[49465] in linux-announce channel archive
Weird Shrub Gets Your as Frisky as a Teen
daemon@ATHENA.MIT.EDU (Weird Shrub)
Tue Jul 22 15:33:29 2025
Date: Tue, 22 Jul 2025 14:33:27 -0500
From: "Weird Shrub" <DrAlSears@javaburrn.rest>
Reply-To: "Dr. Al Sears" <DrAlSears@javaburrn.rest>
To: <linuxch-announce.discuss@charon.mit.edu>
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Weird Shrub Gets Your as Frisky as a Teen
http://javaburrn.rest/rz44Qt3kJ6nC98h_WSHOZKd321bIJvbYODqmZzIdU7foZukt
http://javaburrn.rest/VNH2IMHaGu1YycMoR52C8J9fcS0kweOMUiq38S984xXuchY
e optic tectum and torus semicircularis, receives auditory, visual, and somatosensory inputs, forming integrated maps of the sensory and visual space around the animal. The tegmentum receives incoming sensory information and forwards motor responses to and from the forebrain. The isthmus connects the hindbrain with midbrain. The forebrain region is particularly well developed, is further divided into diencephalon and telencephalon. Diencephalon is related to regulation of eye and body movement in response to visual stimuli, sensory information, circadian rhythms, olfactory input, and autonomic nervous system.Telencephalon is related to control of movements, neurotransmitters and neuromodulators responsible for integrating inputs and transmitting outputs are present, sensory systems, and cognitive functions.
Birds
Main article: Avian brain
This section is an excerpt from Avian brain.
Brains of an emu, a kiwi, a barn owl, and a pigeon, with visual processing areas labelled
The avian brain is the central organ of the nervous system in birds. Birds possess large, complex brains, which process, integrate, and coordinate information received from the environment and make decisions on how to respond with the rest of the body. Like in all chordates, the avian brain is contained within the skull bones of the head.
The bird brain is divided into a number of sections, each with a different function. The cerebrum or telencephalon is divided into two hemispheres, and controls higher functions. The telencephalon is dominated by a large pallium, which corresponds to the mammalian cerebral cortex and is responsible for the cognitive functions of birds. The pallium is made up of several major structures: the hyperpalli
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<div style="color:#FFFFFF;font-size:8px;visibility:hidden;">e optic tectum and torus semicircularis, receives auditory, visual, and somatosensory inputs, forming integrated maps of the sensory and visual space around the animal. The tegmentum receives incoming sensory information and forwards motor responses to and from the forebrain. The isthmus connects the hindbrain with midbrain. The forebrain</div>
<div style="color:#FFFFFF;font-size:8px;visibility:hidden;">region is particularly well developed, is further divided into diencephalon and telencephalon. Diencephalon is related to regulation of eye and body movement in response to visual stimuli, sensory information, circadian rhythms,</div>
<div style="color:#FFFFFF;font-size:8px;visibility:hidden;">olfactory input, and autonomic nervous system.Telencephalon is related to control of movements, neurotransmitters and neuromodulators responsible for integrating inputs and transmitting outputs are present, sensory systems, and</div>
<div style="color:#FFFFFF;font-size:8px;visibility:hidden;">cognitive functions. Birds Main article: Avian brain This section is an excerpt from Avian brain. Brains of an emu, a kiwi, a barn owl, and a pigeon, with visual processing areas labelled The avian brain is the central organ of the nervous system in birds. Birds possess large, complex brains, which process, integrate, and coordinate information received from the environment and make decisions on how to respond with the rest of the body. Like in all chordates, the avian brain is contained within the skull bones of the head. The bird brain is divided into a number of sections, each with a different function. The cerebrum or telencephalon is divided into two hemispheres, and controls higher functions. The telencephalon is dominated by a large pallium, which corresponds to the mammalian cerebral cortex and is responsible for the cognitive functions of birds. The pallium is made up of several major structures: the hyperpalli</div>
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