A method for non-surgical neutering or castration of a non-human mammal for AAV-mediated delivery of an anti-GnRH polypeptide to a non-human animal is described. More particularly, the animal is administered an adeno-associated virus (AAV) vector having an AAV capsid having packaged therein nucleic acid sequences comprising an AAV 5′ inverted terminal repeat (ITR), a sequence encoding a polypeptide which specifically binds gonadotropin releasing hormone (GnRH) under control of regulatory sequences which direct expression of the polypeptide, and an AAV 3′ ITR. A composition comprising the AAV-anti-GnRH may also be used for inhibiting tumor growth in a mammal with a cancer responsive to gonadal steroid hormones.

Embodiments of the present disclosure provide systems, apparatuses and methods for regulation hormone production in mammals. Examples include but are not limited to by creating electro-magnetic wave emission pulse trains (photons) of individual color spectrums in sufficient intensity to drive hormone production in a mammal, using a characteristic frequency or pattern to minimize the required input power necessary to regulate hormone production, while also allowing for the monitoring of the power consumption and other variables of the system. By controlling the duty cycle, intensity, wavelength band and frequency of photon signals to a mammal, production of specific hormones can be regulated through the cycling between blue, green, yellow, near-red, far-red, infrared and ultra violet photon modulation.

Embodiments of the present disclosure provide systems, apparatuses and methods for regulation hormone production in mammals. Examples include but are not limited to by creating electro-magnetic wave emission pulse trains (photons) of individual color spectrums in sufficient intensity to drive hormone production in a mammal, using a characteristic frequency or pattern to minimize the required input power necessary to regulate hormone production, while also allowing for the monitoring of the power consumption and other variables of the system. By controlling the duty cycle, intensity, wavelength band and frequency of photon signals to a mammal, production of specific hormones can be regulated through the cycling between blue, green, yellow, near-red, far-red, infrared and ultra violet photon modulation.

A breeding prevention guard comprises a girth strap around the body of an animal and an apron suspended from the girth strap. A sternal strap connected between a neck strap and the girth strap maintain the girth strap and apron in the desired location. Some embodiments may employ a back strap to shape the apron. Some embodiments may employ a second girth strap and a second apron. Some embodiments may employ two girth straps with a single apron suspended from the rearward girth strap. Some embodiments may comprise an additional sternal strap for animals having a more highly convex chest. In those embodiments, the two sternal straps would pass down opposite sides of the chest of the animal.

A breeding prevention guard comprises a girth strap around the body of an animal and an apron suspended from the girth strap. A sternal strap connected between a neck strap and the girth strap maintain the girth strap and apron in the desired location. Some embodiments may employ a back strap to shape the apron. Some embodiments may employ a second girth strap and a second apron. Some embodiments may employ two girth straps with a single apron suspended from the rearward girth strap. Some embodiments may comprise an additional sternal strap for animals having a more highly convex chest. In those embodiments, the two sternal straps would pass down opposite sides of the chest of the animal.

Embodiments of the present disclosure provide systems, apparatuses and methods for regulation hormone production in mammals. Examples include but are not limited to by creating electro-magnetic wave emission pulse trains (photons) of individual color spectrums in sufficient intensity to drive hormone production in a mammal, using a characteristic frequency or pattern to minimize the required input power necessary to regulate hormone production, while also allowing for the monitoring of the power consumption and other variables of the system. By controlling the duty cycle, intensity, wavelength band and frequency of photon signals to a mammal, production of specific hormones can be regulated through the cycling between blue, green, yellow, near-red, far-red, infrared and ultra violet photon modulation.

Embodiments of the present disclosure provide systems, apparatuses and methods for regulation hormone production in mammals. Examples include but are not limited to by creating electro-magnetic wave emission pulse trains (photons) of individual color spectrums in sufficient intensity to drive hormone production in a mammal, using a characteristic frequency or pattern to minimize the required input power necessary to regulate hormone production, while also allowing for the monitoring of the power consumption and other variables of the system. By controlling the duty cycle, intensity, wavelength band and frequency of photon signals to a mammal, production of specific hormones can be regulated through the cycling between blue, green, yellow, near-red, far-red, infrared and ultra violet photon modulation.

Use of a device D in agricultural applications, forestry or home and garden applications, wherein said device D is used for dispensing in the air, as a vapor, an active ingredient that is liquid at ambient temperature, wherein device D contains: —an aeration system that contains a pipe (2, 4, 510) opening into the open air and is configured to allow an airflow to pass through the pipe; —at least one distributor member (8, 208) that is in fluid connection with a storage container and is intended to be supplied with a liquid active ingredient from said storage container, said distributor member containing a porous body (8, 208) that contains micro-channels forming an outlet arranged in said pipe in order to constitute an evaporation zone for the active ingredient therein, wherein the pores present in said porous body are at least a part of the micro-pipes of the distributor member; —a heating member (11, 211, 132) arranged on or in the distributor member so as to control a flow of the active ingredient through the distributor member.

A method is provided, wherein the eggs which are pre-incubated in setter trays are transferred to the poultry house in these setter trays. In the poultry house, a layer of insulating covering material is provided on the floor of the poultry house, in one or more strips. The covering material comprises, in particular, litter which is applied in a layer thickness of at least 2 cm. By a set of egg pickup members of a transfer machine, the pre-incubated eggs are removed in the poultry house from the setter trays, after which they are positioned on the covering material by the transfer machine. In this way, the eggs can be placed in the poultry house efficiently, with a minimal risk of damage to the eggs a high hatching rate being ensured.

Embodiments of the present disclosure provide systems, apparatuses and methods for regulation hormone production in mammals. Examples include but are not limited to by creating electro-magnetic wave emission pulse trains (photons) of individual color spectrums in sufficient intensity to drive hormone production in a mammal, using a characteristic frequency or pattern to minimize the required input power necessary to regulate hormone production, while also allowing for the monitoring of the power consumption and other variables of the system. By controlling the duty cycle, intensity, wavelength band and frequency of photon signals to a mammal, production of specific hormones can be regulated through the cycling between blue, green, yellow, near-red, far-red, infrared and ultra violet photon modulation.