1. Role of maxilla 2 and its setae during feeding in the shrimp Palaemon adspersus (crustacea: decapoda)
- Author
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Garm, A., Hallberg, E., and Hoeg, J. T.
- Subjects
Biological research -- Analysis -- Research -- Usage -- Physiological aspects ,Biology, Experimental -- Analysis -- Research -- Usage -- Physiological aspects ,Shrimps -- Physiological aspects -- Usage -- Analysis -- Research ,Morphology -- Research -- Usage -- Analysis -- Physiological aspects ,Maxilla -- Physiological aspects -- Usage -- Research -- Analysis ,Electron microscopy -- Usage -- Physiological aspects -- Analysis -- Research ,Developmental biology -- Research -- Usage -- Physiological aspects -- Analysis ,Biological sciences ,Physiological aspects ,Analysis ,Usage ,Research - Abstract
The movements of the basis of maxilla 2 in Palaemon adspersus were examined using macro-video recordings, and the morphology of its setae was examined using both scanning and transmission electron microscopy. The basis of maxilla 2 performs stereotypical movements in the latero-medial plane and gently touches the food with a frequency of 3-5 Hz. The medial rim of the basis of maxilla 2 carries three types of seta. Type 1 is serrate, type 2 and 3 are serrulate, and type 2 has a prominent terminal pore. Type 2 is innervated by 18-25 sensory cells whose cilia protrude through the terminal pore and are in direct contact with the external environment. The structure of type 2 setae indicates that they are mainly gustatory, although still bimodal due to their innervation by presumed chemosensory and mechanosensory neurons. Distally, the three types of setae have a complex arrangement of the cuticle involving water-filled canals, which may serve to improve flexibility. Type 1 and 3 setae have fewer sensory cells (4-9) but probably also have a bimodal sensory function. The function of type 1 setae is probably to protect type 2 setae, while type 3 setae might serve to groom the ventral side of the basis of maxilla 1., Introduction The decapod mouth apparatus comprises six pairs of limbs, which have as many as 40 parts capable of independent movement (Garm and H0eg, 2001). The parts, which are arranged [...]
- Published
- 2003