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Journal articles on the topic 'Round stingray'

Author: Grafiati
Published: 4 June 2021
Last updated: 28 July 2025

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1

Liu, Qin, and Leo S. Demski. "Clasper control in the round stingray,Urolapkus halleri lower sensor motor pathways." Environmental Biology of Fishes 38, no. 1-3 (1993): 219–30. http://dx.doi.org/10.1007/bf00842918.

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2

Vaudo, J. J., and C. G. Lowe. "Movement patterns of the round stingray Urobatis halleri(Cooper) near a thermal outfall." Journal of Fish Biology 68, no. 6 (2006): 1756–66. http://dx.doi.org/10.1111/j.0022-1112.2006.01054.x.

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3

Sawyna, Jillian M., Weston R. Spivia, Kelly Radecki, Deborah A. Fraser, and Christopher G. Lowe. "Association between chronic organochlorine exposure and immunotoxicity in the round stingray (Urobatis halleri)." Environmental Pollution 223 (April 2017): 42–50. http://dx.doi.org/10.1016/j.envpol.2016.12.019.

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4

Nordell, Shawn E. "Observations of the mating behavior and dentition of the round stingray,Urolophus halleri." Environmental Biology of Fishes 39, no. 3 (1994): 219–29. http://dx.doi.org/10.1007/bf00005124.

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5

Upton, Steve J., Scott Lyell Gardner, and Donald W. Duszynski. "The round stingray, Urolophus halleri (Rajiformes: Dasyatidae), as a host for Eimeria chollaensis sp.nov. (Apicomplexa: Eimeriidae)." Canadian Journal of Zoology 66, no. 9 (1988): 2049–52. http://dx.doi.org/10.1139/z88-301.

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Eimeria chollaensis sp.nov. (Apicomplexa: Eimeriidae) is described from the contents of the spiral valve of the round stingray, Urolophus halleri Cooper (Rajiformes: Dasyatidae), from the Gulf of California, Sonora, Mexico. Oocysts are ovoid, 13.3 × 9.7 (11.2–16.0 × 8.0–10.8) μm, with a smooth, thin, single-layered wall. Micropyle, polar granule, and oocyst residuum are absent. Sporocysts are ovoid, 8.9 × 4.9 (8.0–10.0 × 4.2–5.6) μm, and possess a Stieda body but no substieda body. Sporozoites are elongate, with numerous transverse striations anteriorly and a single, ovoid refractile body. The
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6

Acevedo, Kelly, Fabián Moreno, Marcela Grijalba-Bendeck, Arturo Acero, and Jorge Paramo. "REPRODUCTIVE BIOLOGY OF THE VENEZUELA ROUND STINGRAY Urotrygon venezuelae SCHULTZ FROM THE COLOMBIAN CARIBBEAN." Caldasia 37, no. 1 (2015): 197. http://dx.doi.org/10.15446/caldasia.v37n1.50998.

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<p>As for most batoid species, little is known about the basic biology of the Venezuela round stingray Urotrygon venezuelae (Urotrygonidae). This study presents information about the reproductive biology of the species, including fecundity, embryonic development stage, relationship between maternal size and fecundity, gonadosomatic (GSI) and hepatosomatic (HSI) indices, sex ratios, maturity size and size at birth. With all this information, a preliminary reproductive cycle is proposed. A total of 269 specimens were caught with beach seine in Salguero beach, Colombian Caribbean Sea, betwe
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7

Hoisington, Gregory, and Christopher G. Lowe. "Abundance and distribution of the round stingray, Urobatis halleri, near a heated effluent outfall." Marine Environmental Research 60, no. 4 (2005): 437–53. http://dx.doi.org/10.1016/j.marenvres.2005.01.003.

