Changes in segmentation and setation along the anterior/posterior axis of the homonomous trunk limbs of a remipede (Crustacea, Arthropoda)
This study describes the segmentation and setation at different developmental stages of the homonomous trunk limbs of the remipede Speleonectes tulumensis Yager, 1987 collected in anchialine caves of the Yucatan Peninsula. Most homonomous trunk limbs originate ventrolaterally and are composed of two...
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| Abstract | This study describes the segmentation and setation at different developmental stages of the homonomous trunk limbs of the remipede Speleonectes tulumensis Yager, 1987 collected in anchialine caves of the Yucatan Peninsula. Most homonomous trunk limbs originate ventrolaterally and are composed of two protopodal segments, three exopodal segments and four endopodal segments; contralateral limb pairs are united by a sternal bar. However, the last few posterior limbs originate ventrally, are smaller sized, and have regressively fewer segments, suggesting that limb development passes through several intermediate steps beginning with a limb bud. A terminal stage of development is proposed for specimens on which the posterior somite bears a simple bilobate limb bud, and the adjacent somite bears a limb with a protopod comprised of a coxapod and basipod, and with three exopodal and four endopodal segments. On each trunk limb there are 20 serially homologous groups of setae, and the numbers of setae on different limbs usually varies. These groups of setae are arranged linearly and are identified based on the morphology of the setae and their position on the segments. The number of setae in these groups increases gradually from the anterior homonomous limb to a maximum between limbs 8-12; the number then decreases sharply on the more posterior limbs. Changes in the number of setae, which reach a maximum between trunk limbs 8-12, differ from changes in segmentation which vary only over the last few posterior trunk limbs. Following a vector analysis that identified a spatial pattern for these 20 groups of setae among the different homonomous limbs, the hypothesis was confirmed that the number of setae in any given group and any given limb is correlated with the group, with the position of the somite along the body axis, and with the number of somites present on the specimens. This is the first vector analysis used to analyze a pattern of developmental changes in serially homologs of an arthropod. Development of remipede limbs are compared and contrasted with similar copepod limbs. Architecture, particularly the sternal bar uniting contralateral limb pairs, proposed as homologous, and development of trunk limb segmentation of the remipede is generally similar to that of copepods, but the remipede limb differs in several ways including an additional endopodal segment, the proximal, that appears simultaneously with the protopod during development. |
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| AbstractList | This study describes the segmentation and setation at different developmental stages of the homonomous trunk limbs of the remipede Speleonectes tulumensis Yager, 1987 collected in anchialine caves of the Yucatan Peninsula. Most homonomous trunk limbs originate ventrolaterally and are composed of two protopodal segments, three exopodal segments and four endopodal segments; contralateral limb pairs are united by a sternal bar. However, the last few posterior limbs originate ventrally, are smaller sized, and have regressively fewer segments, suggesting that limb development passes through several intermediate steps beginning with a limb bud. A terminal stage of development is proposed for specimens on which the posterior somite bears a simple bilobate limb bud, and the adjacent somite bears a limb with a protopod comprised of a coxapod and basipod, and with three exopodal and four endopodal segments. On each trunk limb there are 20 serially homologous groups of setae, and the numbers of setae on different limbs usually varies. These groups of setae are arranged linearly and are identified based on the morphology of the setae and their position on the segments. The number of setae in these groups increases gradually from the anterior homonomous limb to a maximum between limbs 8-12; the number then decreases sharply on the more posterior limbs. Changes in the number of setae, which reach a maximum between trunk limbs 8-12, differ from changes in segmentation which vary only over the last few posterior trunk limbs. Following a vector analysis that identified a spatial pattern for these 20 groups of setae among the different homonomous limbs, the hypothesis was confirmed that the number of setae in any given group and any given limb is correlated with the group, with the position of the somite along the body axis, and with the number of somites present on the specimens. This is the first vector analysis used to analyze a pattern of developmental changes in serially homologs of an arthropod. Development of remipede limbs are compared and contrasted with similar copepod limbs. Architecture, particularly the sternal bar uniting contralateral limb