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Full-Text Articles in Marine Biology
What Can Computational Modeling Tell Us About The Diversity Of Odor-Capture Structures In The Pancrustacea?, Lindsay D. Waldrop, Yanyan He, Shilpa Khatri
What Can Computational Modeling Tell Us About The Diversity Of Odor-Capture Structures In The Pancrustacea?, Lindsay D. Waldrop, Yanyan He, Shilpa Khatri
Biology, Chemistry, and Environmental Sciences Faculty Articles and Research
A major transition in the history of the Pancrustacea was the invasion of several lineages of these animals onto land. We investigated the functional performance of odor-capture organs, antennae with olfactory sensilla arrays, through the use of a computational model of advection and diffusion of odorants to olfactory sensilla while varying three parameters thought to be important to odor capture (Reynolds number, gap-width-to-sensillum-diameter ratio, and angle of the sensilla array with respect to oncoming flow). We also performed a sensitivity analysis on these parameters using uncertainty quantification to analyze their relative contributions to odor-capture performance. The results of this analysis …
Large Amplitude, Short Wave Peristalsis And Its Implications For Transport, Lindsay D. Waldrop, Laura A. Miller
Large Amplitude, Short Wave Peristalsis And Its Implications For Transport, Lindsay D. Waldrop, Laura A. Miller
Biology, Chemistry, and Environmental Sciences Faculty Articles and Research
Valveless, tubular pumps are widespread in the animal kingdom, but the mechanism by which these pumps generate fluid flow is often in dispute. Where the pumping mechanism of many organs was once described as peristalsis, other mechanisms, such as dynamic suction pumping, have been suggested as possible alternative mechanisms. Peristalsis is often evaluated using criteria established in a technical definition for mechanical pumps, but this definition is based on a small-amplitude, long-wave approximation which biological pumps often violate. In this study, we use a direct numerical simulation of large-amplitude, short-wave peristalsis to investigate the relationships between fluid flow, compression frequency, …
The Role Of The Pericardium In The Valveless, Tubular Heart Of The Tunicate, Ciona Savignyi, Lindsay D. Waldrop, Laura A. Miller
The Role Of The Pericardium In The Valveless, Tubular Heart Of The Tunicate, Ciona Savignyi, Lindsay D. Waldrop, Laura A. Miller
Biology, Chemistry, and Environmental Sciences Faculty Articles and Research
Tunicates, small invertebrates within the phylum Chordata, possess a robust tubular heart which pumps blood through their open circulatory systems without the use of valves. This heart consists of two major components: the tubular myocardium, a flexible layer of myocardial cells that actively contracts to drive fluid down the length of the tube; and the pericardium, a stiff, outer layer of cells that surrounds the myocardium and creates a fluid-filled space between the myocardium and the pericardium. We investigated the role of the pericardium through in vivo manipulations on tunicate hearts and computational simulations of the myocardium and pericardium using …