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8

Lowe, Christopher G., Greg J. Moss, Greg Hoisington, et al. "Caudal Spine Shedding Periodicity and Site Fidelity of Round Stingrays, Urobatis halleri (Cooper), at Seal Beach, California: Implications for Stingray-related Injury Management." Bulletin, Southern California Academy of Sciences 106, no. 1 (2007): 16–26. http://dx.doi.org/10.3160/0038-3872(2007)106[16:csspas]2.0.co;2.

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9

Khovansky, Igor, and Elena Podorozhnyuk. "Pacific salmon fry migration in the Amur River basin." Fisheries 2021, no. 2 (2021): 52–59. http://dx.doi.org/10.37663/0131-6184-2021-2-52-59.

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The intensity of the Pacific salmon fry migration in the Amur basin depends on the water level and floods; In the clear water of the river Anyuy rolled migration is round-the-clock, but the intensity of migration shifts to the dark time of day. In recent years, the effectiveness of reproduction is not stable, there are "failures" when the number of young people decreases dramatically, which determines the need for constant observations of the stingray for adjustments of catch forecasts. The assessment of the total number of young people sliding into the Amur River basin shows the comparability
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10

Lyons, Kady, and Katherine E. Wynne-Edwards. "Sublethal, sex-specific, osmotic, and metabolic impairments in embryonic and adult round stingrays from a location exposed to environmental contamination in southern California, USA." Environmental Science and Pollution Research 28, no. 22 (2021): 27493–510. http://dx.doi.org/10.1007/s11356-021-12546-0.

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AbstractOrganic contaminants are known to affect a suite of physiological processes across vertebrate clades. However, despite their ancient lineage and important roles in maintaining healthy ecosystems, elasmobranchs (sharks, skates, and rays) are understudied with regard to sublethal effects of contaminant exposure on metabolic processes. Perturbations resulting from contaminant exposure can divert energy away from maintaining physiological homeostasis, particularly during energetically challenging life stages, such as pregnancy and embryonic development. Using the round stingray (Urobatis h
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11

Hale, Loraine F., John V. Dudgeon, Andrew Z. Mason, and Christopher G. Lowe. "Elemental signatures in the vertebral cartilage of the round stingray, Urobatis halleri, from Seal Beach, California." Environmental Biology of Fishes 77, no. 3-4 (2006): 317–25. http://dx.doi.org/10.1007/s10641-006-9124-2.

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12

Church, Cynthia, and Gerald D. Schmidt. "Phyllobothrium hallericola n. sp. (Cestoidea: Phyllobothriidae) from a round Stingray, Urolophus halleri, in the Sea of Cortez." Journal of Parasitology 76, no. 4 (1990): 468. http://dx.doi.org/10.2307/3282823.

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13

Mejía-Falla, Paola A., Enric Cortés, Andrés F. Navia, and Fernando A. Zapata. "Age and Growth of the Round Stingray Urotrygon rogersi, a Particularly Fast-Growing and Short-Lived Elasmobranch." PLoS ONE 9, no. 4 (2014): e96077. http://dx.doi.org/10.1371/journal.pone.0096077.

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14

Lyons, Kady, and Katherine E. Wynne-Edwards. "Legacy environmental polychlorinated biphenyl contamination attenuates the acute stress response in a cartilaginous fish, the Round Stingray." Stress 22, no. 3 (2019): 395–402. http://dx.doi.org/10.1080/10253890.2019.1570125.

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15

Ali, Malek, Adib Saad, Christian Reynaud, and Christian Capapé. "First records of the Round Fantail Stingray,Taeniura grabata(Chondrichthyes: Dasyatidae), off the Syrian coast (eastern Mediterranean)." Zoology in the Middle East 59, no. 2 (2013): 176–78. http://dx.doi.org/10.1080/09397140.2013.810883.

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16

Buzaid, Esam M. K. "X-Ray Radiological Study for Skeleton of Rounded Fantail Stingray Taeniura grabata from Susah, Libya." مجلة علوم البحار والتقنيات البيئية 8, no. 1 (2022): 1–15. http://dx.doi.org/10.59743/jmset.v8i1.2.

