The Ultimate Guide To Evolution Site
The Academy's Evolution Site
The concept of biological evolution is among the most central concepts in biology. The Academies are involved in helping those interested in science learn about the theory of evolution and how it is incorporated in all areas of scientific research.
This site provides a wide range of tools for teachers, students, and general readers on evolution. It contains key video clips from NOVA and WGBH produced science programs on DVD.
Tree of Life
The Tree of Life is an ancient symbol that symbolizes the interconnectedness of life. It is a symbol of love and unity in many cultures. It also has important practical applications, like providing a framework to understand the history of species and how they react to changing environmental conditions.
Early attempts to represent the world of biology were built on categorizing organisms based on their physical and metabolic characteristics. These methods, which relied on the sampling of different parts of living organisms or on sequences of small fragments of their DNA greatly increased the variety of organisms that could be represented in a tree of life2. These trees are largely composed by eukaryotes and the diversity of bacterial species is greatly underrepresented3,4.
By avoiding the need for direct observation and experimentation genetic techniques have allowed us to depict the Tree of Life in a more precise manner. Particularly, molecular methods allow us to build trees using sequenced markers such as the small subunit of ribosomal RNA gene.
Despite the dramatic expansion of the Tree of Life through genome sequencing, much biodiversity still remains to be discovered. This is particularly true for microorganisms, 에볼루션 코리아 which can be difficult to cultivate and are often only present in a single specimen5. Recent analysis of all genomes has produced an unfinished draft of a Tree of Life. This includes a large number of bacteria, archaea and other organisms that haven't yet been isolated or the diversity of which is not thoroughly understood6.
The expanded Tree of Life is particularly useful in assessing the diversity of an area, helping to determine if certain habitats require special protection. This information can be used in a variety of ways, such as finding new drugs, 에볼루션 battling diseases and enhancing crops. This information is also extremely useful in conservation efforts. It can aid biologists in identifying areas that are most likely to be home to cryptic species, which may have important metabolic functions, and could be susceptible to the effects of human activity. Although funds to protect biodiversity are crucial but the most effective way to ensure the preservation of biodiversity around the world is for more people living in developing countries to be equipped with the knowledge to act locally to promote conservation from within.
Phylogeny
A phylogeny (also known as an evolutionary tree) depicts the relationships between species. By using molecular information as well as morphological similarities and distinctions or ontogeny (the course of development of an organism) scientists can construct a phylogenetic tree that illustrates the evolution of taxonomic groups. Phylogeny is crucial in understanding biodiversity, evolution and genetics.
A basic phylogenetic tree (see Figure PageIndex 10 Identifies the relationships between organisms that have similar traits and have evolved from an ancestor that shared traits. These shared traits can be homologous, or analogous. Homologous traits are the same in their evolutionary journey. Analogous traits may look like they are, but they do not have the same ancestry. Scientists group similar traits into a grouping called a the clade. All organisms in a group have a common characteristic, for example, amniotic egg production. They all derived from an ancestor with these eggs. The clades are then connected to form a phylogenetic branch to determine which organisms have the closest relationship.
Scientists utilize DNA or 에볼루션 룰렛 RNA molecular information to create a phylogenetic chart which is more precise and precise. This information is more precise and gives evidence of the evolutionary history of an organism. Molecular data allows researchers to determine the number of species that have an ancestor common to them and estimate their evolutionary age.
The phylogenetic relationships of organisms can be affected by a variety of factors, including phenotypic plasticity a kind of behavior that changes in response to specific environmental conditions. This can cause a characteristic to appear more similar to a species than to another which can obscure the phylogenetic signal. However, this issue can be cured by the use of techniques such as cladistics which incorporate a combination of analogous and homologous features into the tree.
In addition, 에볼루션사이트 phylogenetics can help predict the duration and rate of speciation. This information will assist conservation biologists in making choices about which species to save from the threat of extinction. In the end, it is the conservation of phylogenetic diversity that will result in an ecosystem that is balanced and complete.
Evolutionary Theory
The fundamental concept in evolution is that organisms change over time due to their interactions with their environment. A variety of theories about evolution have been developed by a wide range of scientists including the Islamic naturalist Nasir al-Din al-Tusi (1201-1274) who proposed that a living organism develop slowly according to its requirements and needs, the Swedish botanist Carolus Linnaeus (1707-1778) who developed the modern hierarchical taxonomy, as well as Jean-Baptiste Lamarck (1744-1829) who suggested that the use or non-use of traits causes changes that can be passed onto offspring.
In the 1930s and 1940s, ideas from different fields, including natural selection, genetics & particulate inheritance, came together to create a modern evolutionary theory. This describes how evolution is triggered by the variations in genes within the population, and how these variations change over time as a result of natural selection. This model, which is known as genetic drift or mutation, gene flow, and sexual selection, is a cornerstone of current evolutionary biology, and can be mathematically explained.
Recent discoveries in the field of evolutionary developmental biology have demonstrated that variations can be introduced into a species through mutation, genetic drift, and reshuffling genes during sexual reproduction, as well as through the movement of populations. These processes, along with others such as directional selection and gene erosion (changes in frequency of genotypes over time) can result in evolution. Evolution is defined as changes in the genome over time as well as changes in the phenotype (the expression of genotypes in an individual).
Students can gain a better understanding of phylogeny by incorporating evolutionary thinking into all areas of biology. In a recent study by Grunspan and co. It was found that teaching students about the evidence for evolution increased their understanding of evolution during an undergraduate biology course. To learn more about how to teach about evolution, look up The Evolutionary Potential of All Areas of Biology and Thinking Evolutionarily: A Framework for Infusing Evolution into Life Sciences Education.
Evolution in Action
Scientists have traditionally studied evolution by looking in the past--analyzing fossils and 무료에볼루션 comparing species. They also observe living organisms. Evolution is not a distant event; it is a process that continues today. Viruses evolve to stay away from new medications and bacteria mutate to resist antibiotics. Animals adapt their behavior as a result of a changing world. The results are usually visible.
It wasn't until the late 1980s that biologists began realize that natural selection was also at work. The key is that different traits confer different rates of survival and reproduction (differential fitness) and can be passed down from one generation to the next.
In the past, when one particular allele, the genetic sequence that controls coloration - was present in a group of interbreeding organisms, it could quickly become more common than the other alleles. In time, this could mean the number of black moths in the population could increase. The same is true for many other characteristics--including morphology and behavior--that vary among populations of organisms.
It is easier to observe evolution when the species, like bacteria, has a rapid generation turnover. Since 1988 biologist Richard Lenski has been tracking twelve populations of E. bacteria that descend from a single strain; samples of each population are taken every day and over fifty thousand generations have passed.
Lenski's work has shown that mutations can alter the rate at which change occurs and the rate of a population's reproduction. It also demonstrates that evolution is slow-moving, a fact that many find hard to accept.
Microevolution is also evident in the fact that mosquito genes for pesticide resistance are more prevalent in populations where insecticides have been used. This is because pesticides cause an exclusive pressure that favors individuals who have resistant genotypes.
The rapidity of evolution has led to a greater appreciation of its importance, especially in a world shaped largely by human activity. This includes climate change, pollution, and habitat loss, which prevents many species from adapting. Understanding evolution will help us make better decisions about the future of our planet, and the life of its inhabitants.