In textbooks, adaptation, specifically biological adaptation, is usually defined as the method an organism adopts to better survive in its environment and reproduce. In scholarly papers, however, adaptation isn’t always as simple as that. An adaptation can be a structure that gives advantage to an organism over other similar organisms, or a behavior that helps the organism survive in its environment against predators. Sometimes even the adaptation itself wasn’t originally intended for its current biological role, or how it is used in the organism’s environment; this adaptation is sometimes called preadaptation (Kardong, 2006). Because it is difficult to identify which structures are adaptations and which are preadaptations, there is much controversy over the subject in the scholarly world. Often it is helpful to study these adaptations in ancient animals, but as most of these are extinct, scientists can only gather information from their close relatives, and even these aren’t conclusive enough.
For a structure to have a biological role in an organism, it must serve some purpose in the organism. For a biological adaptation to be considered as such, it must have some value in the organism in terms of survival against predators or production of offspring. While some structures are already adapted to their environment and biological roles, other structures can further adapt to changes in their environment through repeated stimuli. For example, bone in vertebrates is adapted to support and protect vertebrate organs, but it can also grow and remodel itself after mechanical wear and tear (Fratzl & Weinkamer, 2011). The continued, repetitive remodeling of bone improves it performance and further enforces and enhances its biological role. ...
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...mparative Anatomy, Function, Evolution (4th ed.). New York, NY: McGraw-Hill.
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Fratzl, Peter, & Weinkamer, Richard. 2011. Mechanical adaptation of biological materials—the examples of bone and wood. Materials Science and Engineering: C, 31 (6), 1164-1173.
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Describe the microscopic features of osseous tissue that help long bones withstand compressive forces without breaking.
An adaptation is the characteristic of an organism that makes it likely to survive. There are three types of adaptations: structural, physiological, and behavioural. Structural adaptations are physical features, physiological adaptations are related to the internal body functions, while behavioural adaptations refer to how organisms respond to stimuli (Beavis 2014). This paper will discuss some adaptations that help koalas and eucalyptus trees survive in their environments.
Introduction to Human Anatomy and Physiology Third Edition by Eldra Pear Soloman (pgs. 51 and 58)
The second of Tinbergen’s questions Phylogeny looks at the evolutionary explanations of development, as opposed to just how behaviour has adapted, including mutations in response to environmental changes. Some of these mutations remain in species even after necessity has gone, and can influence future characteristics of that species. The third of Tinbergen’s questions looks at Causation,...
middle of paper ... ... that occurs is only that which allows for a species to adapt to its present circumstances. As the examples given here illustrate, natural selection may take on many forms and give a species better defensive, offensive, or reproductive measures in the struggle for existence, which, though it sounds dramatic and urgent, is nothing more than being able to effectively cope with the external world and reproduce. Works Cited Darwin, Charles. The Origin of Species.
According to Darwin and his theory on evolution, organisms are presented with nature’s challenge of environmental change. Those that possess the characteristics of adapting to such challenges are successful in leaving their genes behind and ensuring that their lineage will continue. It is natural selection, where nature can perform tiny to mass sporadic experiments on its organisms, and the results can be interesting from extinction to significant changes within a species.
The Galapagos Islands, located about 600 miles west of continental Ecuador, contain a rich history of settlement and exploration and represent a living example of evolution that is still relevant today. For centuries, this chain of volcanic islands has been used uniquely by various cultures based off distinct needs. What has remained the same however is the fact that island isolation has forced many animal and plant species to adapt differently from one another based off their island’s environmental conditions, creating a living model of microevolution over time. Today, these models tend to be the primary resources used by biology professors when teaching their students evolutionary topics.
