Schizophora: Difference between revisions
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The defining feature of the Schizophora is the presence of a special structure used to help the emerging adult fly break free of the [[puparium]]; this structure is an inflatable membranous sac called the [[ptilinum]] that protrudes from the face, above the [[antenna (biology)|antennae]]. The inflation of the ptilinum (using fluid [[hemolymph]] rather than air) creates pressure along the line of weakness in the puparium, which then bursts open along the seam to allow the adult to escape. When the adult emerges, the fluid is withdrawn, the ptilinum collapses, and the membrane retracts entirely back inside the head. The large, inverted, U-shaped suture in the face through which it came, however, is still quite visible, and the name "Schizophora" ("split-bearers") is derived from this ptilinal or frontal suture. The term was first used by [[Eduard Becher]]. |
The defining feature of the Schizophora is the presence of a special structure used to help the emerging adult fly break free of the [[puparium]]; this structure is an inflatable membranous sac called the [[ptilinum]] that protrudes from the face, above the [[antenna (biology)|antennae]]. The inflation of the ptilinum (using fluid [[hemolymph]] rather than air) creates pressure along the line of weakness in the puparium, which then bursts open along the seam to allow the adult to escape. When the adult emerges, the fluid is withdrawn, the ptilinum collapses, and the membrane retracts entirely back inside the head. The large, inverted, U-shaped suture in the face through which it came, however, is still quite visible, and the name "Schizophora" ("split-bearers") is derived from this ptilinal or frontal suture. The term was first used by [[Eduard Becher]]. |
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In contrast to eggs of other arthropods, most insect eggs are drought-resistant, because inside the maternal [[chorion]], two additional membranes develop from embryonic tissue, the [[amnion]] and the [[serosa]]. This serosa secretes a [[cuticle]] rich in [[chitin]] that protects the embryo against desiccation. In the Schizophora, however, the serosa does not develop, but these flies lay their eggs in damp places, such as rotting organic matter.<ref>{{ |
In contrast to eggs of other arthropods, most insect eggs are drought-resistant, because inside the maternal [[chorion]], two additional membranes develop from embryonic tissue, the [[amnion]] and the [[serosa]]. This serosa secretes a [[cuticle]] rich in [[chitin]] that protects the embryo against desiccation. In the Schizophora, however, the serosa does not develop, but these flies lay their eggs in damp places, such as rotting organic matter.<ref>{{Cite journal |last=Jacobs |first=Chris G. C. |last2=Rezende |first2=Gustavo L. |last3=Lamers |first3=Gerda E. M. |last4=van der Zee |first4=Maurijn |date=2013-08-07 |title=The extraembryonic serosa protects the insect egg against desiccation |url=https://royalsocietypublishing.org/doi/10.1098/rspb.2013.1082 |journal=Proceedings of the Royal Society B: Biological Sciences |language=en |volume=280 |issue=1764 |pages=20131082 |doi=10.1098/rspb.2013.1082 |issn=0962-8452 |pmc=PMC3712428 |pmid=23782888}}</ref> |
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The absence of schizophoran flies from [[Cretaceous]] rocks implies that they likely rapidly diversified during the [[Cenozoic]], with the first appearance of the group during the early [[Paleogene]].<ref>{{ |