pairs, proposed as homologous, and development of trunk limb segmentation of the remipede is generally similar to that of copepods, but the remipede limb differs in several ways including an additional endopodal segment, the proximal, that appears simultaneously with the protopod during development. This study describes the segmentation and setation at different developmental stages of the homonomous trunk limbs of the remipede Speleonectes tulumensis Yager , 1987 collected in anchialine caves of the Yucatan Peninsula. Most homonomous trunk limbs originate ventrolaterally and are composed of two protopodal segments, three exopodal segments and four endopodal segments; contralateral limb pairs are united by a sternal bar. However, the last few posterior limbs originate ventrally, are smaller sized, and have regressively fewer segments, suggesting that limb development passes through several intermediate steps beginning with a limb bud. A terminal stage of development is proposed for specimens on which the posterior somite bears a simple bilobate limb bud, and the adjacent somite bears a limb with a protopod comprised of a coxapod and basipod, and with three exopodal and four endopodal segments. On each trunk limb there are 20 serially homologous groups of setae, and the numbers of setae on different limbs usually varies. These groups of setae are arranged linearly and are identified based on the morphology of the setae and their position on the segments. The number of setae in these groups increases gradually from the anterior homonomous limb to a maximum between limbs 8–12; the number then decreases sharply on the more posterior limbs. Changes in the number of setae, which reach a maximum between trunk limbs 8–12, differ from changes in segmentation which vary only over the last few posterior trunk limbs. Following a vector analysis that identified a spatial pattern for these 20 groups of setae among the different homonomous limbs, the hypothesis was confirmed that the number of setae in any given group and any given limb is correlated with the group, with the position of the somite along the body axis, and with the number of somites present on the specimens. This is the first vector analysis used to analyze a pattern of developmental changes in serially homologs of an arthropod. Development of remipede limbs are compared and contrasted with similar copepod limbs. Architecture, particularly the sternal bar uniting contralateral limb pairs, proposed as homologous, and development of trunk limb segmentation of the remipede is generally similar to that of copepods, but the remipede limb differs in several ways including an additional endopodal segment, the proximal, that appears simultaneously with the protopod during development. This study describes the segmentation and setation at different developmental stages of the homonomous trunk limbs of the remipede Speleonectes tulumensis Yager, 1987 collected in anchialine caves of the Yucatan Peninsula. Most homonomous trunk limbs originate ventrolaterally and are composed of two protopodal segments, three exopodal segments and four endopodal segments; contralateral limb pairs are united by a sternal bar. However, the last few posterior limbs originate ventrally, are smaller sized, and have regressively fewer segments, suggesting that limb development passes through several intermediate steps beginning with a limb bud. A terminal stage of development is proposed for specimens on which the posterior somite bears a simple bilobate limb bud, and the adjacent somite bears a limb with a protopod comprised of a coxapod and basipod, and with three exopodal and four endopodal segments. On each trunk limb there are 20 serially homologous groups of setae, and the numbers of setae on different limbs usually varies. These groups of setae are arranged linearly and are identified based on the morphology of the setae and their position on the segments. The number of setae in these groups increases gradually from the anterior homonomous limb to a maximum between limbs 8–12; the number then decreases sharply on the more posterior limbs. Changes in the number of setae, which reach a maximum between trunk limbs 8–12, differ from changes in segmentation which vary only over the last few posterior trunk limbs. Following a vector analysis that identified a spatial pattern for these 20 groups of setae among the different homonomous limbs, the hypothesis was confirmed that the number of setae in any given group and any given limb is correlated with the group, with the position of the somite along the body axis, and with the number of somites present on the specimens. This is the first vector analysis used to analyze a pattern of developmental changes in serially homologs of an arthropod. Development of remipede limbs are compared and contrasted with similar copepod limbs. Architecture, particularly the sternal bar uniting contralateral limb pairs, proposed as homologous, and development of trunk limb segmentation of the remipede is generally similar to that of copepods, but the remipede limb differs in several ways including an additional endopodal segment, the proximal, that appears simultaneously with the protopod during development. |