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A sample of Round Fantail Stingray Taeniura grabata was brought, from Susah harbor in east Libya, to establish radiographically, it was situated Dorsal-ventrally, to diagnose skeleton and tooth plate, using Siemens X-ray System (Multix Fusion). In the Multi-graded radiograph, the specimen skeleton was so pale white in most of the axial skeleton and parts of the cranium, and poorly calcified. 88 pectoral radials: 41 propterygials, 15 mesopterygial, and 32 metapterygial radials, with 22 pelvic radials counted. Fin radials were attached to the scapulocoracoid by three enlarged basal radials. The
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17

Silva-Garay, Lorena, and Christopher G. Lowe. "Effects of temperature and body-mass on the standard metabolic rates of the round stingray, Urobatis halleri (Cooper, 1863)." Journal of Experimental Marine Biology and Ecology 540 (July 2021): 151564. http://dx.doi.org/10.1016/j.jembe.2021.151564.

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18

Plank, S. M., C. G. Lowe, K. A. Feldheim, R. R. Wilson, and J. A. Brusslan. "Population genetic structure of the round stingray Urobatis halleri (Elasmobranchii: Rajiformes) in southern California and the Gulf of California." Journal of Fish Biology 77, no. 2 (2010): 329–40. http://dx.doi.org/10.1111/j.1095-8649.2010.02677.x.

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19

Lyons, Kady, and Christopher G. Lowe. "Quantification of Maternal Offloading of Organic Contaminants in Elasmobranchs Using the Histotrophic Round Stingray (Urobatis halleri) as a Model." Environmental Science & Technology 47, no. 21 (2013): 12450–58. http://dx.doi.org/10.1021/es402347d.

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20

Lyons, Kady, and Katherine E. Wynne-Edwards. "Legacy polychlorinated biphenyl contamination impairs male embryonic development in an elasmobranch with matrotrophic histotrophy, the round stingray (Urobatis halleri )." Environmental Toxicology and Chemistry 37, no. 11 (2018): 2904–11. http://dx.doi.org/10.1002/etc.4255.

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21

Márquez-Farías, J. Fernando, L. Daniel Carrillo-Colín, Allan Rosales-Valencia, Raúl E. Lara-Mendoza, and Oscar G. Zamora-García. "Bayesian estimation of the age and growth of the round stingray (Urobatis halleri) in the Gulf of California in Mexico." Fishery Bulletin 120, no. 3-4 (2022): 205–17. http://dx.doi.org/10.7755/fb.120.3-4.2.

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22

Friggens, Megan M., and Donald W. Duszynski. "Four New Cestode Species from the Spiral Intestine of the Round Stingray, Urobatis halleri, in the Northern Gulf of California, Mexico." Comparative Parasitology 72, no. 2 (2005): 136–49. http://dx.doi.org/10.1654/4121.

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23

Valadez-González, C. "Feeding Habits Of The Round Stingray Urobatis Halleri (Cooper, 1863) (Chondrichthyes: Urolophidae) From The Continental Shelf Of Jalisco And Colima, Mexico." Ciencias Marinas 27, no. 1 (2001): 91–104. http://dx.doi.org/10.7773/cm.v27i1.375.

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24

Giovos, Ioannis, Fabrizio Serena, Dimitra Katsada, et al. "Integrating Literature, Biodiversity Databases, and Citizen-Science to Reconstruct the Checklist of Chondrichthyans in Cyprus (Eastern Mediterranean Sea)." Fishes 6, no. 3 (2021): 24. http://dx.doi.org/10.3390/fishes6030024.

