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Contents

   



(Top)
  


1 Description  


1.1  Internal anatomy  






2 Reproduction  




3 Evolutionary history  




4 Classification  


4.1  Taxa removed from Xiphosura  




4.2  Cladogram  






5 See also  




6 References  




7 Further reading  




8 External links  













Xiphosura






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From Wikipedia, the free encyclopedia
  

Xiphosura
Temporal range: Earliest HirnantianPresent, 445–0 Ma

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Restoration of Lunataspis, the oldest known xiphosuran
The extant Atlantic horseshoe crab (Limulus polyphemus)
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Subphylum: Chelicerata
Clade: Prosomapoda
Order: Xiphosura
Latreille, 1802
Groups

Xiphosura (/zɪfˈsjʊərə/;[2] from Ancient Greek ξίφος (xíphos) 'sword', and οὐρά (ourá) 'tail', in reference to its sword-like telson) is an order of arthropods related to arachnids. They are more commonly known as horseshoe crabs (a name applied more specifically to the only extant family, Limulidae). They first appeared in the Hirnantian (Late Ordovician). Currently, there are only four living species. Xiphosura contains one suborder, Xiphosurida, and several stem-genera.

The group has hardly changed in appearance in hundreds of millions of years; the modern horseshoe crabs look almost identical to prehistoric genera and are considered to be living fossils. The most notable difference between ancient and modern forms is that the abdominal segments in present species are fused into a single unit in adults.

Xiphosura were historically placed in the class Merostomata, although this term was intended to encompass also the eurypterids, whence it denoted what is now known to be an unnatural (paraphyletic) group (although this is a grouping recovered in some recent cladistic analyses).[3] Although the name Merostomata is still seen in textbooks, without reference to the Eurypterida, some have urged that this usage should be discouraged.[4] The Merostomata label originally did not include Eurypterida, although they were added in as a better understanding of the extinct group evolved. Now Eurypterida is classified within Sclerophorata together with the arachnids, and therefore, Merostomata is now a synonym of Xiphosura.[5] Several recent phylogenomic studies place Xiphosura within Arachnida, often as the sister groupofRicinulei; included among them are taxonomically comprehensive analyses of both morphology and genomes, which have recovered Merostomata as a derived clade of arachnids.[6][7][8]

Description

[edit]

Modern xiphosurans reach up to 60 cm (24 in) in adult length, but the Paleozoic species were often far smaller, some as small as 1 to 3 cm (0.39 to 1.18 in) long.

Their bodies are divided into an anterior prosoma and a posterior opisthosoma, or abdomen. The upper surface of the prosoma is covered by a semicircular carapace, while the underside bears five pairs of walking legs and a pair of pincer-like chelicerae. The mouth is located on underside of the center of the prosoma, between the bases of the walking legs, and lies behind a lip-like structure called the labrum.[9][10] The exoskeleton consist of a tough cuticle, but do not contain any crystalline biominerals.[11] Like scorpions, xiphosurans have an exocuticular layer of hyaline which exhibits UV fluorescence.[12]

Xiphosurans have up to four eyes, located in the carapace. Two compound eyes are on the side of the prosoma, with one or two median ocelli towards the front. The compound eyes are simpler in structure than those of other arthropods, with the individual ommatidia not being arranged in a compact pattern. They can probably detect movement, but are unlikely to be able to form a true image. In front of the ocelli is an additional organ that probably functions as a chemoreceptor.[10]

The first four pairs of legs end in pincers, and have a series of spines, called the gnathobase, on the inner surface. The spines are used to masticate the food, tearing it up before passing it to the mouth. The fifth and final pair of legs, however, has no pincers or spines, instead having structures for cleaning the gills and pushing mud out of the way while burrowing. Behind the walking legs is a sixth set of appendages, the chilaria, which are greatly reduced in size and covered in hairs and spines.[13] These are thought to be vestiges of the limbs of an absorbed first opisthosomal segment.[10]

The opisthosoma is divided into a forward mesosoma, with flattened appendages, and a metasoma at the rear, which has no appendages. In modern forms, the whole of the opisthosoma is fused into a single unsegmented structure.[14] The underside of the opisthosoma carries the genital openings and five pairs of flap-like gills.[10]

The opisthosoma terminates in a long caudal spine, commonly referred to as a telson (though this same term is also used for a different structure in crustaceans). The spine is highly mobile, and is used to push the animal upright if it is accidentally turned over.[10]

Internal anatomy

[edit]

The mouth opens into a sclerotised oesophagus, which leads to a crop and gizzard. After grinding up its food in the gizzard, the animal regurgitates any inedible portions, and passes the remainder to the true stomach. The stomach secretes digestive enzymes, and is attached to an intestine and two large caeca that extend through much of the body, and absorb the nutrients from the food. The intestine terminates in a sclerotised rectum, which opens just in front of the base of the caudal spine.[10]