| ArticleNumber | e2305 |
| Audience | Academic |
| Author | Gelfand, Mikhail S Yager, Jill Ivanenko, Viacheslav N Antonenko, Ekaterina A Ferrari, Frank D |
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| Keywords | Crustacea Comparative morphology Segmentation Setation Arthropoda Development Remipedia Thoracic limbs Vectors Polynomial regressions |
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| References | 26106696 - Zootaxa. 2013;3710:354-62 19184096 - Dev Genes Evol. 2009 Mar;219(3):131-45 Koenemann (10.7717/peerj.2305/ref-9) 2006; 79 Koenemann (10.7717/peerj.2305/ref-8) 2009; 219 Schram (10.7717/peerj.2305/ref-10) 1986 Ferrari (10.7717/peerj.2305/ref-5) 2011; 84 Hoenemann (10.7717/peerj.2305/ref-7) 2013; 33 Brusca (10.7717/peerj.2305/ref-1) 2016 Ferrari (10.7717/peerj.2305/ref-3) 1992; 105 Yager (10.7717/peerj.2305/ref-11) 1981; 1 Yager (10.7717/peerj.2305/ref-13) 2013; 3710 Hessler (10.7717/peerj.2305/ref-6) 1998; 18 Ferrari (10.7717/peerj.2305/ref-4) 2007; 8 Cohen (10.7717/peerj.2305/ref-2) 1993 Yager (10.7717/peerj.2305/ref-12) 1987; 3 |
| References_xml | – volume: 79 start-page: 607 year: 2006 ident: 10.7717/peerj.2305/ref-9 article-title: Trunk segmentation patterns in Remipedia publication-title: Crustaceana doi: 10.1163/156854006777584296 contributor: fullname: Koenemann – volume: 18 start-page: 111 year: 1998 ident: 10.7717/peerj.2305/ref-6 article-title: Skeletomusculature of trunk segments and their limbs in Speleonectes tulumensis (Remipedia) publication-title: Journal of Crustacean Biology doi: 10.2307/1549525 contributor: fullname: Hessler – start-page: 747 volume-title: Drosophilia Development year: 1993 ident: 10.7717/peerj.2305/ref-2 article-title: Imaginal disc development contributor: fullname: Cohen – volume: 1 start-page: 328 year: 1981 ident: 10.7717/peerj.2305/ref-11 article-title: Remipedia, a new class of Crustacea from a marine cave in the Bahamas publication-title: Journal of Crustacean Biology doi: 10.2307/1547965 contributor: fullname: Yager – volume: 3710 start-page: 354 year: 2013 ident: 10.7717/peerj.2305/ref-13 article-title: Speleonectes cokei, new species of Remipedia (Crustacea: Speleonectidae) from a submerged ocean cave near Caye Chapel, Belize publication-title: Zootaxa doi: 10.11646/zootaxa.3710.4.4 contributor: fullname: Yager – volume: 84 start-page: 869 year: 2011 ident: 10.7717/peerj.2305/ref-5 article-title: Early post-embryonic development of marine chelicerates and crustaceans with a nauplius publication-title: Crustaceana doi: 10.1163/001121611X579745 contributor: fullname: Ferrari – volume: 105 start-page: 275 year: 1992 ident: 10.7717/peerj.2305/ref-3 article-title: Nauplii and copepodids of the cyclopoid copepod Dioithona oculata (Oithonidae) from a mangrove cay in Belize publication-title: Proceedings of the Biological Society of Washington contributor: fullname: Ferrari – volume: 33 start-page: 603 year: 2013 ident: 10.7717/peerj.2305/ref-7 article-title: Phylogenetic analysis and systematic revision of Remipedia (Nectiopoda) from Bayesian analysis of molecular data publication-title: Journal of Crustacean Biology doi: 10.1163/1937240X-00002179 contributor: fullname: Hoenemann – volume: 8 start-page: 1 year: 2007 ident: 10.7717/peerj.2305/ref-4 article-title: Post-embryonic development of the copepoda publication-title: Crustaceana Monographs contributor: fullname: Ferrari – start-page: 620pp volume-title: Crustacea year: 1986 ident: 10.7717/peerj.2305/ref-10 contributor: fullname: Schram – volume: 3 start-page: 160 year: 1987 ident: 10.7717/peerj.2305/ref-12 article-title: Speleonectes tulumensis, n. sp. (Crustacea, Remipedia) from two anchialine cenotes of the Yucatan Peninsula, Mexico publication-title: Stygologia contributor: fullname: Yager – start-page: 1052pp volume-title: Invertebrates year: 2016 ident: 10.7717/peerj.2305/ref-1 contributor: fullname: Brusca – volume: 219 start-page: 131 year: 2009 ident: 10.7717/peerj.2305/ref-8 article-title: The post-embryonic development of Remipedia (Crustacea)—additional results and new insights publication-title: Development Genes and Evolution doi: 10.1007/s00427-009-0273-0 contributor: fullname: Koenemann |
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| Snippet | This study describes the segmentation and setation at different developmental stages of the homonomous trunk limbs of the remipede Speleonectes tulumensis... This study describes the segmentation and setation at different developmental stages of the homonomous trunk limbs of the remipede Speleonectes tulumensis... |
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| SubjectTerms | Arthropoda Arthropods Biodiversity Bioengineering Biology Caves Crustacea Crustaceans Development Developmental Biology Developmental stages Evolutionary Studies Limb buds Limbs Marine Biology Mathematical Biology Morphology Remipedia Segmentation Setae Setation Somites Studies Thoracic limbs Zoology |
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| Title | Changes in segmentation and setation along the anterior/posterior axis of the homonomous trunk limbs of a remipede (Crustacea, Arthropoda) |
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