Spiracle (arthropods)
A spiracle or stigma is the opening in the exoskeletons of insects, myriapods, velvet worms and many arachnids to allow air to enter the trachea.[1][2][3] In the respiratory system of insects, the tracheal tubes primarily deliver oxygen directly into the animals' tissues. In most species the spiracles can be opened and closed in an efficient manner to admit air while reducing water loss. In various species, this is done by a wide range of mechanisms, such as elastic closure, and closer muscles surrounding the spiracle or kinking the tube. In some the muscle relaxes to open the spiracle, in others to close it. [4] The closer muscle is controlled by the central nervous system, but can also react to localized chemical stimuli. Several aquatic insects have similar or alternative closing methods to prevent water from entering the trachea. The timing and duration of spiracle closures can affect the respiratory rates of the organism.[5] Spiracles may also be surrounded by hairs to minimize bulk air movement around the opening, and thus minimize water loss.
In larger insects, spiracle control is more complex and critical for managing gas exchange due to their higher metabolic demands. Larger insects, such as locusts and some beetles, exhibit active ventilation, where spiracle control works in concert with abdominal movements. These abdominal contractions force air in and out of the tracheal system, and the spiracles open and close in a synchronized manner to maximize oxygen intake and carbon dioxide expulsion. This active process allows these insects to regulate their internal environment more precisely, especially during periods of high activity, such as flight. Research has shown that neural circuits in the insect's central nervous system adjust the spiracle opening in response to carbon dioxide concentration, ensuring efficient gas exchange and preventing hypoxia or hypercapnia.
Most myriapods have paired lateral spiracles similar to those of insects. Scutigeromorph centipedes are an exception, having unpaired, non-closable spiracles at the posterior edges of tergites.[2]
Velvet worms have tiny spiracles scattered over the surface of the body and linked to unbranched tracheae. There can be as many as 75 spiracles on a body segment. They are most abundant on the dorsal surface. They cannot be closed, which means velvet worms easily lose water and thus are restricted to living in humid habitats.[3]
Although all insects have spiracles, only some arachnids have them. Some spiders such as orb weavers and wolf spiders have spiracles. Ancestrally, spiders have book lungs, not trachea. However, some spiders evolved a tracheal system independently of the tracheal system in insects, which includes independent evolution of the spiracles as well. These spiders retained their book lungs, however, so they have both.[6][7] Harvestmen, camel spiders, ricinuleids, mites, and pseudoscorpions all breathe through a tracheal system and lack book lungs.
Literature
[edit]- Chapman, R.F. (1998): The Insects, Cambridge University Press
References
[edit]- ^ Solomon, Eldra, Linda Berg, Diana Martin (2002): Biology. Brooks/Cole
- ^ a b Hilken, Gero; Rosenberg, Jörg; Edgecombe, Gregory D.; Blüml, Valentin; Hammel, Jörg U.; Hasenberg, Anja; Sombke, Andy (2021). "The tracheal system of scutigeromorph centipedes and the evolution of respiratory systems of myriapods". Arthropod Structure & Development. 60: 101006. Bibcode:2021ArtSD..6001006H. doi:10.1016/j.asd.2020.101006. PMID 33246291. S2CID 227191511.
- ^ a b "Untitled 1". lanwebs.lander.edu. Retrieved 6 February 2023.
- ^ Imms' General Textbook of Entomology: Volume 1: Structure, Physiology and Development Volume 2: Classification and Biology. Berlin: Springer. 1977. ISBN 0-412-61390-5.
- ^ Wilmer, Pat, Graham Stone, and Ian Johnston (2005). Environmental Physiology of Animals. United Kingdom: Blackwell Publishing. pp. 171–172. ISBN 9781405107242.
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: CS1 maint: multiple names: authors list (link) - ^ "How Do Spiders Breathe?". Sciencing. Retrieved 6 June 2021.
- ^ Schmitz, Anke (May 2016). "Respiration in spiders (Araneae)". Journal of Comparative Physiology B: Biochemical, Systemic, and Environmental Physiology. 186 (4): 403–415. doi:10.1007/s00360-016-0962-8. ISSN 1432-136X. PMID 26820263. S2CID 16863495.