The absence of schizophoran flies from [[Cretaceous]] rocks implies that they likely rapidly diversified during the [[Cenozoic]], with the first appearance of the group during the early [[Paleogene]].<ref>{{Cite journal |last=Bayless |first=Keith M. |last2=Trautwein |first2=Michelle D. |last3=Meusemann |first3=Karen |last4=Shin |first4=Seunggwan |last5=Petersen |first5=Malte |last6=Donath |first6=Alexander |last7=Podsiadlowski |first7=Lars |last8=Mayer |first8=Christoph |last9=Niehuis |first9=Oliver |last10=Peters |first10=Ralph S. |last11=Meier |first11=Rudolf |last12=Kutty |first12=Sujatha Narayanan |last13=Liu |first13=Shanlin |last14=Zhou |first14=Xin |last15=Misof |first15=Bernhard |date=2021-12 |title=Beyond Drosophila: resolving the rapid radiation of schizophoran flies with phylotranscriptomics |url=https://bmcbiol.biomedcentral.com/articles/10.1186/s12915-020-00944-8 |journal=BMC Biology |language=en |volume=19 |issue=1 |doi=10.1186/s12915-020-00944-8 |issn=1741-7007 |pmc=PMC7871583 |pmid=33557827}}</ref> |
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== References == |
== References == |
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Revision as of 03:42, 13 October 2024
| Schizophora Temporal range:
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|---|---|
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| Marsh fly (Sciomyzidae) | |
Scientific classification 
| |
| Domain: | Eukaryota |
| Kingdom: | Animalia |
| Phylum: | Arthropoda |
| Class: | Insecta |
| Order: | Diptera |
| (unranked): | Cyclorrhapha |
| Section: | Schizophora Becher, 1882 |
| Subsections | |
The Schizophora are a section of true flies containing 78 families, which are collectively referred to as muscoids, although technically the term "muscoid" should be limited to flies in the superfamily Muscoidea; this is an example of informal, historical usage persisting in the vernacular. The section is divided into two subsections, the Acalyptratae and Calyptratae, which are commonly referred to as acalyptrate muscoids and calyptrate muscoids, respectively.
The defining feature of the Schizophora is the presence of a special structure used to help the emerging adult fly break free of the puparium; this structure is an inflatable membranous sac called the ptilinum that protrudes from the face, above the antennae. The inflation of the ptilinum (using fluid hemolymph rather than air) creates pressure along the line of weakness in the puparium, which then bursts open along the seam to allow the adult to escape. When the adult emerges, the fluid is withdrawn, the ptilinum collapses, and the membrane retracts entirely back inside the head. The large, inverted, U-shaped suture in the face through which it came, however, is still quite visible, and the name "Schizophora" ("split-bearers") is derived from this ptilinal or frontal suture. The term was first used by Eduard Becher.
In contrast to eggs of other arthropods, most insect eggs are drought-resistant, because inside the maternal chorion, two additional membranes develop from embryonic tissue, the amnion and the serosa. This serosa secretes a cuticle rich in chitin that protects the embryo against desiccation. In the Schizophora, however, the serosa does not develop, but these flies lay their eggs in damp places, such as rotting organic matter.[1]
The absence of schizophoran flies from Cretaceous rocks implies that they likely rapidly diversified during the Cenozoic, with the first appearance of the group during the early Paleogene.[2]
References
- ^ Jacobs, Chris G. C.; Rezende, Gustavo L.; Lamers, Gerda E. M.; van der Zee, Maurijn (2013-08-07). "The extraembryonic serosa protects the insect egg against desiccation". Proceedings of the Royal Society B: Biological Sciences. 280 (1764): 20131082. doi:10.1098/rspb.2013.1082. ISSN 0962-8452. PMC 3712428. PMID 23782888.
{{cite journal}}: CS1 maint: PMC format (link) - ^ Bayless, Keith M.; Trautwein, Michelle D.; Meusemann, Karen; Shin, Seunggwan; Petersen, Malte; Donath, Alexander; Podsiadlowski, Lars; Mayer, Christoph; Niehuis, Oliver; Peters, Ralph S.; Meier, Rudolf; Kutty, Sujatha Narayanan; Liu, Shanlin; Zhou, Xin; Misof, Bernhard (2021-12). "Beyond Drosophila: resolving the rapid radiation of schizophoran flies with phylotranscriptomics". BMC Biology. 19 (1). doi:10.1186/s12915-020-00944-8. ISSN 1741-7007. PMC 7871583. PMID 33557827.
{{cite journal}}: Check date values in:|date=(help)CS1 maint: PMC format (link) CS1 maint: unflagged free DOI (link)