Comparison of turnover in the olfactory organ of early juvenile stage and adult Caribbean spiny lobsters.

Proliferation and turnover of neurons occurs in the olfactory systems of many animals. In this study, we examined developmental changes in turnover in the olfactory organ of the Caribbean spiny lobster Panulirus argus by examining two life-history stages-early juveniles and young adults. Turnover was compared using external morphology of the olfactory organ before and after molting to determine addition and loss of aesthetascs and other chemosensilla, and BrdU labeling to identify newly proliferated cells. The number of olfactory receptor neurons (ORNs) innervating each aesthetasc increased only slightly over development, but there was a net increase of olfactory sensory units (i.e. aesthetascs and their ORNs) at each molt. This increase was similar in early juveniles and young adults when expressed as absolute number of ORNs neurons but greater in early juveniles when expressed as a proportion of existing ORNs. The net increase in olfactory sensory units in early juveniles is due solely to addition, since virtually no aesthetascs are lost. In contrast, the net increase in olfactory sensory units in adults reflects addition of new units accompanied by considerable loss of old units. These developmental changes result in expansive enlargement of the olfactory organ without turnover in early juveniles, and a more modest growth combined with continuous turnover and replenishment of ORNs in adults.