads are beads made from sodium alginate or chitosan. The bacteria, in the presence of the carbon source, are able to reduce nitrate to nitrogen gas. Bacteria which are not harmful to fish are used. The porous beads used in the process are novel and part of the invention.

Abstract: A microbial consortium, ATCC 202177, is enriched to remove target sulfur compounds from gases in the presence of ammonia, cyanide, carbon monoxide, and other toxic gases and mixtures thereof. The ATCC 202177 consortium is cultured in an anaerobic or aerobic nutrient medium until enough cells of ATCC 202177 are recovered to remove the target sulfur species at a pressure ranging from 1 to 80 atmospheres.

Abstract: The invention relates to the new bacterial strain Corynebacterium sp. K2-17 and to a process for the microbial decontamination of materials polluted with compounds from the production of phenoxyalkanoic acid herbicides, such as 2,4-dichlorophenoxybutyric acid (DCPB), 4-chloro-2-methylphenoxybutyric acid (MCPB), 2,4-dichlorophenoxyacetic acid (2,4-D), 4-chloro-2-methylphenoxyacetic acid (MCPA), 2,4-dichlorophenol (DCP), and 4-chloro-2-methylphenol (MCP) in a pH range of from slightly acidic to strongly alkaline.

Abstract: A bacterial culture capable of degrading ethers, especially branched alkylethers including MTBE, under aerobic conditions has been prepared.

Abstract: This invention presents a newly discovered, novel strain of Bacillus bacteria that produces lipase enzymes for the degradation of oleaginous materials such as fats, greases and cooking oils, protease enzymes to degrade proteins and amylases to break down starch. This novel strain and the enzymes produced thereby have a number of applications, including wastewater treatments, agricultural uses, laundry and dish detergents, drain cleaners and spot removers, among others.

Abstract: An on site bioremediation system that delivers logarithmically growing, active microorganisms from the culture vessel directly to the biodegradable waste to be metabolized is disclosed. The system includes a controller, culture vessel and separate containers of stock microorganisms and nutrient medium. The periodic or continuous addition of stock microorganisms and fresh nutrient media is controlled by a computer. After a particular cell density is reached, the active, logarithmically growing microorganisms flow out of the system to the waste site on a periodic or continuous basis.

Abstract: The present invention is directed to an apparatus and method for enhanced bioremediation of hydrocarbons removed from a contaminated object comprising: (a) a basin for cleansing said hydrocarbon-contaminated object, said basin having a means for introducing a recycling bioremediating cleaning solution (NATURES WAY PC.TM.) for washing said object, a means for draining said solution from said basin into a biochamber reservoir and a means for screening particles from said solution upon entry into said reservoir; and (b) said reservoir having a means for temperature control between 90.degree. to 112.degree. F., means for aerating said solution, means for agitating said solution, an outlet means to a plurality of filters for filtering said solution, an inlet means from said filters and means for removing filtered sediments.

Abstract: A method for forming gas or liquid aphrons with reversible surfactants or emulsifiers is described. Polymers which change their emulsifying properties upon change of pH, temperature or other condition are used to form the aphrons. The aphrons are useful for chemical reactions and separations, mass transfer processes, and for biological processes.

Abstract: A bacterium strain JM1 (FERM BP-5352) capable of degrading organic compounds without inducers is disclosed. Further, methods for degrading organic compounds and remedying an environment using the bacterium strain are also disclosed. The microorganism is brought into contact with the environment under conditions which stimulates the organism to degrade the organic compounds and thus, remedying the environment of pollutants. A kit and method for selectively detecting the strain expressing oxygenase from a sample containing strain J1 FERM BP-5102 is also disclosed. The latter strain expresses oxygenase when induced, however, strain JM1 FERM BP-5352 does not require induction. In addition, a process for obtaining strain JM1 FERM BP-5352 is also disclosed.

Abstract: An isolated mixed bacterial culture, preferably BC-1, ATCC No. 202057, which degrades ethers, especially branched alkylethers including MTBE, under aerobic conditions has been prepared.

Abstract: A process for producing hydrogen anaerobically in a culture medium or in the environment using a proteobacteria is described. Preferably the proteobacteria is Desulfovibrio sp. ATCC 55738 (FOX1). The hydrogen can be used as a fuel and for other purposes and is a staple chemical.

Abstract: A bacterial strain J1 (FERM BP-5102) which can effectively degrade aromatic compounds and/or chlorinated organic compounds such as trichloroethylene (TCE) is disclosed. Also the degradation occurs at a lower temperature such as 15.degree.. Further, a method for purifying waste water, soil or a gas polluted with the above chemical compounds utilizing the bacterium is disclosed.