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Chondrichthyans are apex predators influencing the trophic web through a top-down process thus their depletion will affect the remaining biota. Notwithstanding that, research on chondrichthyans is sparse or data-limited in several biogeographic areas worldwide, including the Levantine Sea. We revise and update the knowledge of chondrichthyans in Cyprus based on a bibliographic review that gains information retrieved from peer-reviewed and grey literature, Global Biodiversity Information Facility (135 records of at least 18 species) and the Ocean Biodiversity Information System (65 records of a
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25

Appy, Ralph G., Shana K. Goffredi, Bruno Pernet, and Carin Latino. "Experimental Elucidation of the Life Cycle of Rhinebothrium urobatidium (Cestoda: Rhinebothriidea) from the Round Stingray (Urobatis halleri: Myliobatiformes) to First and Second Intermediate Hosts." Bulletin, Southern California Academy of Sciences 118, no. 3 (2019): 139. http://dx.doi.org/10.3160/0038-3872-118.3.139.

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26

Lyons, Kady, S. Rebekah Burket, and Bryan W. Brooks. "Sex may influence environmental diphenhydramine accumulation in Round Stingrays." Marine Pollution Bulletin 135 (October 2018): 648–53. http://dx.doi.org/10.1016/j.marpolbul.2018.07.042.

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27

Semeniuk, Christina A.D., Sophie Bourgeon, Sylvia L. Smith, and Kristina D. Rothley. "Hematological differences between stingrays at tourist and non-visited sites suggest physiological costs of wildlife tourism." Biological Conservation 142, no. 8 (2009): 1818–29. https://doi.org/10.5281/zenodo.13510252.

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(Uploaded by Plazi for the Bat Literature Project) Wildlife tourism alters the environmental conditions in which the focal animal lives, and it is therefore necessary to assess the ability of the animal to adjust to and persist in these novel conditions if the industry is to be sustainable. Here, we report on the physiological responses of southern stingrays (Dasyatis americana) which are the focus of intense marine provisioning-tourism in the Cayman Islands. Using stingrays from non-tourist sites about Grand Cayman as a basis for comparison, we show in this natural experiment that tourist-exp
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28

Semeniuk, Christina A.D., Sophie Bourgeon, Sylvia L. Smith, and Kristina D. Rothley. "Hematological differences between stingrays at tourist and non-visited sites suggest physiological costs of wildlife tourism." Biological Conservation 142, no. 8 (2009): 1818–29. https://doi.org/10.5281/zenodo.13510252.

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(Uploaded by Plazi for the Bat Literature Project) Wildlife tourism alters the environmental conditions in which the focal animal lives, and it is therefore necessary to assess the ability of the animal to adjust to and persist in these novel conditions if the industry is to be sustainable. Here, we report on the physiological responses of southern stingrays (Dasyatis americana) which are the focus of intense marine provisioning-tourism in the Cayman Islands. Using stingrays from non-tourist sites about Grand Cayman as a basis for comparison, we show in this natural experiment that tourist-exp
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29

Semeniuk, Christina A.D., Sophie Bourgeon, Sylvia L. Smith, and Kristina D. Rothley. "Hematological differences between stingrays at tourist and non-visited sites suggest physiological costs of wildlife tourism." Biological Conservation 142, no. 8 (2009): 1818–29. https://doi.org/10.5281/zenodo.13510252.

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(Uploaded by Plazi for the Bat Literature Project) Wildlife tourism alters the environmental conditions in which the focal animal lives, and it is therefore necessary to assess the ability of the animal to adjust to and persist in these novel conditions if the industry is to be sustainable. Here, we report on the physiological responses of southern stingrays (Dasyatis americana) which are the focus of intense marine provisioning-tourism in the Cayman Islands. Using stingrays from non-tourist sites about Grand Cayman as a basis for comparison, we show in this natural experiment that tourist-exp
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30

Semeniuk, Christina A.D., Sophie Bourgeon, Sylvia L. Smith, and Kristina D. Rothley. "Hematological differences between stingrays at tourist and non-visited sites suggest physiological costs of wildlife tourism." Biological Conservation 142, no. 8 (2009): 1818–29. https://doi.org/10.5281/zenodo.13510252.

