Abstract
Water shrews (Sorex palustris) depend heavily on their elaborate whiskers to navigate their environment and locate prey. They have small eyes and ears with correspondingly small optic and auditory nerves. Previous investigations have shown that water shrew neocortex is dominated by large representations of the whiskers in primary and secondary somatosensory cortex (S1 and S2). Flattened sections of juvenile cortex processed for cytochrome oxidase revealed clear borders of the whisker pad representation in S1, but no cortical barrels. We were therefore surprised to discover prominent barrelettes in brainstem of juvenile water shrews in the present investigation. These distinctive modules were found in the principal trigeminal nucleus (PrV), and in two of the three spinal trigeminal subnuclei (interpolaris – SpVi and caudalis – SpVc). Analysis of the shrew's whisker pad revealed the likely relationship between whiskers and barrelettes. Barrelettes persisted in adult water shrew PrV, but barrels were also absent from adult cortex. Thus in contrast to mice and rats, which have obvious barrels in primary somatosensory cortex and less clear barrelettes in the principal nucleus, water shrews have clear barrelettes in the brainstem and no barrels in the neocortex. These results highlight the diverse ways that similar mechanoreceptors can be represented in the central nervous systems of different species.
Highlights
The American water shrew (Sorex palustris) is a remarkable small mammal that dives into streams and ponds at night as it searches for prey
One of the longstanding mysteries about this species was how it navigates and detects prey, especially given its nocturnal foraging habits [1]. With this question in mind, we previously investigated their behavior, senses, and cortical organization [2,3,4,5]
The brainstem trigeminal complex was visible on both sides just caudal to the entrance of the paired trigeminal nerves (V)
Summary
The American water shrew (Sorex palustris) is a remarkable small mammal that dives into streams and ponds at night as it searches for prey It is the smallest mammalian diver, typically weighing only 10–12 grams, yet it is an aggressive predator that will feed on virtually any prey item that it can overpower. In the case of stationary prey, water shrews use their whiskers to rapidly discriminate cast silicone model fish from other shapes [3]. They can use olfaction underwater by exhaling air onto objects they are exploring and re-inhaling the same air bubbles [2]. This latter ability allows them to follow a submerged scent trail
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