Zuri I, Terkel J
Department of Anatomy & Cell Biology, State University of New York Health Science Center at Brooklyn, 11203-2098, USA.
J Anat. 2001 Nov;199(Pt 5):591-8. doi: 10.1046/j.1469-7580.2001.19950591.x.
Blind mole-rats (Spalax ehrenbergi) are fossorial solitary rodents that present striking morphological, physiological and behavioural adaptations to the subterranean environment in which they live. Previous studies have shown that mole-rats are specialised in tooth-digging. The rapid eruption-rate of their incisors has evolved to compensate for their excessive wear by excavation. Males use their incisors more than females for digging and fighting, and their rate of incisor eruption is significantly more rapid than in females. Since mole-rats use their incisors for digging throughout the year, we suggest that continuous mechanical pressure on their oral tissues concentrated at the apical sites of the upper incisors leads to cell and tissue fatigue. We provide evidence for 5 stages of palatal perforation by the upper incisors at their apical sites, with maximum perforation characterising aged males. Interspecies comparisons with 7 other fossorial and semi-fossorial rodent species, and with beavers, which expose their incisors to enormous mechanical pressure, revealed that this palatal perforation is unique to the male mole-rat. We suggest that while the fast eruption rate of incisors in the mole-rat compensates for the rapid wear resulting from digging, evolutionary adaptation to continuous tooth-digging is still ongoing, since the physical pressure of digging at the apical sites of the upper incisors leads to tissue destruction, breakage of the palatal bone and possibly to death, as a result of maxillary inflammation.
盲鼹鼠(Spalax ehrenbergi)是穴居独居的啮齿动物,它们在形态、生理和行为上对所生活的地下环境表现出显著的适应性。先前的研究表明,鼹鼠擅长用牙齿挖掘。它们门齿快速的萌出率已经进化到足以补偿挖掘造成的过度磨损。雄性在挖掘和争斗中比雌性更多地使用门齿,并且它们门齿的萌出速度明显比雌性更快。由于鼹鼠全年都用门齿挖掘,我们认为,集中在上颌门齿根尖部位的口腔组织持续受到机械压力会导致细胞和组织疲劳。我们提供了证据,证明上颌门齿在其根尖部位导致腭穿孔有5个阶段,穿孔程度最大的是老年雄性。与其他7种穴居和半穴居啮齿动物物种以及海狸(海狸的门齿会承受巨大的机械压力)进行种间比较后发现,这种腭穿孔是雄性盲鼹鼠独有的。我们认为,虽然鼹鼠门齿快速的萌出率补偿了挖掘造成的快速磨损,但对持续用牙齿挖掘的进化适应仍在进行中,因为在上颌门齿根尖部位挖掘产生的物理压力会导致组织破坏、腭骨断裂,甚至可能因上颌炎症而死亡。