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(Uploaded by Plazi for the Bat Literature Project) Wildlife tourism alters the environmental conditions in which the focal animal lives, and it is therefore necessary to assess the ability of the animal to adjust to and persist in these novel conditions if the industry is to be sustainable. Here, we report on the physiological responses of southern stingrays (Dasyatis americana) which are the focus of intense marine provisioning-tourism in the Cayman Islands. Using stingrays from non-tourist sites about Grand Cayman as a basis for comparison, we show in this natural experiment that tourist-exp
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31

Flores-Ortega, JR. "Feeding habits of three round stingrays (Rajiformes: Urotrygonidae) in the central Mexican Pacific." Ciencias Marinas 37, no. 3 (2011): 279–92. http://dx.doi.org/10.7773/cm.v37i3.1871.

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32

Lyons, Kady, and Katherine E. Wynne-Edwards. "Steroid concentrations in maternal serum and uterine histotroph in round stingrays (Urobatis halleri)." General and Comparative Endocrinology 274 (April 2019): 8–16. http://dx.doi.org/10.1016/j.ygcen.2018.12.009.

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33

Mull, Christopher G., Christopher G. Lowe, and Kelly A. Young. "Photoperiod and water temperature regulation of seasonal reproduction in male round stingrays (Urobatis halleri)." Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 151, no. 4 (2008): 717–25. http://dx.doi.org/10.1016/j.cbpa.2008.08.029.

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34

Mull, Christopher G., Christopher G. Lowe, and Kelly A. Young. "Seasonal reproduction of female round stingrays (Urobatis halleri): Steroid hormone profiles and assessing reproductive state." General and Comparative Endocrinology 166, no. 2 (2010): 379–87. http://dx.doi.org/10.1016/j.ygcen.2009.12.009.

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35

Jirik, K. E., and C. G. Lowe. "An elasmobranch maternity ward: female round stingrays Urobatis halleri use warm, restored estuarine habitat during gestation." Journal of Fish Biology 80, no. 5 (2012): 1227–45. http://dx.doi.org/10.1111/j.1095-8649.2011.03208.x.

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36

Lyons, Kady, Aaron B. Carlisle, and Christopher G. Lowe. "Influence of ontogeny and environmental exposure on mercury accumulation in muscle and liver of male Round Stingrays." Marine Environmental Research 130 (September 2017): 30–37. http://dx.doi.org/10.1016/j.marenvres.2017.07.004.

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37

Lyons, Kady, Ramon Lavado, Daniel Schlenk, and Christopher G. Lowe. "Bioaccumulation of organochlorine contaminants and ethoxyresorufin-o-deethylase activity in southern California round stingrays (Urobatis halleri) exposed to planar aromatic compounds." Environmental Toxicology and Chemistry 33, no. 6 (2014): 1380–90. http://dx.doi.org/10.1002/etc.2564.

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38

Demchenko, Tamara. "Review : Kruty: problems of state formation from the time of the Ukrainian revolution (1917–1921) to the present. Vol. III. Proceedings of the All-Ukrainian Scientific Conference (Kruty, January 29, 2020) / Compilers: V. Piskun, M. Potapenko. Kyiv – Nizhyn: Publisher PE Lysenko MM, 2020. 360 p." Siverianskyi litopys (2021) 1 (April 2, 2021): 181–84. https://doi.org/10.5281/zenodo.4664607.

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Despite of the economic hardship and other troubles, including the COVID-19 pandemic, Nizhyn historics, with the active assistance of Kyiv scientists and researchers from other cities of Ukraine, managed to hold a conference on January 29, 2020 at Kruty station and publish a collection of reports at the beginning of this year, that sounded on it. More information about this event can be found in the speech of the head of Nizhyn "Prosvita" M. Shkurko at the round table "Kruty: history and modern Ukrainian reality", which took place on January 29, 2021 in Kiev online. The Bat
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39

Brodbeck, Bethany E., Kady Lyons, Nathan R. Miller, and John A. Mohan. "Sex influences elemental variation in the mineralized vertebrae cartilage of round stingray (Urobatis halleri)." Marine Biology 170, no. 10 (2023). http://dx.doi.org/10.1007/s00227-023-04265-6.

