Abstract: A system and method for the production of microbial consortiums and by-product material is provided. A physical containment system comprising phase spaces arranged in a discrete order to favor specific biological reactions is also provided. Phase profiles and phase data sets include the pre-determined physical and biological parameters for the phase space transitions. Movement of material from one phase to the next is hydraulically balanced enabling working fluid to continuously move in a fixed direction and rate of flow. Continuous monitoring of phase profiles and phase data sets provide feedback to the system enabling alteration of the conditions in the system to control reactions therein.

Abstract: A system and method for the production of microbial consortiums and by-product material is provided. A physical containment system comprising phase spaces arranged in a discrete order to favor specific biological reactions is also provided. Phase profiles and phase data sets include the pre-determined physical and biological parameters for the phase space transitions. Movement of material from one phase to the next is hydraulically balanced enabling working fluid to continuously move in a fixed direction and rate of flow. Continuous monitoring of phase profiles and phase data sets provide feedback to the system enabling alteration of the conditions in the system to control reactions therein.

Abstract: The invention provides methods of enriching and isolating novel microbial organisms, such as rhizobacteria, that promote the growth of plants by recreating the rhizosphere in a laboratory setting. The methods of the invention can be used to produce and characterize beneficial microbes grown at the root-soil interface and provide a technique for selectively enriching bacteria that live in close association with plants and foster the growth thereof.

Abstract: The invention provides methods of enriching and isolating novel microbial organisms, such as rhizobacteria, that promote the growth of plants by recreating the rhizosphere in a laboratory setting. The methods of the invention can be used to produce and characterize beneficial microbes grown at the root-soil interface and provide a technique for selectively enriching bacteria that live in close association with plants and foster the growth thereof.

Abstract: Provided are compositions comprising polyphosphate accumulating bacteria as well as a method for identifying said polyphosphate accumulating bacteria. Additionally provided is a method for treating various substances with said compositions.

Abstract: A system and method for the production of microbial consortiums and by-product material is provided. A physical containment system comprising phase spaces arranged in a discrete order to favor specific biological reactions is also provided. Phase profiles and phase data sets include the pre-determined physical and biological parameters for the phase space transitions. Movement of material from one phase to the next is hydraulically balanced enabling working fluid to continuously move in a fixed direction and rate of flow. Continuous monitoring of phase profiles and phase data sets provide feedback to the system enabling alteration of the conditions in the system to control reactions therein.

Abstract: A device is provided that is capable of simultaneous communication over multiple wired and wireless networks. The device is capable of processing data received simultaneously over multiple networks by storing the data in data buffers and using a polling routine to retrieve the data from the data buffers. The device is capable of preventing interference when communicating over multiple wireless networks in the same frequency band by monitoring the frequency channel used by one of the wireless networks and controlling the frequency channels used by the other wireless networks.

Abstract: A printer that includes a core printer assembly which includes subassemblies capable of printing on media, and a modular assembly of additional electronic devices that supplement to core printer operation, such as different card readers or wireless communication devices. The core printer includes a main circuit board that is connected to a module circuit board that is configured to support the additional electronic devices. The connection is a single multiple-pin connector that allows easy exchange of different module circuit boards supporting different electronic devices during assembly. The module circuit board and the additional electronic devices are all contained within a modular component housing mateable with the rest of a housing supporting the core printer assemblies in a semi-permanent configuration for a finished look. The module circuit board may include a UART that is configured to buffer and control information flow between multiple electronic devices and the main circuit board.

Abstract: An electrical connection for communicating between electrical terminals is provided, as is a collar for retaining the cable of such a connection and associated methods. The connection can include a first modular connector engaged to a first electrical terminal of a printer, a second connector engaged to a second terminal, and a cable extending between the first and second connectors. The first terminal of the printer can be configured to communicate via a first plurality of electrical contacts using a USB protocol and via a second plurality of electrical contacts using another protocol. In some cases, a third connector can be provided on the cable such that the first terminal can communicate to the second connector using the first protocol or to the third connector using the second protocol. The collar can be slidably disposed on cables of various configurations and engaged to a terminal to secure one of the connectors on the cable to the terminal.