Systems and methods of restoring a lake including dredging, island creation, water treatment, real estate development, computer modeling of environmental conditions, wave height reduction, sediment removal and encapsulation, bathymetry contouring, littoral zone restoration, plant restoration, and/or fish restoration.

Systems and methods of restoring a lake including dredging, island creation, water treatment, real estate development, computer modeling of environmental conditions, wave height reduction, sediment removal and encapsulation, bathymetry contouring, littoral zone restoration, plant restoration, and/or fish restoration.

Described are methods of preserving pollen, which may be subsequently stored. A method of the present invention includes collecting fresh pollen and introducing the pollen to a controlled environment which regulates pollen moisture content. The controlled environment may have a temperature ranging from about 10-10 C.; an adjustable and programmable relative humidity; a continuous, adjustable positive or negative air flow; and a flow of one or more continuously refreshed, selected gases which displace oxygen. In another embodiment of the method, the controlled environment may have a relative humidity from about 50-100%; a temperature from about 10-10 C.; and air pressure from about 15-150 kPa. In all embodiments of the method, an optional field conditioning step may be performed. The field conditioning step may include subjecting the pollen to an environment controlled for relative humidity, temperature, and air pressure such that the initial pollen moisture content may be adjusted to a target moisture content.

Described are methods of preserving pollen, which may be subsequently stored. A method of the present invention includes collecting fresh pollen and introducing the pollen to a controlled environment which regulates pollen moisture content. The controlled environment may have a temperature ranging from about 10-10 C.; an adjustable and programmable relative humidity; a continuous, adjustable positive or negative air flow; and a flow of one or more continuously refreshed, selected gases which displace oxygen. In another embodiment of the method, the controlled environment may have a relative humidity from about 50-100%; a temperature from about 10-10 C.; and air pressure from about 15-150 kPa. In all embodiments of the method, an optional field conditioning step may be performed. The field conditioning step may include subjecting the pollen to an environment controlled for relative humidity, temperature, and air pressure such that the initial pollen moisture content may be adjusted to a target moisture content.

Apparatus, systems and methods are provided for crop stand optimization. In some embodiments a field is planted at a first population prescription determined based on a first data set including forecasted weather. A subsequently determined second population prescription is determined based on a second data set determined after planting, and the planted crop is thinned according to the second population prescription. In some embodiments the crop is selectively thinned to remove plants having a plant removal index below a threshold.

Apparatus, systems and methods are provided for crop stand optimization. In some embodiments a field is planted at a first population prescription determined based on a first data set including forecasted weather. A subsequently determined second population prescription is determined based on a second data set determined after planting, and the planted crop is thinned according to the second population prescription. In some embodiments the crop is selectively thinned to remove plants having a plant removal index below a threshold.

The present invention discloses and claims methods and devices for the rapid mechanical isolation of monocot plant tissues suitable for transformation or tissue culture. The invention includes mechanical devices for substantially isolating target plant tissues for use as transformable explants, and propagation of transgenic plants and plant tissues.

The present invention discloses and claims methods and devices for the rapid mechanical isolation of monocot plant tissues suitable for transformation or tissue culture. The invention includes mechanical devices for substantially isolating target plant tissues for use as transformable explants, and propagation of transgenic plants and plant tissues.

A method and apparatus for double cropping, with photovoltaic panel arrays mounted on and operating from specialized photovoltaic solar array support structures that are supported above agricultural fields at heights that allow the passage of large mechanized farm equipment to pass beneath. The arrays are optimized for sun sharing operation in that their solar panel design, spacing and computerized movement are optimized to both generate electricity and increase the agricultural efficiency of the underlying land.

A method and apparatus for double cropping, with photovoltaic panel arrays mounted on and operating from specialized photovoltaic solar array support structures that are supported above agricultural fields at heights that allow the passage of large mechanized farm equipment to pass beneath. The arrays are optimized for sun sharing operation in that their solar panel design, spacing and computerized movement are optimized to both generate electricity and increase the agricultural efficiency of the underlying land.