Katherine Marriott scite author profile

Katherine Marriott

5Publications

19Citation Statements Received

124Citation Statements Given

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124

Affiliations

Brooklyn College

Publications

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Uses for Incomplete Ammonite Sutures: Lateral Lobe and Second Saddle as Markers of Sutural Complexity

Marriott

Chamberlain

2021

Geosciences

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Ammonoid sutures are geometric patterns formed by the intersection of the septa and the shell wall, and have long been a diagnostic tool for ammonite researchers for such applications as species identification, taxonomic relationships, ontogenetic change, functional and evolutionary morphology, determination of ecological niche, and other aspects of ammonoid paleobiology. Researchers interested in a variety of paleobiological questions related to ammonoids have almost always required access to the entire hemisuture. Without access to specimens in museum or institutional collections, researchers must rely on previously published illustrations and photographs of ammonoid sutures. However, due to the perspective in photographs, distortion of the marginal elements of suture geometry occurs due to shell curvature near the venter and umbilicus when photographed in profile. The revised approach described here, which we refer to as the Lateral Lobe Saddle, or LLS approach, makes use of only the lateral lobe and second saddle S2 (lateral lobe-second saddle pairs, or LLS) which lie in the central, mid-whorl undistorted sector of a suture line as viewed in lateral, profile shell photos and illustrations. The factors by which fractal dimension of LLS data convert to fractal dimension of the standard hemisuture measurements are largely consistent within genera. The LLS method’s non-requirement of a full hemisuture also facilitates comparisons among sutures within an ontogenetic sequence, or sutures from multiple ammonite taxa where ventral and umbilical sutural elements are hidden by whorl overlap or poor preservation.

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On the Unnecessary and Misleading Taxon “Cetartiodactyla”

et al. 2021

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The name "Cetartiodactyla" was proposed in 1997 to reflect the molecular data that suggested that Cetacea are closely related to Artiodactyla. Since then, that taxon has spread in popularity, even outside the scientific literature. However, the implications of the name are confusing, because Cetacea and Artiodactyla are not sister-taxa. Instead, the evidence clearly shows that cetaceans are a group embedded within Artiodactyla, not a sister-taxon of equal rank. It has long been accepted practice that systematists do not modify the names of higher groups when new subgroups are added to them. For example, Owen's original concept of Artiodactyla did not change its name when more and more disparate taxa were added to it. Dinosauria did not become "Avedinosauria" when it became clear that birds are a subgroup of dinosaurs, nor did Reptilia become "Avereptilia". In the interests of taxonomic priority and stability, and especially because the name is inherently misleading, we recommend that the name "Cetartiodactyla" be abandoned.If one wishes to make a reference to the fact that whales are now considered to be a subgroup of artiodactyls, they could be referred to informally as "whales and other artiodactyls" without using a formal taxonomic name that is confusing and misleading.

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A Size-Independent Revision of the Fractal Step Method for Ammonite Sutures

Marriott¹,

Ja²

2021

Preprint

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The novel coronavirus has presented specimen-access challenges to geoscientific researchers, including paleobiologists interested in fossil ammonoids. Ammonoid sutures are geometric patterns formed by the intersection of the septa and the shell wall, and have long been a diagnostic tool for ammonite researchers for such applications as species identification, taxonomic relationships, ontogenetic change, functional and evolutionary morphology, and other aspects of ammonoid paleobiology. Without access to specimens in museum and institutional collections, researchers must rely on previously published illustrations and photographs of ammonoid sutures. However, many of these illustrations were published decades ago without an index of scale. Suture tracings lacking a scale bar are not usable by researchers interested in applying the quantitativeness of fractal geometry to the interpretation of septal complexity. Additonally, distortion of the marginal elements of suture geometry occurs due to shell curvature near the venter and umbilicus. The revised approach described here eliminates the problem of missing scale information in fractal analysis of ammonite sutures, making use of just the lateral lobe and adjacent saddle. Our revised method’s non-requirement of a full hemisuture also facilitates comparisons among sutures within an ontogenetic sequence, or sutures from multiple ammonite taxa.

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Stasis Through Climate Change in the Late Pleistocene Birds and Mammals of La Brea Tar Pits

Prothero¹,

Syverson²,

Marriott³

2022

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STASIS IN THE EXTINCT LA BREA FRAGILE EAGLE (BUTEOGALLUS FRAGILIS) IN RESPONSE TO CLIMATE CHANGE

Santos¹,

Prothero²,

Marriott³

2022

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