Elizabeth G Clark

Overview

Explore the profile of Elizabeth G Clark including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 16

Citations 77

Followers 0

Related Specialties

Biology

Science

Anatomy & Histology

Top 10 Co-Authors

Derek E G Briggs

Huijuan Mai

Alan H Breaud

Gongle Shi

Patrick S Herendeen

Simon A F Darroch

Tamorish Kole

Craig R Brodersen

Hitoshi Aonuma

Akio Ishiguro

Published In

Nature

Real Property Probate Trust J

World J Emerg Med

J Anat

R Soc Open Sci

Affiliations

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Recent Articles

A pyritized Ordovician leanchoiliid arthropod

Parry L, Briggs D, Ran R, OFlynn R, Mai H, Clark E, et al.

Curr Biol . 2024 Oct; 34(23):5578-5586.e2. PMID: 39476836

The "short-great-appendage" arthropods (Megacheira), such as Leanchoilia, have featured heavily in discussions of arthropod evolution, particularly related to the head and its appendages. Megacheirans are subject to competing interpretations, either...

Anatomy of an agricultural antagonist: Feeding complex structure and function of three xylem sap-feeding insects illuminated with synchrotron-based 3D imaging

Clark E, Cornara D, Brodersen C, McElrone A, Parkinson D, Almeida R

J Morphol . 2023 Sep; 284(10):e21639. PMID: 37708508

Many insects feed on xylem or phloem sap of vascular plants. Although physical damage to the plant is minimal, the process of insect feeding can transmit lethal viruses and bacterial...

Back to life: Techniques for developing high-quality 3D reconstructions of plants and animals from digitized specimens

Clark E, Jenkins K, Brodersen C

PLoS One . 2023 Mar; 18(3):e0283027. PMID: 36989314

Expanded use of 3D imaging in organismal biology and paleontology has substantially enhanced the ability to visualize and analyze specimens. These techniques have improved our understanding of the anatomy of...

A permineralized Early Cretaceous lycopsid from China and the evolution of crown clubmosses

Herrera F, Testo W, Field A, Clark E, Herendeen P, Crane P, et al.

New Phytol . 2022 Jan; 233(5):2310-2322. PMID: 34981832

Lycopodiaceae are one of three surviving families of lycopsids, a lineage of vascular plants with a fossil history dating to at least the Early Devonian or perhaps the Late Silurian...

Crab in amber reveals an early colonization of nonmarine environments during the Cretaceous

Luque J, Xing L, Briggs D, Clark E, Duque A, Hui J, et al.

Sci Adv . 2021 Oct; 7(43):eabj5689. PMID: 34669480

Amber fossils provide snapshots of the anatomy, biology, and ecology of extinct organisms that are otherwise inaccessible. The best-known fossils in amber are terrestrial arthropods—principally insects—whereas aquatic organisms are rarely...

Mesozoic cupules and the origin of the angiosperm second integument

Shi G, Herrera F, Herendeen P, Clark E, Crane P

Nature . 2021 May; 594(7862):223-226. PMID: 34040260

The second integument of the angiosperm ovule is unique among seed plants, with developmental genetics that are distinct from those of the inner integument. Understanding how the second integument should...

Arm waving in stylophoran echinoderms: three-dimensional mobility analysis illuminates cornute locomotion

Clark E, Hutchinson J, Bishop P, Briggs D

R Soc Open Sci . 2020 Aug; 7(6):200191. PMID: 32742688

The locomotion strategies of fossil invertebrates are typically interpreted on the basis of morphological descriptions. However, it has been shown that homologous structures with disparate morphologies in extant invertebrates do...

Decentralized Control Mechanism for Determination of Moving Direction in Brittle Stars With Penta-Radially Symmetric Body

Kano T, Kanauchi D, Aonuma H, Clark E, Ishiguro A

Front Neurorobot . 2019 Sep; 13:66. PMID: 31507399

A brittle star, an echinoderm with penta-radially symmetric body, can make decisions about its moving direction and move adapting to various circumstances despite lacking a central nervous system and instead...

The function of the ophiuroid nerve ring: how a decentralized nervous system controls coordinated locomotion

Clark E, Kanauchi D, Kano T, Aonuma H, Briggs D, Ishiguro A

J Exp Biol . 2018 Nov; 222(Pt 2). PMID: 30464042

Echinoderms lack a centralized nervous control system, yet each extant echinoderm class has evolved unique and effective strategies for locomotion. Brittle stars (Ophiuroidea) stride swiftly over the seafloor by coordinating...

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Integrating morphology and in vivo skeletal mobility with digital models to infer function in brittle star arms

Clark E, Hutchinson J, Darroch S, Mongiardino Koch N, Brady T, Smith S, et al.

J Anat . 2018 Oct; 233(6):696-714. PMID: 30353539

Brittle stars (Phylum Echinodermata, Class Ophiuroidea) have evolved rapid locomotion employing muscle and skeletal elements within their (usually) five arms to apply forces in a manner analogous to that of...