The subdivision of the laminated olfactory cortex with only three main layers that receive monosynaptic input from the olfactory bulb via the lateral olfactory tract; it is located bilaterally in the ventrolateral forebrain and is commonly divided into anterior and posterior regions. [ http://www.ncbi.nlm.nih.gov/pubmed/17714095 MP:0010009 ]

Synonyms: cortex piriformis primary olfactory areas

This is just here as a test because I lose it

Term information

database cross reference
Subsets

pheno_slim, human_reference_atlas

latin term
area prepiriformis [ NeuroNames:165 ]

latin term
eupalaeocortex [ NeuroNames:165 ]

latin term
palaeocortex II [ NeuroNames:165 ]

latin term
regio praepiriformis [ NeuroNames:165 ]

depicted by

http://upload.wikimedia.org/wikipedia/commons/b/b1/Human_brainstem_anterior_view_2_description.JPG

has related synonym

primary olfactory cortex

palaeocortex II

pyriform lobe

eupalaeocortex

paleopallium

area prepiriformis

piriform lobe

olfactory pallium

piriform area

regio praepiriformis

pyriform cortex

id

UBERON:0004725

present in taxon

http://purl.obolibrary.org/obo/NCBITaxon_9606

taxon notes

Piriform cortical regions are present in the brains of amphibians, reptiles and mammals. The piriform cortex is among three areas that emerge in the telencephalon of amphibians, situated caudally to a dorsal area, which is caudal to a hippocampal area. Farther along the phylogenic timeline, the telencephalic bulb of reptiles as viewed in a cross section of the transverse plane extends with the archipallial hippocampus folding toward the midline and down as the dorsal area begins to form a recognizable cortex. As mammalian cerebrums developed, volume of the dorsal cortex increased in slightly greater proportion, as compared proportionally with increased overall brain volume, until it enveloped the hippocampal regions. Recognized as neopallium or neocortex, enlarged dorsal areas envelop the paleopallial piriform cortex in humans and Old World monkeys. Among taxonomic groupings of mammals, the piriform cortex and the olfactory bulb become proportionally smaller in the brains of phylogenically younger species. The piriform cortex occupies a greater proportion of the overall brain and of the telencephalic brains of insectivores than in primates. The piriform cortex continues to occupy a consistent albeit small and declining proportion of the increasingly large telencephalon in the most recent primate species while the volume of the olfactory bulb becomes less in proportion