The concept of transitional species is an important and complex notion in evolutionary biology. To begin with, there is no such thing as transitional species since all living things were always evolving in the past, not stopping at one stage or another, and they will continue to evolve in the future. In terms of evolutionary biology, we use the concept of transitional species as a way to dim ambiguity. Much like the use of the Linnean taxonomic system of species, we come up with concepts like transitional species to organize and classify species in order to understand their evolutionary roots and how those species changed through life’s history to become what they are today. “In the same way that the concept of species can be provisionally meaningful to describe organisms at a single point in time, the concept of transitional species can be provisionally meaningful to describe organisms over a length of time, usually quite a long time, such as hundreds of thousands or millions of years” (111). Though it can be difficult to distinguish what can be considered an ancestral species from another, the fossil record can show us how species change through time as they develop ways to adapt to stresses found in their environments. “In the modern sense, organisms or fossils that show intermediate stages between ancestral and that of the current state are referred to as transitional species” (222). The concept of transitional species is, in essence, fairly straight forward. This paper will outline the concept of transitional (or sometimes termed intermediate) species and the latter’s role in evolutionary biology, as well as go in depth about several common transitional species: Tiktaalik, an animal at the cusp between life in the water and ...
It is important to notice that the opening chapter acts essentially as an introduction to a wider discussion throughout his book. In an effort to give his exploration some order and consistency, Bluestone organizes his discussion under five sections. He identifies five main points, which composes the process of adaptation. Despite these efforts to contain each discussion under such headings, Bluestone’s discussion goes off track during his analysis, which only makes the laws that govern adaptation harder to underst...
Bone homeostasis occurs when the bones are being “remodelled” or it is also known as “bone metabolism” this is the process in which new bone is created and the old bone which was there was removed, it is more common to see this process in younger growing children or adults who have broken any bones.
Many scientists in the past, such as Aristotle and Plato, believed that there were no changes in populations; however, other scientists, such as Darwin and Wallace, arose and argued that species inherit heritable traits from common ancestors and environmental forces drives out certain heritable traits that makes the species better suited to survive or be more “fit” for that environment. Therefore, species do change over a period of time and they were able to support their theory by showing that evolution does occur. There were four basic mechanisms of evolution in their theory: mutation, migration, genetic drift, and natural selection. Natural selection is the gradual process by which heritable traits that makes it more likely for an organism to survive and successfully reproduce increases, whereas there is a decline in those who do have those beneficial heritable traits (Natural Selection). For example, there is a decrease in rain which causes a drought in the finches’ environment. The seeds in the finches’ environment would not be soft enough for the smaller and weaker beak finches to break; therefore, they cannot compete with the larger and stronger beak finches for food. The larger and stronger beak finches has a heritable trait that helps them survive and reproduce better than others for that particular environment which makes them categorized under natural selection (Freeman, 2002).
Extinction, although not as pleasant a concept as the idea of adapting to ones surroundings, plays just as large a role in natural selection as anything else. As one adaptation of a species proves beneficial, and as that variation begins to propagate, the original, less advantageous variant will die off. It is the unchanged species that are in immediate conflict with the species undergoing the natural adaptation that stand to suffer...
2 linda hutcheon, A Theory of adaptation, Ed. Linda Hutcheon. (New York; Rouledge,2006. Preface (pg
The world we live in today is full of an exceptional variety of animals. The time it took to conclude to the various sorts of species seen today has been throughout a period of millions of years. The vast majority of these animals are accredited to evolutionary advancements. When the environment changes, organisms have become accustomed to changing to fit their environment, to ensure their species does not die off. These physical changes have resulted in different phyla, ranging from basic structures, like sponges to advance systems, like that of an octopus.
From the frozen tundra of the arctic north to the arid deserts of sub-Saharan Africa – humans not only survive, but even thrive in some of the most extreme and remote environments on the planet. This is a testament to the remarkable capacity for adaptation possessed by our species. Each habitat places different stressors on human populations, and they must adapt in order to mitigate them. That is, adaptation is the process by which man and other organisms become better suited to their environments. These adaptations include not only physical changes like the larger lung capacities observed in high altitude natives but also cultural and behavioral adjustments such as traditional Inuit clothing styles, which very effectively retain heat but discourage deadly hyperthermia-inducing sweat in Arctic climates. Indeed, it seems this later mechanism of adaptation is often much more responsible for allowing humans to populate such a wide variety of habitats, spanning all seven continents, rather than biological mechanisms. Of course, not all adaptations are entirely beneficial, and in fact may be maladaptive, particularly behavior adaptations and highly specialized physical adaptations in periods of environmental change. Because people rely heavily on social learning, maladaptaptive behaviors such as sedentarization and over-eating – both contributing to obesity – are easily transmitted from person to person and culture to culture, as seen in the Inuit’s adoption of American cultural elements.