Surface Tension

The innovative structural and physical properties of Radiolaria

ABSTRACT The intricate silica skeletons of Radiolaria, a type of marine microorganism, exhibit striking optical fiber-like properties, offering a potential roadmap for future innovations in the optical field. Beyond their applications for photonics, radiolarians are fascinating models for studying buoyancy control. They exhibit a variety of adaptive mechanisms that alter

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Mathematical Models of Diatoms: Understanding Their Complex Shape, Reproduction and Chain Formation

Apart from physical and chemical solutions used by the diatom for survival, some features of the unicellular microalgae also could be described in mathematics. For instance, the diatom morphology reveals a striking alignment with the golden ratio and fractal geometry. By examining the silica shells of these unicellular algae, we…

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Mathematical Space-Filling Models and Applications in Adipose Tissue

The mechanisms describing how objects occupy space are some of the most fundamental topics of study and can be applied to countless chemical, physical, and biological phenomena. This is a topic that people have sought to understand for millennia, and it remains an integral part of our understanding of many…

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A Biomechanical Review of Animal Tongue Functions

The animal kingdom is characterized by an astonishing diversity in tongue morphologies, functions and mechanical abilities. Through evolution, different animal tongues have adapted to perform complex mechanical functions in prey-catching and feeding in order to ensure the survival of their species. Chameleons possess the ability to ballistically project their tongues…

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Bioinformatics and Sensory Function of Mammalian Fur: An Analysis of Coat Patterning, Whiskers, and Trigger Hairs

The Turing pattern, which is further explained in the paper, is an observed pattern in natural systems ranging from cheetah print to coral growth. Alan Turing proposed a mathematical model to describe pattern formation based on reaction and diffusion rates of morphogens, and this model holds true for a vast…

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Information Storage and Processing as Part of Pattern Formation, Photoreception, Thermoreception, and Mechanoreception of the Integument

Biological information storage and processing form the foundation for understanding organisms’ operation in nature. In this report, we examine the signaling and mathematical components of the skin from a portfolio of animals to illustrate their significance in governing the biomolecular and structural components in which they are intertwined. Particularly, we…

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Biological Design for Lungs and Gills: Information and Storage Processing

This report describes two of the most important gas exchangers for all living animals: lungs and gills. Throughout the research, cutaneous respiration will also be explained; however, the most efficient oxygen diffusion rates are obtained through lungs and gills, which are our main concern. The purpose of this biological design…

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Biological Design for Lungs and Gills: Biomolecular and Chemical Engineering

This report describes two of the most important gas exchangers for all living animals: lungs and gills. Throughout the research, cutaneous respiration will also be explained, however, the most efficient oxygen diffusing rates are obtained through lungs and gills, which are our main concern. The purpose of this biological design…

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Marvels of Eggshell Pigmentation: Why Eggshells Vary so Greatly in Color and Pattern

In contrast to their closest modern relatives, the family Crocodylinae, avian eggs dramatically range in egg size, shape and color. Primarily for protection from predators, many bird species have evolved unique phenotypes including colored shell markings that represent a novel development in the phylum Chordata’s gene pool. Selection for egg…

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Biological Design for Lungs and Gills: Biomechanics and Materials 

This report describes two of the most important gas exchangers for all living animals: lungs and gills. Throughout the research, cutaneous respiration will also be explained; however, the most efficient oxygen diffusing rates are obtained through lungs and gills, which are our main concern. The purpose of this biological design…

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Rodent Adaptations to Ever-growing Teeth

Rodents have ever-growing incisors as a result of their chew-intensive diets. The potential consequences of this growth are numerous and can cause serious diseases for these animals. To avoid these outcomes, the structures and mechanisms involved in the function of nutrition must adapt to this trait. Therefore, the incisors are…

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