treatments-rdf/data/03/8B/87/038B87F8FFFCFFEEFF370586F49AF8C1.ttl

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<http://treatment.plazi.org/id/038B87F8FFFCFFEEFF370586F49AF8C1>
    cito:cites <http://dx.doi.org/10.5281/zenodo.1442164>, <http://dx.doi.org/10.5281/zenodo.3606647>, <http://dx.doi.org/10.5281/zenodo.1442148>, <http://dx.doi.org/10.5281/zenodo.1442140>, <http://dx.doi.org/10.5281/zenodo.1442150>, <http://dx.doi.org/10.5281/zenodo.3606514> ;
    dc:creator "Macey, Robert; Schulte, James A.; Ananjeva, Natalia B.; Van, Erik T.; Wang, Yuezhao; Orlov, Nikolai; Shafiei, Soheila; Robinson, Michael D.; Dujsebayeva, Tatjana; Freund, Gabriel S.; Fischer, Clayton M.; Liu, David; Papenfuss, Theodore J." ;
    dc:title "Phrynocephalus" ;
    trt:augmentsTaxonConcept <http://taxon-concept.plazi.org/id/Animalia/Phrynocephalus_Macey_2018> ;
    trt:publishedIn <http://dx.doi.org/10.11646/zootaxa.4467.1.1> ;
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<http://dx.doi.org/10.11646/zootaxa.4467.1.1>
    bibo:endPage "81" ;
    bibo:issue "1" ;
    bibo:journal "Zootaxa" ;
    bibo:pubDate "2018-09-03" ;
    bibo:startPage "1" ;
    bibo:volume "4467" ;
    dc:creator "Macey, Robert; Schulte, James A.; Ananjeva, Natalia B.; Van, Erik T.; Wang, Yuezhao; Orlov, Nikolai; Shafiei, Soheila; Robinson, Michael D.; Dujsebayeva, Tatjana; Freund, Gabriel S.; Fischer, Clayton M.; Liu, David; Papenfuss, Theodore J." ;
    dc:date "2018" ;
    dc:title "A molecular phylogenetic hypothesis for the Asian agamid lizard genus Phrynocephalus reveals discrete biogeographic clades implicated by plate tectonics" ;
    fabio:hasPart <http://dx.doi.org/10.5281/zenodo.1442164>, <http://dx.doi.org/10.5281/zenodo.3606647>, <http://dx.doi.org/10.5281/zenodo.1442148>, <http://dx.doi.org/10.5281/zenodo.1442140>, <http://dx.doi.org/10.5281/zenodo.1442150>, <http://dx.doi.org/10.5281/zenodo.3606514> ;
    a fabio:JournalArticle .

<http://taxon-concept.plazi.org/id/Animalia/Phrynocephalus_Macey_2018>
    # Info: authority attributes generated from docAuthor ;
    dwc:authority "Macey, Schulte, Ananjeva, Van, Wang, Orlov, Shafiei, Robinson, Dujsebayeva, Freund, Fischer, Liu & Papenfuss, 2018" ;
    dwc:authorityName "Macey, Schulte, Ananjeva, Van, Wang, Orlov, Shafiei, Robinson, Dujsebayeva, Freund, Fischer, Liu & Papenfuss" ;
    dwc:authorityYear "2018" ;
    dwc:class "Reptilia" ;
    dwc:family "Agamidae" ;
    dwc:genus "Phrynocephalus" ;
    dwc:kingdom "Animalia" ;
    dwc:order "Squamata" ;
    dwc:phylum "Chordata" ;
    dwc:rank "genus" ;
    dwc:scientificNameAuthorship "Macey, Schulte, Ananjeva, Van, Wang, Orlov, Shafiei, Robinson, Dujsebayeva, Freund, Fischer, Liu & Papenfuss, 2018" ;
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<http://taxon-name.plazi.org/id/Animalia/Phrynocephalus>
    dwc:class "Reptilia" ;
    dwc:family "Agamidae" ;
    dwc:genus "Phrynocephalus" ;
    dwc:kingdom "Animalia" ;
    dwc:order "Squamata" ;
    dwc:phylum "Chordata" ;
    dwc:rank "genus" ;
    trt:hasParentName <http://taxon-name.plazi.org/id/Animalia/Agamidae> ;
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<http://taxon-name.plazi.org/id/Animalia/Squamata>
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    dwc:order "Squamata" ;
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<http://taxon-name.plazi.org/id/Animalia/Reptilia>
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<http://taxon-name.plazi.org/id/Animalia/Chordata>
    dwc:kingdom "Animalia" ;
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<http://dx.doi.org/10.5281/zenodo.1442164>
    dc:description "FIGURE 16. Evolution of habitat usage among Phrynocephalus species and populations including outgroups. Rock habitat is only used by the outgroup Laudakia. Hard substrates are clay, gravel, and dry lakebed. Soft substrates are small sand dune and large sand dune. See table 5 and the methods section for details of habitat categories, and plates I–VIII for images of habitats with species." ;
    fabio:hasRepresentation <https://zenodo.org/record/1442164/files/figure.png> ;
    a fabio:Figure .