Xiphosurans have well-developed circulatory systems, with numerous arteries that send blood from the long tubular heart to the body tissues, and then to two longitudinal sinuses next to the gills. After being oxygenated, the blood flows into the body cavity, and back to the heart. The blood contains haemocyanin, a blue copper-based pigment performing the same function as haemoglobin in vertebrates, and also has blood cells that aid in clotting.[10]

The excretory system consists of two pairs of coxal glands connected to a bladder that opens near the base of the last pair of walking legs. The brain is relatively large, and, as in many arthropods, surrounds the oesophagus. In both sexes, the single gonad lies next to the intestine and opens on the underside of the opisthosoma.[10]

Reproduction

[edit]

Xiphosurans move to shallow water to mate. The male climbs onto the back of the female, gripping her with his first pair of walking legs. The female digs out a depression in the sand, and lays from 200 to 300 eggs, which the male covers with sperm. The pair then separates, and the female buries the eggs.[10]

The egg is about 2–3 mm (0.08–0.12 in) across. Inside the egg, the embryo goes through four molts before it hatches into a larva, often called a 'trilobite larva' due to its superficial resemblance to a trilobite. At this stage it has no telson yet, and the larva is lecithotrophic (non-feeding) and planktonic, subsisting on the maternal yolk before settling to the bottom to molt, after which the telson first appears.[15][16] Through a series of successive moults, the larva develops additional gills, increases the length of its caudal spine, and gradually assumes the adult form. Modern xiphosurans reach sexual maturity after about three years of growth.[10]

Evolutionary history

[edit]

The oldest known stem-Xiphosuran, Lunataspis, is known from the late Ordovician of Canada, around 445 million years ago.[17] No xiphosurans are known from the following Silurian. Xiphosurida first appears during the late Devonian. A major radiation of freshwater xiphosurids, the Belinuridae is known from the Carboniferous, with the oldest representatives of the modern family Limulidae also possibly appearing during this time, though they only appear in abundance during the Triassic. Another major radiation of freshwater xiphosurans, the Austrolimulidae, is known from the Permian and Triassic.[18] All extant species are estimated to have diverged from a common ancestor that lived about 135 million years ago in the early Cretaceous.[19] As a group they have never showed much diversity in regard of species. Less than 50 fossil species are known from the Carboniferous period, when they were at their most diverse.[20]

Classification

[edit]
See also: List of xiphosuran genera
Mesolimulus from the Solnhofen limestone

Xiphosuran classification as of 2018:[21][22]

Order Xiphosura Latreille, 1802

Taxa removed from Xiphosura

[edit]

Two groups were originally included in the Xiphosura, but since have been assigned to separate classes:

Cladogram

[edit]

Cladogram after Lasmdell 2020.[1]

Xiphosura
Limulina

Valloisella lievinensis

Paleolimulidae

Rolfeia fouldenensis

Bellinuroopsis rossicus

Belinurina

Lunataspis aurora

See also

[edit]

