A bed for at least one animal is provided. The bed includes a strip of belting having a front end, a back end, and opposing sides, an animal bed having a first fluid chamber and a second fluid chamber. The first fluid chamber is provided within the strip of belting and includes a first width extending between a first side and a second side of the first fluid chamber. The second fluid chamber is provided within the strip of belting and includes a second width extending between a first side and a second side of the second fluid chamber. A first fluid supply tube is in fluid connection with the first chamber, and a second fluid supply tube is in fluid connection with the second chamber, wherein the first and second chambers are fluidly isolated from one another. A method of preparing for use a bed for at least one animal is also provided. In addition, a system for using a bed for at least one animal is also provided.

The invention relates to a fork (1) for collecting animal excrement, in particular horse droppings, comprising a handle (2) and a plurality of tines (3), which, after activation of an electromechanical actuation element (4), can be set into rapid vibration by a vibration device (5) arranged in the handle (2) so as to separate the animal excrement from shavings and other bedding material. The electromechanical actuation element (4) is mechanically and/or electrically decoupled from the vibration device (5).

An excrement-treating material has a core part, and a surface layer bonded to the core part by utilizing the adhesion ability of a water-absorbable polymer in the surface layer without using an adhesive. The excrement-treating material suitably exerts the water absorbability and water transport ability inherent to the surface layer. The excrement-treating material is constituted by incorporating pulverized water-absorbable polymer particles of 20 μm to 50 μm, and adding water to the surface of the core part after granulation to noncontinuously form a highly-wet part; reacting a water content in the highly-wet part and the pulverized water-absorbable polymer to noncontinuously form an adhering part; and bonding the surface layer to the core part through the adhering part. Upon absorption of excreted urine, permeation of the urine into the core part is accelerated in a part other than the adhering part.

A method for the treatment, control, minimization, and/or prevention of bovine mastitis including the step of introducing animal bedding into a stall of a cow, wherein the animal bedding includes at least one solvent, and a lignocellulosic fiber, wherein the lignocellulosic fiber has been processed by ruminant digestion and anaerobic digestion.

A pet waste station with pet training features is disclosed. The waste station may include a turf surface and a urine collection funnel for channeling urine into disposable absorbing pads. The pads may be placed in a drawer beneath the funnel, allowing easy removal and replacement of the drawer. Odor control may include a compartment for deodorizers or other air fresheners. A sensor may be provided to activate one or more positive reinforcement rewards when the pet successfully urinates in the waste station, including dispensing of an edible treat and/or playing of an audio snippet, such as an owner's voice praising the pet.

An animal litter composition having enhanced odor reduction properties, and a related method, are disclosed. The animal litter can include a zeolite-based liquid adsorbing material. The animal litter can also include a nanosilicate odor reducing agent that reduces an odor of litter waste, the animal litter composition having a total nanosilicate odor reducing agent content of about 0.5% by weight to about 13% by weight based on the total weight of the animal litter composition.

A transport device structured to carry an animal includes a first component having a handle and a second component having a base and at least a first wall. The first component is structured to be located on the second component to form an enclosed region situated generally between the first and second components. The transport device also includes a cushion apparatus situated adjacent at least one of the base and the at least a first wall and a liquid resistance apparatus located on the second component and that is structured to resist penetration of a liquid from an interior region of the transport device to an exterior region of the transport device.

A pet carrier assembly, including: an upper cage housing; and a lower litter pan coupled to the upper cage housing; wherein the lower litter pan is detachable from the upper cage housing and includes a removable waste grate disposed in a bottom portion thereof. The upper cage housing includes a hinged door structure operable for providing access to an interior portion of the upper cage housing. The upper cage housing includes one or more window grates or arrays of holes operable for providing ventilation to an interior portion of the upper cage housing. The pet carrier assembly also includes one or more coupling mechanisms for coupling the lower litter pan to the upper cage housing. Optionally, the pet carrier assembly further includes a moisture absorbent material disposed between the removable waste grate and a bottom of the lower litter pan.

A method for using treated biochar to reduce the overall environmental impact of farming and minimize the carbon footprint of farms is provided. The method comprising engaging in one or more of the following practices: (1) combining treated biochar with feed or using biochar as feed for animals to reduce methane from enteric fermentation and increase animal health and nutrition; (2) combining treated biochar with compost, animal bedding or manure piles to reduce odor and increase nutrient retention; (3) applying treated biochar to lagoons to reduce odor and treat water; (4) applying treated biochar to pastures to increase pasture health; (5) applying treated biochar to crops to increase crop productivity, healthier roots and prevent fertilizer leaching; and (6) using the carbon negativity of a produced biochar to reduce the overall farm or ranch carbon footprint.

A method for using treated biochar to reduce the overall environmental impact of farming and minimize the carbon footprint of farms is provided. The method comprising engaging in one or more of the following practices: (1) combining treated biochar with feed or using biochar as feed for animals to reduce methane from enteric fermentation and increase animal health and nutrition; (2) combining treated biochar with compost, animal bedding or manure piles to reduce odor and increase nutrient retention; (3) applying treated biochar to lagoons to reduce odor and treat water; (4) applying treated biochar to pastures to increase pasture health; (5) applying treated biochar to crops to increase crop productivity, healthier roots and prevent fertilizer leaching; and (6) using the carbon negativity of a produced biochar to reduce the overall farm or ranch carbon footprint.