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AbstractThe elemental composition of mineralized vertebral cartilage has proven useful for reconstructing the movement and environmental history of elasmobranchs. However, the effects of intrinsic and extrinsic factors on vertebral chemistry have not been well explored, making meaningful interpretations of results difficult. This study quantified trace element incorporation along the corpus calcareum of 116 Round Stingray (Urobatis halleri) vertebrae and explored the influence of intrinsic (i.e., sex) and extrinsic (i.e., location and year) factors on vertebral edge chemical variations. We qua
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40

Elston, Chantel, Paul D. Cowley, Rainer G. von Brandis, and James Lea. "Stingray Habitat Use Is Dynamically Influenced by Temperature and Tides." Frontiers in Marine Science 8 (January 13, 2022). http://dx.doi.org/10.3389/fmars.2021.754404.

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Abiotic factors often have a large influence on the habitat use of animals in shallow marine environments. Specifically, tides may alter the physical and biological characteristics of an ecosystem while changes in temperature can cause ectothermic species to behaviorally thermoregulate. Understanding the contextual and relative influences of these abiotic factors is important in prioritizing management plans, particularly for vulnerable faunal groups like stingrays. Passive acoustic telemetry was used to track the movements of 60 stingrays at a remote and environmentally heterogeneous atoll in
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41

Bañón, Rafael, Francisco Baldó, Francisco González-Carrión, and Alejandro de Carlos. "Northern range extension of the round stingray Taeniurops grabatus (Geoffroy Saint-Hilaire, 1817) (Myliobatiformes: Dasyatidae)." Environmental Biology of Fishes, December 7, 2024. https://doi.org/10.1007/s10641-024-01642-y.

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42

Kerr, Emma N., Bhavya Papudeshi, Miranda Haggerty, et al. "Stingray epidermal microbiomes are species-specific with local adaptations." Frontiers in Microbiology 14 (March 2, 2023). http://dx.doi.org/10.3389/fmicb.2023.1031711.

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Marine host-associated microbiomes are affected by a combination of species-specific (e.g., host ancestry, genotype) and habitat-specific features (e.g., environmental physiochemistry and microbial biogeography). The stingray epidermis provides a gradient of characteristics from high dermal denticles coverage with low mucus to reduce dermal denticles and high levels of mucus. Here we investigate the effects of host phylogeny and habitat by comparing the epidermal microbiomes of Myliobatis californica (bat rays) with a mucus rich epidermis, and Urobatis halleri (round rays) with a mucus reduced
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43

Ochoa-Díaz, M. R., J. Rodriguez-Romero, J. López-Martínez, and M. C. Maldonado-García. "First record of spine malformation of the round stingray Urobatis halleri off the Western Coast of Baja California Sur, México." Marine Biodiversity Records 9, no. 1 (2016). http://dx.doi.org/10.1186/s41200-016-0074-x.

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44

Lubitz, Nicolas, Kátya Abrantes, Kevin Crook, et al. "Trophic ecology shapes spatial ecology of two sympatric predators, the great hammerhead shark (Sphyrna mokarran) and bull shark (Carcharhinus leucas)." Frontiers in Marine Science 10 (November 29, 2023). http://dx.doi.org/10.3389/fmars.2023.1274275.

