TY - JOUR
T1 - Convergent evolution of the vestibular organ in the subterranean mole‐rats, Cryptomys and Spalax, as compared with the aboveground rat, Rattus
AU - Lindenlaub, Thies
AU - Burda, Hynek
AU - Nevo, Eviatar
PY - 1995/6
Y1 - 1995/6
N2 - The membranous labyrinth of the vestibular organ (examined in toto) in two unrelated species of subterranean rodents, Cryptomys sp. from Zambia and Spalax ehrenbergi from Israel, was in many parameters (streamline length, curvature radius, and cross‐sectional area of the lumen) relatively or even absolutely (especially the cross‐sectional area) larger than in the laboratory Norway rat. The mechanical sensitivity of the vestibular organ (estimated according to the mathematical model of Oman et al., [1987] Acta. Otolaryngol (Stockh.) 103:1–13) was similar in both subterranean rodent species and significantly higher than that in the laboratory rat. The most pronounced differences in morphometry and the resulting mechanical sensitivity between the subterranean forms and the rat occurred in the lateral (i.e., phylogenetically and ontogenetically most recent and presumably most plastic) semicircular duct. The area of the sensory epithelia, and density and total numbers of vestibular receptors, were estimated on surface specimens for both maculae and for all three cristae for all three species. While the density of hair cells in comparable sensory epithelia was similar in all three species, the sensory area and thus, also, the total receptor counts were significantly larger in both subterranean forms. The peripheral vestibular organ in subterranean rodents is, in comparison to a generalized aboveground dwelling form, i.e., the rat, progressively specialized, and in any case cannot be denoted as degenerate. © 1995 Wiley‐Liss, Inc.
AB - The membranous labyrinth of the vestibular organ (examined in toto) in two unrelated species of subterranean rodents, Cryptomys sp. from Zambia and Spalax ehrenbergi from Israel, was in many parameters (streamline length, curvature radius, and cross‐sectional area of the lumen) relatively or even absolutely (especially the cross‐sectional area) larger than in the laboratory Norway rat. The mechanical sensitivity of the vestibular organ (estimated according to the mathematical model of Oman et al., [1987] Acta. Otolaryngol (Stockh.) 103:1–13) was similar in both subterranean rodent species and significantly higher than that in the laboratory rat. The most pronounced differences in morphometry and the resulting mechanical sensitivity between the subterranean forms and the rat occurred in the lateral (i.e., phylogenetically and ontogenetically most recent and presumably most plastic) semicircular duct. The area of the sensory epithelia, and density and total numbers of vestibular receptors, were estimated on surface specimens for both maculae and for all three cristae for all three species. While the density of hair cells in comparable sensory epithelia was similar in all three species, the sensory area and thus, also, the total receptor counts were significantly larger in both subterranean forms. The peripheral vestibular organ in subterranean rodents is, in comparison to a generalized aboveground dwelling form, i.e., the rat, progressively specialized, and in any case cannot be denoted as degenerate. © 1995 Wiley‐Liss, Inc.
UR - http://www.scopus.com/inward/record.url?scp=0029310640&partnerID=8YFLogxK
U2 - 10.1002/jmor.1052240305
DO - 10.1002/jmor.1052240305
M3 - Article
C2 - 7595956
AN - SCOPUS:0029310640
SN - 0362-2525
VL - 224
SP - 303
EP - 311
JO - Journal of Morphology
JF - Journal of Morphology
IS - 3
ER -