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Isorophus cincinnatiensis

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Journal Article
Journal: PALAIOS
Published: 01 April 2014
PALAIOS (2014) 29 (4): 154–169.
... communities of edrioasteroids from Florence, Kentucky and Sharonville, Ohio. In these two occurrences, the edrioasteroids Isorophus cincinnatiensis , Streptaster vorticellatus , and Carneyella pilea utilized brachiopod and mollusk shells as hard substrates for attachment. Age structure analysis for specimens...
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Specimens of  <b>Isorophus</b> <b>cincinnatiensis</b>  found on the Sharonville pavement ...
in > PALAIOS
Published: 01 April 2014
Fig. 6.— Specimens of Isorophus cincinnatiensis found on the Sharonville pavement show a weak right-skewed population structure.
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Taphonomic grade for specimens of  <b>Isorophus</b> <b>cincinnatiensis</b>  on the Sharon...
in > PALAIOS
Published: 01 April 2014
Fig. 12.— Taphonomic grade for specimens of Isorophus cincinnatiensis on the Sharonville pavement. Most edrioasteroids fall within taphonomic grade five. We suggest postmortem thecal bloating and rupture is responsible for disarticulation of the peripheral rim.
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Orientation of edrioasteroid fauna on the Florence pavement. Vector analysi...
in > PALAIOS
Published: 01 April 2014
Fig. 7.— Orientation of edrioasteroid fauna on the Florence pavement. Vector analysis for Isorophus cincinnatiensis shows no preferential orientation exists. However, bipolar orientation test for Isorophus cincinnatiensis data shows slight preferential orientation (p  =  0.054).
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Edrioasteroid thecal orientation on the Sharonville pavement.  A)  Specimen...
in > PALAIOS
Published: 01 April 2014
Fig. 8.— Edrioasteroid thecal orientation on the Sharonville pavement. A) Specimens of Isorophus cincinnatiensis show no preferred orientation. B) Bipolar orientation test for I. cincinnatiensis shows no preferential orientation exists. Arrow indicates azimuth of 135.45 degrees. C
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Faunal interactions found on the Florence pavement.  A)  Edrioasteroid and ...
in > PALAIOS
Published: 01 April 2014
Fig. 13.— Faunal interactions found on the Florence pavement. A) Edrioasteroid and bryozoan interaction with 1 mm gap between the two faunal elements. B) Isorophus cincinnatiensis overgrowing bryozoan. C) Multiple interactions between edrioasteroids, bryozoans, and crinoids. A single
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Fauna of the Sharonville pavement.  A)  Typical fauna found on surface.  B)...
in > PALAIOS
Published: 01 April 2014
Fig. 4.— Fauna of the Sharonville pavement. A) Typical fauna found on surface. B) Cephalopod with encrusting Isorophus cincinnatiensis edrioasteroid. C) Zygospira brachiopods alive on the substrate at the time of burial as evidenced by beak-down life position. Notice Cornulites worm
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Population frequency distribution of edrioasteroids on the Florence pavemen...
in > PALAIOS
Published: 01 April 2014
Fig. 5.— Population frequency distribution of edrioasteroids on the Florence pavement. A) Strong right-skewed distribution of Isorophus cincinnatiensis suggests species may have been an r-strategist. Strong modal peak at 6–8 mm suggests spatfall prior to entombment. B) Specimens
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Maps showing edrioasteroid spatial distributions on the Florence pavement. ...
in > PALAIOS
Published: 01 April 2014
Fig. 9.— Maps showing edrioasteroid spatial distributions on the Florence pavement. A) Interspecific Nearest Neighbor Analysis shows the entire population of edrioasteroids is clustered on the pavement (  =  0.57). B) Specimens of Isorophus cincinnatiensis are clustered on the pavement
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Maps showing edrioasteroid spatial distributions on the Florence pavement. ...
in > PALAIOS
Published: 01 April 2014
Fig. 9.— Maps showing edrioasteroid spatial distributions on the Florence pavement. A) Interspecific Nearest Neighbor Analysis shows the entire population of edrioasteroids is clustered on the pavement (  =  0.57). B) Specimens of Isorophus cincinnatiensis are clustered on the pavement
Image
Maps showing edrioasteroid spatial distributions on the Florence pavement. ...
in > PALAIOS
Published: 01 April 2014
Fig. 9.— Maps showing edrioasteroid spatial distributions on the Florence pavement. A) Interspecific Nearest Neighbor Analysis shows the entire population of edrioasteroids is clustered on the pavement (  =  0.57). B) Specimens of Isorophus cincinnatiensis are clustered on the pavement
Image
Maps showing edrioasteroid spatial distributions on the Florence pavement. ...
in > PALAIOS
Published: 01 April 2014
Fig. 9.— Maps showing edrioasteroid spatial distributions on the Florence pavement. A) Interspecific Nearest Neighbor Analysis shows the entire population of edrioasteroids is clustered on the pavement (  =  0.57). B) Specimens of Isorophus cincinnatiensis are clustered on the pavement
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Histograms showing taphonomic grade of edrioasteroids found on the Florence...
in > PALAIOS
Published: 01 April 2014
for this pattern. Distribution of taphonomic grade for: A) Isorophus cincinnatiensis , B) Streptaster vorticellatus , and C) Carneyella pilea .
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Excitation-emission matrix (EEM) results for Paleozoic echinoderms and supp...
in > Geology
Published: 01 May 2016
: Isorophus cincinnatiensis EEM, edrioasteroid. G: EEMs placed on phylogenetic hypothesis with crinoids and blastozoans in a single clade ( Paul and Smith, 1984 ; Smith and Jell, 1990 ). The color scale on the right of each panel is relative intensity. AOHE—Asteroidea, Ophiuroidea, Holothuroidea
Journal Article
Published: 01 September 2010
Journal of Paleontology (2010) 84 (5): 783–794.
... the Cincinnati region. Maysvillian aged occurrences including the Frishe's Big Boy locality ( Kesling and Mintz, 1960 ), the Florence 1, and Blue Rock pavements ( Meyer, 1990 ) all contain three edrioasteroid species including Isorophus cincinnatiensis ( Roemer, 1851 ), Carneyella pilea , and Streptaster...
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Journal Article
Journal: Geology
Published: 01 May 2016
Geology (2016) 44 (5): 379–382.
...: Isorophus cincinnatiensis EEM, edrioasteroid. G: EEMs placed on phylogenetic hypothesis with crinoids and blastozoans in a single clade ( Paul and Smith, 1984 ; Smith and Jell, 1990 ). The color scale on the right of each panel is relative intensity. AOHE—Asteroidea, Ophiuroidea, Holothuroidea...
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Journal Article
Journal: PALAIOS
Published: 01 August 2011
PALAIOS (2011) 26 (8): 470–483.
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Series: Geological Society, London, Memoirs
Published: 01 January 2013
DOI: 10.1144/M38.14
EISBN: 9781862396425
... 26324. ( e ) Isorophus cincinnatiensis , Katian, Ohio, USA; CMCIP 34539. ( f ) Astrocystites ottawaensis , Katian, Ontario, Canada; CMCIP 37053. ( g ) Rhenopyrgus grayae , Katian, Scotland, UK; BMNH E23470. Fig. 14.16. Palaeobiogeographical distribution of Ordovician edrioasteroids...
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