In biology, a nymph (from Ancient Greek νύμφα nūmphē meaning "bride") is the juvenile form of some invertebrates, particularly insects, which undergoes gradual metamorphosis (hemimetabolism) before reaching its adult stage.[1] Unlike a typical larva, a nymph's overall form already resembles that of the adult, except for a lack of wings (in winged species) and the emergence of genitalia. In addition, while a nymph moults, it never enters a pupal stage. Instead, the final moult results in an adult insect.[2] Nymphs undergo multiple stages of development called instars.
Species with nymph stages
editMany species of arthropods have nymph stages. This includes the orders Orthoptera (crickets, grasshoppers and locusts), Hemiptera (cicadas, shield bugs, whiteflies, aphids, leafhoppers, froghoppers, treehoppers), mayflies, termites, cockroaches, mantises, stoneflies and Odonata (dragonflies and damselflies).[3]
Nymphs of aquatic insects, as in the Odonata, Ephemeroptera, and Plecoptera orders, are also called naiads, an Ancient Greek name for mythological water nymphs. Some entomologists have said that the terms larva, nymph and naiad[4] should be used according to the developmental mode classification (hemimetabolous, paurometabolous or holometabolous) but others have pointed out that there is no real confusion.[5] In older literature, these were sometimes referred to as the heterometabolous insects, as their adult and immature stages live in different environments (terrestrial vs. aquatic).[6]
Second Egg Hypothesis
editIn 1628, English physician William Harvey published An Anatomical Disquisition on the Motion of the Heart and Blood in Animals. In his writing, Harvey hypothesized that the pupal stage in insects was the result of imperfect eggs.[2] While some eggs produced smaller versions of fully-matured insects known as nymphs, others created intermediate forms. Thus, these intermediate forms must go through a second egg stage to reach their adult form. This hypothesis attempts to explain the developmental differences between hemimetabolous and holometabolous metamorphosis. Though there is little evidence supporting Harvey's hypothesis, it is still significant to modern research in nymphs.[how?]
Relationship with humans
editIn fly fishing with artificial flies, this stage of aquatic insects is the basis for an entire series of representative patterns for trout.[7] They account for over half of the fishing fly patterns regularly used in the United States.
References
edit- ^ Encyclopedia of Entomology Ed. John L. Capinera. Dordrecht, London, Springer. 2008, 2nd Ed. ISBN 978-1-4020-6242-1 (Print) 978-1-4020-6359-6 (Online)
- ^ a b Truman, James (1999). "The origins of insect metamorphosis". Nature. 401 (6752): 447–52. Bibcode:1999Natur.401..447T. doi:10.1038/46737. PMID 10519548. S2CID 4327078. Archived from the original on 2014-01-31.
- ^ Britton, David (9 July 2009). "Metamorphosis: a remarkable change". Australian Museum. Retrieved 13 July 2015.
- ^ Bybee, Seth M.; Hansen, Quinn; Büsse, Sebastian; Cahill Wightman, Haley M.; Branham, Marc A. (2015). "For consistency's sake: the precise use of larva, nymph and naiad within Insecta: The use of larva, nymph and naiad within Insecta". Systematic Entomology. 40 (4): 667–670. doi:10.1111/syen.12136. S2CID 83922500.
- ^ Redei, David; Stys, Pavel (July 2016). "Larva, nymph and naiad - for accuracy's sake". Systematic Entomology. 41 (3): 505–510. Bibcode:2016SysEn..41..505R. doi:10.1111/syen.12177. ISSN 0307-6970. S2CID 87053533.
- ^ Tutt, J. W. (1897). "The Nature of Metamorphosis". Proceedings of the South London Entomological & Natural History Society: 20–27. Retrieved 17 August 2020.
- ^ Austin, Matthew (2004). "Nymph patterns of flies". San Diego: theflystop.com.
External links
edit- Media related to Nymphs (biology) at Wikimedia Commons