<http://dx.doi.org/10.5281/zenodo.3606647>
    dc:description "FIGURE 4. Strict consensus of three equally parsimonious trees of 4425 steps from the 1595 included (839 informative) aligned mitochondrial DNA positions. Bootstrap values are presented above branches and decay indices are presented below branches in bold. Outgroups (Laudakia, Bufoniceps, and Trapelus), and well-supported Phrynocephalus clades and lineages are identified to the right as A–M." ;
    fabio:hasRepresentation <https://zenodo.org/record/3606647/files/figure.png> ;
    a fabio:Figure .

<http://dx.doi.org/10.5281/zenodo.1442148>
    dc:description "FIGURE 8. Strict consensus of three equally parsimonious trees of 5683 steps from the combined data with 4568 included (1288 informative) characters. These data consist of aligned mitochondrial DNA and nuclear RAG-1 DNA positions, as well as allozyme alleles coded as presence/absence characters. Bootstrap values are presented above branches and decay indices are presented below branches in bold. Outgroups (Laudakia, Bufoniceps, and Trapelus), and well-supported Phrynocephalus clades and lineages discovered in the mitochondrial DNA analysis are identified to the right as A–M." ;
    fabio:hasRepresentation <https://zenodo.org/record/1442148/files/figure.png> ;
    a fabio:Figure .

<http://dx.doi.org/10.5281/zenodo.1442140>
    dc:description "FIGURE 3. A simplified tectonic map of Asia’s associated tectonic plates. Top: The tectonic history of Asia including the break up of Gondwana, trans-Tethys migration of microplates, the isolation of the Indian plate, and subsequent docking of India with Asia (after Tapponier et al. 1981). Bottom: Major plates and suture zones of Asia: low elevations plates of China, J= Junggar and Ta= Tarim; high elevation plates of Tibet, K= Kunlun, Q= Qiangtang and Ti= South Tibet; Southwest Asian plates, F= Farah, H= Helmand, L= Lut, and M= Makran which is an uplift from the Gulf of Oman. Note the complex shifting of plates deep in Asia by Arabia, India, and SE Asia." ;
    fabio:hasRepresentation <https://zenodo.org/record/1442140/files/figure.png> ;
    a fabio:Figure .

<http://dx.doi.org/10.5281/zenodo.1442150>
    dc:description "FIGURE 9. Movements of tectonic plates. During the middle Eocene, 50–45 MYBP, India first contacted Eurasia. Since that time, India and Laurasian plates have converged 2365 km in the west, 2475 in the center, and 2750 km in the east (Dewey et al. 1989; Molnar et al. 1987; Royden et al. 2008; Windley 1988). The high altitudes now present in the Hindu Kush, Karakoram, Tien Shan, and Pamir are attributed to the Indian collision (Dewey et al. 1988, 1989). The Hindu Kush between the Helmand and Farah blocks is associated with the uplift of the trans-Himalaya, which includes the Karakoram and is one of the earlier uplifting events. The Tien Shan and Pamir, which now separate the Taklimakan Desert (Tarim Plate) from the Caspian Basin and Farah Block, were formed approximately 10 MYBP (Abdrakhmatov et al. 1996; Tapponier et al. 1981). Crustal shortening and deformation rates are from Dewey et al. (1989). The map is modified from Tapponier et al. (1981)." ;
    fabio:hasRepresentation <https://zenodo.org/record/1442150/files/figure.png> ;
    a fabio:Figure .

<http://dx.doi.org/10.5281/zenodo.3606514>
    dc:description "PLATE I. Species of the Arabian Peninsula and Iranian Plateau. (A) P. arabicus-2; (B) habitat of A, near Al Ashkhara, Oman; (C) P. longicaudatus; (D) habitat of C, near Al Hij, Bar Al Hikman Peninsula, Oman; (E) P. maculatus-2; and (F) habitat of E, near Sirjan, southern Iran." ;
    fabio:hasRepresentation <https://zenodo.org/record/3606514/files/figure.png> ;
    a fabio:Figure .