Abstract: An accelerated micro-organism culture method is for decomposing harmful substances. For this purpose, the cultivation, mutagenic treatment and stabilization of the micro-organisms are carried out simultaneously in a mutation fermenter containing a nutrient-rich basic medium (basic medium 1); selection is carried out in a selection fermenter containing a basic medium which is low in nutrients and is enriched with the harmful substance (basic medium 2); small amounts of biomass released from the nutrient-rich basic medium (basic medium 1) of the mutation fermenter are continuously removed from the mutation fermenter and transferred to the selection fermenter. Small amounts of biomass released from the basic medium which is low in nutrients (basic medium 2) of the selection fermenter are removed from the selection fermenter and transferred to the mutation fermenter. The entire process is carried out continuously in alternating selection and mutation phases, in the manner of a repeated cycle.

Abstract: The present invention relates to compositions containing bacteria capable of degrading hydrocarbons, such as petroleum or petroleum products and methods for their use.

Abstract: A system for capturing HAPs/VOCs from an existing or planned air stream and destroying the contaminants in the air stream by microbial degradation is disclosed. In general, the system is composed of a housing that contains a rotating drum. The drum contains a capture or filtration media through which contaminated air or vapors must pass. HAPs/VOCs in the air or vapors are filtered out and absorbed by the capture media. The rotating drum sits in a water bath that is inoculated with microorganisms that are selected to degrade the hazardous materials or pollutants removed by the capture media.

Abstract: The present invention is directed to the application of robotics to screen and optimize microorganisms for their bioremediation capabilities. In particular, the present invention provides methods to screen for the ability of microorganisms to metabolize particular compounds of interest in bioremediation applications. The present invention also provides a method for discovery of microorganisms useful for bioremediation and biomining, as well as other applications where microbial metabolism is useful for catalyzing chemical biotransformations.

Abstract: An isolated mixed bacterial culture, preferably BC-1, ATCC No. 202057, which degrades ethers, especially branched alkylethers including MTBE, under aerobic conditions has been prepared.

Abstract: Microspheres, of controllable shape and size, encapsulating active ingredients, are made by the internally controlled gelation of an emulsion including a water-soluble polysaccharide, a salt of a di- or trivalent metal cation, a polymerization inhibitor, water, a water-immiscible solvent (as a non-aqueous phase), and the active ingredient. The components of the aqueous phase, containing the water-soluble polysaccharide, polymerization inhibitor, di- or trivalent metal salt, active substance, and water, are blended together. This aqueous phase is then gradually mixed with the oil phase and agitated to form an emulsion. After sufficient time for solidification, the emulsion is broken and the resulting microspheres are collected. The active ingredient may be various substances, including live microorganisms.

Abstract: A method is presented for releasing petroleum and hydrocarbon products sorbed onto or entrained by natural fibers in an aqueous medium through the use of enzymes to degrade the natural fiber sorbents utilized for oil spill cleanup, the method provides an opportunity for achieving responsible separation of oil from oil spill sorbent materials. Natural fibers which have been utilized to adsorb petroleum and hydrocarbon products are separated from these petroleum and hydrocarbon products by reducing the natural fiber links to the point that the adsorbed or entrained oil no longer has sufficient binding surface or fiber link to remain held by the fibers, thus float to the surface of the aqueous medium. Aqueous medium enzyme compositions are provided which are suitable for degrading natural fibers inclusive of cellulose-based and protein-based fibers resulting in release of adsorbed, absorbed and/or entrained radioactive contaminants.

Abstract: Porous bodies are produced which are suitable for use as supports for catalysts, including living cells, such as bacteria and which are upset resistant to acids and bases. The bodies have a significantly large average pore diameter of about 0.5 to 100 microns, (i.e. 5,000 to 1,000,000 .ANG.) and a total pore volume of about 0.1 to 1.5 cc/g with the large pores contributing a pore volume of from about 0.1 to 1.0 cc/g. The bodies are made by preparing a mixture of ultimate particles containing a zeolite and one or more optional ingredients such as inorganic binders, extrusion or forming aids, burnout agents, or a forming liquid, such as water. In a preferred embodiment, the ultimate particles are formed by spray drying.

Abstract: A method of degrading hydrophobic organic compounds (HOCs) comprising heating the HOCs in the presence of a microorganism capable of metabolizing the HOCs to cause degradation thereof, an embodiment of such method including contacting at ambient temperature said HOCs with a microorganism capable of metabolizing the HOCs for a period of time sufficient to degrade some but not all of the HOCs, heating the HOCs not degraded, and thereafter contacting the HOCs not degraded with a microorganism capable of metabolizing said HOCs.

Abstract: A substrate bioavailability enhancing chemical mixture and bioremediation method is disclosed which increases substrate availability in microbial bioremediation and results in increased biodegradation efficiency and completeness while significantly shortening operating time. The mixture contains a surfactant, an emulsifier, an emulsifying solvent, a sequestering agent, and a pH control agent. A preferred mixture also contains a biocatalyst which stimulates the reproductive cycle and rapid multiplication of microbes and thus increases the number of microbes.

Abstract: New protozoan derived microbial consortia and method for their isolation are provided. Consortia and bacteria isolated therefrom are useful for treating wastes such as trichloroethylene and trinitrotoluene. Consortia, bacteria isolated therefrom, and dispersants isolated therefrom are useful for dispersing hydrocarbons such as oil, creosote, wax, and grease.