References

[edit]
  1. ^ a b Lamsdell, James C. (2020-12-04). "The phylogeny and systematics of Xiphosura". PeerJ. 8: e10431. doi:10.7717/peerj.10431. ISSN 2167-8359. PMC 7720731. PMID 33335810.
  • ^ "Xiphosuran". Oxford English Dictionary (Online ed.). Oxford University Press. (Subscription or participating institution membership required.)
  • ^ Garwood, Russell J.; Dunlop, Jason A. (2014). "Three-dimensional reconstruction and the phylogeny of extinct chelicerate orders". PeerJ. 2: e641. doi:10.7717/peerj.641. PMC 4232842. PMID 25405073.
  • ^ H. B. Boudreaux (1979). Arthropod Phylogeny with Special Reference to Insects. John Wiley & Sons. pp. 1–320.
  • ^ Lamsdell, James C. (2012-12-18). "Revised systematics of Palaeozoic 'horseshoe crabs' and the myth of monophyletic Xiphosura". Zoological Journal of the Linnean Society. 167 (1): 1–27. doi:10.1111/j.1096-3642.2012.00874.x. ISSN 0024-4082.
  • ^ Sharma, Prashant P.; Ballesteros, Jesús A. (14 February 2019). "A Critical Appraisal of the Placement of Xiphosura (Chelicerata) with Account of Known Sources of Phylogenetic Error". Systematic Biology. 68 (6): 896–917. doi:10.1093/sysbio/syz011. PMID 30917194.
  • ^ Ballesteros, Jesús A.; Santibáñez López, Carlos E.; Kováč, Ľubomír; Gavish-Regev, Efrat; Sharma, Prashant P. (2019-12-18). "Ordered phylogenomic subsampling enables diagnosis of systematic errors in the placement of the enigmatic arachnid order Palpigradi". Proceedings of the Royal Society B: Biological Sciences. 286 (1917): 20192426. doi:10.1098/rspb.2019.2426. ISSN 0962-8452. PMC 6939912. PMID 31847768.
  • ^ Ballesteros, Jesús A; Santibáñez-López, Carlos E; Baker, Caitlin M; Benavides, Ligia R; Cunha, Tauana J; Gainett, Guilherme; Ontano, Andrew Z; Setton, Emily V W; Arango, Claudia P; Gavish-Regev, Efrat; Harvey, Mark S; Wheeler, Ward C; Hormiga, Gustavo; Giribet, Gonzalo; Sharma, Prashant P (2022-02-03). Teeling, Emma (ed.). "Comprehensive Species Sampling and Sophisticated Algorithmic Approaches Refute the Monophyly of Arachnida". Molecular Biology and Evolution. 39 (2): msac021. doi:10.1093/molbev/msac021. ISSN 0737-4038. PMC 8845124. PMID 35137183.
  • ^ Botton, M.I. (1984) Diet and food preferences of the adult horseshoe crab Limulus polyphemus in Delaware Bay, New Jersey, USA, Marine Biology, 81, pp. 199-207
  • ^ a b c d e f g h i j Robert D. Barnes (1982). Invertebrate Zoology. Philadelphia, PA: Holt-Saunders International. pp. 590–595. ISBN 978-0-03-056747-6.
  • ^ Crystallographic Texture of the Arthropod Cuticle Using Synchrotron Wide Angle X-ray Diffraction
  • ^ Exocuticular hyaline layer of sea scorpions and horseshoe crabs suggests cuticular fluorescence is plesiomorphic in chelicerates
  • ^ R. C. Brusca & G. J. Brusca (2002). Invertebrates. Massachusetts: Sinauer Associates.
  • ^ Lyall I. Anderson & Paul A. Selden (1997). "Opisthosomal fusion and phylogeny of Palaeozoic Xiphosura". Lethaia. 30 (1): 19–31. Bibcode:1997Letha..30...19A. doi:10.1111/j.1502-3931.1997.tb00440.x. S2CID 55271880.
  • ^ Developmental ecology of the American horseshoe crab Limulus polyphemus
  • ^ Metamorphosis of Limulus Polyphemus Trilobite Larvae: Role of Chemical and Structural Cues, Competency, and The Cost of Delayed Metamorphosis
  • ^ David M. Rudkin, Graham A. Young & Godfrey S. Nowlan (2008). "The oldest horseshoe crab: a new xiphosurid from Late Ordovician Konservat-Lagerstätten deposits, Manitoba, Canada". Palaeontology. 51 (1): 1–9. Bibcode:2008Palgy..51....1R. doi:10.1111/j.1475-4983.2007.00746.x.
  • ^ Bicknell, Russell D. C.; Pates, Stephen (2020). "Pictorial Atlas of Fossil and Extant Horseshoe Crabs, With Focus on Xiphosurida". Frontiers in Earth Science. 8: 98. Bibcode:2020FrEaS...8...98B. doi:10.3389/feart.2020.00098. ISSN 2296-6463.
  • ^ Nong, Wenyan; Qu, Zhe; Li, Yiqian; Barton-Owen, Tom; Wong, Annette Y. P.; Yip, Ho Yin; Lee, Hoi Ting; Narayana, Satya; Baril, Tobias; Swale, Thomas; Cao, Jianquan; Chan, Ting Fung; Kwan, Hoi Shan; Ngai, Sai Ming; Panagiotou, Gianni; Qian, Pei-Yuan; Qiu, Jian-Wen; Yip, Kevin Y.; Ismail, Noraznawati; Pati, Siddhartha; John, Akbar; Tobe, Stephen S.; Bendena, William G.; Cheung, Siu Gin; Hayward, Alexander; Hui, Jerome H. L. (2021). "Horseshoe crab genomes reveal the evolution of genes and microRNAs after three rounds of whole genome duplication". Communications Biology. 4 (1): 83. doi:10.1038/s42003-020-01637-2. PMC 7815833. PMID 33469163.
  • ^ Shingate, Prashant; Ravi, Vydianathan; Prasad, Aravind; Tay, Boon-Hui; Garg, Kritika M.; Chattopadhyay, Balaji; Yap, Laura-Marie; Rheindt, Frank E.; Venkatesh, Byrappa (2020-05-08). "Chromosome-level assembly of the horseshoe crab genome provides insights into its genome evolution". Nature Communications. 11 (1): 2322. Bibcode:2020NatCo..11.2322S. doi:10.1038/s41467-020-16180-1. PMC 7210998. PMID 32385269.
  • ^ Dunlop, J. A., Penney, D. & Jekel, D. 2018. A summary list of fossil spiders and their relatives. In World Spider Catalog. Natural History Museum Bern
  • ^ Lamsdell, James C. (2016). "Horseshoe crab phylogeny and independent colonizations of fresh water: ecological invasion as a driver for morphological innovation". Palaeontology. 59 (2): 181–194. Bibcode:2016Palgy..59..181L. doi:10.1111/pala.12220. S2CID 85553811.

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