Provided herein is a method for anaerobically fermenting an organic solid waste, including: subjecting the organic solid waste to anaerobic fermentation under catalysis of a zirconium-based metal organic framework (MOF) material.

A method of treating a heavy metal contaminated soil including contacting the contaminated soil with a bioremediation mixture for a predetermined time such that the contaminated soil is anaerobically digested, wherein the contaminated soil contains one or more heavy metals, and wherein the anaerobically digested soil contains a lesser amount of the one or more heavy metals than the contaminated soil.

The subject invention provides microbe-based products and efficient methods of producing them. In specific embodiments, methods are provided for enhanced production of microbial biosurfactants, the methods comprising co-cultivating Myxococcus xanthus and Bacillusamyloliquefaciens. In preferred embodiments, co-cultivation is carried out continuously for an indefinite period of time. Microbe-based products produced according to the subject methods are also provided, as well as their uses in, for example, agriculture, oil and gas recovery, and health care.

The subject invention provides microbe-based products and efficient methods of producing them. In specific embodiments, methods are provided for enhanced production of microbial biosurfactants, the methods comprising co-cultivating Myxococcus xanthus and Bacillusamyloliquefaciens. In preferred embodiments, co-cultivation is carried out continuously for an indefinite period of time. Microbe-based products produced according to the subject methods are also provided, as well as their uses in, for example, agriculture, oil and gas recovery, and health care.

Embodiments of the invention relate generally to methods to generate microorganisms and/or microorganism cultures that exhibit the ability to produce polyhydroxyalkanoates (PHA) from carbon sources at high efficiencies. In several embodiments, preferential expression of, or preferential growth of microorganisms utilizing certain metabolic pathways, enables the high efficiency PHA production from carbon-containing gases or materials. Several embodiments relate to the microorganism cultures, and/or microorganisms isolated therefrom.

This application describes methods of using fungi to harvest algae. As illustrated herein the algae stick onto and are captured directly by the hyphae of the fungi. The fungi, the algae, or both can be modified to express heterologous proteins or other products. The methods facilitate harvesting of useful strains of algae and the products made by such algae.

This application describes methods of using fungi to harvest algae. As illustrated herein the algae stick onto and are captured directly by the hyphae of the fungi. The fungi, the algae, or both can be modified to express heterologous proteins or other products. The methods facilitate harvesting of useful strains of algae and the products made by such algae.

This disclosure provides methods for fermentation of sugar substrates by acid-tolerant bacteria for producing acetic and lactic acids, and methods for further processing of these products to obtain acetate and propionate biodegradable deicers. Methods are also disclosed on the use of acid tolerant bacteria to produce acetate and propylene glycol deicing compounds.

This disclosure provides methods for fermentation of sugar substrates by acid-tolerant bacteria for producing acetic and lactic acids, and methods for further processing of these products to obtain acetate and propionate biodegradable deicers. Methods are also disclosed on the use of acid tolerant bacteria to produce acetate and propylene glycol deicing compounds.

Primary leachate is used as a plant growth stimulant. A fermentation medium is fermented with a microbial culture in a bioreactor to produce a primary leachate comprising microorganisms derived from the microbial culture and/or naturally occurring microorganisms. The primary leachate is isolated from the bioreactor, diluted with water, and used to irrigate plants to reduce bacterial diversity and stimulate beneficial microorganisms in the rhizosphere around the plants. The fermentation medium may be organic waste, preferably food waste. A secondary leachate may also be used as a plant growth stimulant. The primary leachate is used to culture black soldier fly larvae with a substrate in a secondary processing bioreactor under suboptimal culture conditions, thereby producing secondary leachate. Melanin is extracted therefrom by acid precipitation. The secondary leachate is then diluted with water and used to irrigate plants, reducing bacterial diversity and stimulating beneficial microorganisms in the rhizosphere around the plants.