Abstract: A microbial cleaner comprising at least one hydrocarbon-ingesting microbe strain and a biocatalyst transforms hydrocarbons into nontoxic substances. The biocatalyst includes a nonionic surfactant, a chlorine-absorbing salt, at least one microbe nutrient, and water. The cleaner can be used in virtually any situation requiring the removal of hydrocarbon, including cleaning contaminated soil and treating oil spills on soil and water.

Abstract: A method and system for enhancing the motility of microorganisms by placing an effective amount of chlorinated hydrocarbons, preferably chlorinated alkenes, and most preferably trichloroethylene in spaced relation to the microbes so that the surprisingly strong, monomodal, chemotactic response of the chlorinated hydrocarbon on subsurface microbes can draw the microbes away from or towards and into a substance, as desired. In remediation of groundwater pollution, for example, TCE can be injected into the plume to increase the population of microbes at the plume whereby the plume can be more quickly degraded. A TCE-degrading microbe, such as Welchia alkenophilia, can be used to degrade the TCE following the degradation of the original pollutant.

Abstract: A method for identifying soil microbial strains which may be bacterial degraders of pollutants comprising the steps of placing a concentration of a pollutant in a substantially closed container, placing the container in a sample of soil for a period of time ranging from one minute to several hours, retrieving the container, collecting the contents of the container, and microscopically determining the identity of the bacteria present. Different concentrations of the pollutant can be used to determine which bacteria respond to each concentration. The method can be used for characterizing a polluted site or for looking for naturally occurring biological degraders of the pollutant. Then bacteria identified as degraders of the pollutant and as chemotactically attracted to the pollutant are used to inoculate contaminated soil.

Abstract: A bioleaching process is utilized for the extraction of metals from coal fly ash (CFA). The CFA is suspended in an acidic sea water based culture medium and the suspension is incubated with a microorganism culture comprising at least one strain of Thiobacillus thiooxidans capable of growing and producing sulfuric acid in the sea water based acidic culture medium and thereby facilitating the extraction of metals from the CFA. The extracted metals are separated from the CFA raffinate and microorganism cells and are fractionated to provide metal-enriched fractions. A selected Thiobacillus thiooxidans strain is described which has been designated as Thiobacillus thiooxidans ZYR1, a sample of which has been deposited under No. 40453 at the National Collections of Industrial and Marine Bacteria Ltd. (NCIMB) at Aberdeen, Scotland. This selected strain is particularly suitable for the bioleaching of metals from coal fly ash.

Abstract: Tablets are formed that release components over time for biological degradation of organic matter such as sewage sludge, petroleum hydrocarbons, pesticides and herbicides. The tablets contain an inner-core of a dormant live microorganism, an inner-coating over the inner-core of water soluble hydroxypropyl methylcellulose or polyethylene glycol, an outer-layer over the inner-coating of sodium sulfate coated sodium carbonate peroxyhydrate particles, and an outer-coating over the outer-layer of water soluble hydroxypropyl methylcellulose or polyethylene glycol. The inner-core may contain a binder such as paraffin, gelatin and dextrose, and the outer-layer may contain additives such as enzymes, buffering agents, sugars and manganese dioxide as an oxidation catalyst. When the tablets are placed in an aqueous environment, layers of the tablets dissolve over time releasing components therein.

Abstract: A method of abandoning an underground storage tank including the steps of: removing residuals, if any, from the tank; washing the tank with a detergent solution; removing the washing solution; and filling the tank with a mixture which includes water, sand, a binding agent and a material for enhancing the flowability of the mixture.

Abstract: A process for the production of the enzyme cyanide hydratase which comprises continuously cultivating a microorganism strain under specified conditions of temperature, pH and dilution rate whilst continuously supplying cyanide ions and/or hydrogen cyanide and/or compounds which generate cyanide ions and/or hydrogen cyanide under fermentation conditions to the culture. A method for the treatment of a cyanide-containing material to degrade the cyanide therein which uses cyanide hydratase produced by the process of the invention is also claimed. Preferably the microorganism is a Fusarium strain, in particular Fusarium lateritium Naas CM1 300533 deposited at The Commonwealth Mycological Institute, Kew, Richmond Surrey, England under the terms of the Budapest Treaty.

Abstract: Remediation of toxic waste materials in solid, liquid or a mixture of solid and liquid form provides rapid reduction of the toxic conditions to innocuous levels. The process utilizes indigenous microorganisms present in the waste materials. The process comprises contact mixing waste materials with protein nutrients in water, air entraining the waste materials and protein nutrients during mixing to form a bioactive structure, and exposing the bioactive structure to cure in air until the toxic materials are remediated to a predetermined innocuous level.

Abstract: Dentrifying backing in a tablet form is periodically introduced into a home or commercial sewage treatment system, and specifically into an underground denitrification chamber. The system uses ground temperature to promote dentrifying bacteria activity to aid in sewage denitrification. The tablets are periodically dispensed with a power-driven dispenser that periodically drops a tablet below ground into the underground denitrification chamber.