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Information on how the trophic ecology of predators shapes their movement patterns and space-use is fundamental to understanding ecological processes across organisational levels. Despite this, studies combining spatial and trophic ecology to determine how prey preference and/or resource availability shape space use are lacking in marine predators as these can occur at low density and are often difficult to track over extended periods. Furthermore, many exhibit behavioural variability within species and among closely related, sympatric species adding further complexity. We applied a context-fo
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45

Márquez-Farías, J. Fernando. "Bayesian estimation of the age and growth of the round stingray (Urobatis halleri) in the Gulf of California in Mexico: supplementary table." Fishery Bulletin 120, no. 3-4 (2022). http://dx.doi.org/10.7755/fb.120.3-4.2s.

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46

Rubio-Rodríguez, Uriel, Jessica A. Navarro-González, and Francisco J. Vergara-Solana. "First record of black mucus and ocular malformations in the round stingray Urobatis halleri (Rajiformes: Urotrygonidae) at the southern Gulf of California, Mexico." Marine Biodiversity Records 3 (March 2010). http://dx.doi.org/10.1017/s1755267209990960.

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47

Ehemann, Nicolás Roberto, Sebastían Hernández, Raquel Siccha‐Ramírez, Francisco Javier García‐Rodríguez, and José De La Cruz‐Agüero. "Alike but genetically divergent: The resurrection of Urotrygon asterias (Jordan & Gilbert, 1883) from its closest relatives, the Munda and the Blotched stingray." Journal of Fish Biology, July 8, 2024. http://dx.doi.org/10.1111/jfb.15864.

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AbstractThe genus Urotrygon comprises small‐ to medium‐sized endemic round rays on the American continent and has undergone several synonymization processes. Here, we used an integrative taxonomic approach, including meristic, morphometric, and mtDNA analyses, to resolve the particularly intricate relationship among Urotrygon munda Gill, 1863, Urotrygon chilensis (Günther, 1872), and Urotrygon asterias (Jordan & Gilbert, 1883). The latter species is currently a synonym of U. munda but is also considered the U. chilensis “northern morphotype.” These taxonomic entities have historically been
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48

Boudaya, L., L. Neifar, and L. Euzet. "A new genus and three new species of Anthocephaliidae (Cestoda, Rhinebothriidea) from the round fantail stingray,Taeniurops grabata(Chondrichthyes, Dasyatidae) from the Mediterranean Sea and Atlantic Ocean." Journal of Helminthology 94 (November 15, 2018). http://dx.doi.org/10.1017/s0022149x18001025.

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AbstractThe spiral intestines of a total of 16 round fantail stingraysTaeniurops grabatafrom the Mediterranean Sea off Tunisia were examined for cestodes. A new genus is erected in the Anthocephaliidae (Rhinebothridea) asAlveobothriumgen. n., withAlveobothrium grabatumsp. n. as its type species; the new genus differs from the other genera in the order in that its members possess bothridia with an apical sucker, marginal loculi and multiple staggered rows of facial loculi.Alveobothrium zarzisensesp. n. is also described. The species differ in the number of marginal loculi and in proglotid anato
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Bonham, Bailey, and Nyssa J. Silbiger. "Exploring Commensalism Between Rock Wrasse (Halichoeres semicinctus) and Round Stingrays (Urobatis halleri) in Southern California." Bulletin, Southern California Academy of Sciences 123, no. 1 (2024). http://dx.doi.org/10.3160/0038-3872-123.1.53.

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50

Perttula, Timothy K., Kevin Stingley, and Mark Walters. "Archaeological Investigations at the Bowles Creek Site (41CE475), Cherokee County, Texas, in Early 2017." Index of Texas Archaeology Open Access Grey Literature from the Lone Star State, 2017. http://dx.doi.org/10.21112/.ita.2017.1.62.

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The Bowles Creek is a substantial Historic Caddo period Allen phase settlement on a natural rise in the Bowles Creek floodplain in the Neches River basin in East Texas. There have been several rounds of work completed at the site since it was first recorded by Stingley, including shovel testing, the excavation of 1 x 1 m units, and the remote sensing of a 2400 square meter area. In this article, we discuss the archaeological findings from work done at the site in January and February 2017.
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