Abstract
Abstract. Larvae of most stadia of Calopteryx splendens (Harris) have been shown to pump water in and out of the rectum for much of the time. In each cycle of pumping there are from three to seven inhalant stokes which progressively fill the ileum with water. A short pause intervenes before a strong compression of segments 5–8 expels the water in a jet. The pattern resembles the gulping ventilation of aeshnid and libellulid dragonfly larvae. Larvae made hypoxic or otherwise stressed show a rise in the frequency and amplitude of pumping. The increase in frequency is brought about by a reduction of the pause duration, while the gain of amplitude results from a rise in both the number of inhalations/cycle and the magnitude of the stroke volume of each inhalation. Some evidence concerning the role of stretch receptors in the execution of the cycle is presented. It is proposed that rectal pumping promotes the exchange of ions and dissolved gases between the rectal water and the hindgut epithelia, supplying mainly the chloride‐absorbing cells in the rectal pads. Pumping also stirs the water in the vicinity of the caudal lamellae which are probably the insect's major sites of gaseous exchange.
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