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Natural selection is that force which p population from generation to generatio directional phenomenon, producing ch new species. Natural selection may be.
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Natural selection is that force which produces systematic heritable changes in a population from generation to generation, creating evolution. Thus it may become a directional phenomenon, producing changes in new species. Natural selection may be very fast or very slow depending upon the environmental demands and rate of genetic changes. American naturalists K. Mather & J.M. Theoday (1953) divided natural selection into 3 c stabilizing or normalising selection, directional or balancing selection and disruptive selection.
The standard distribution of a trait across a population
Natural selection is that force which produces systematic heritable changes in a population from generation to generation, creating evolution. Thus it may become a directional phenomenon, producing changes in a definite direction, giving rise to new species. Natural selection may be very fast or very slow depending upon the environmental demands and rate of genetic changes. American naturalists K. Mather & J.M. Theoday (1953) divided natural selection into 3 categories, viz., stabilizing or normalising selection, directional or balancing selection and
The standard distribution of a trait across a population
Natural selection is that force which produces systematic heritable changes in a population from generation to generation, creating evolution. Thus it may become a a definite direction, giving rise to new species. Natural selection may be very fast or very slow depending upon the environmental demands and rate of genetic changes. American naturalists K. ategories, viz., stabilizing or normalising selection, directional or balancing selection and
This type of natural selection operates in stable environmental conditions and in a short span of time, when species living in a particular environmental conditions are perfectly adapted to live in it. Thus individuals with extreme characters will be at a disadvantage as compared to the individuals having average characters and the latter would be favoured by natural selection. In is therefore a negative selection that weeds out continuously the less fit as well as more specialised genotypes from the
The effect of stabilizing selection on trait distribution Examples: H.C. Bumpus (1899) observed 133 sparrows killed in a storm and found that those birds that were killed possessed abnormally long or short wings, away from the average. Oppossum, an American ma the past 60 million years. Similarly, in the case of has taken place during the past 150 million years due to almost stable environment in New Zealand. M.N.Karn & L.S. Penrose (1951) studied rate of human babies in London hospitals and found that most of the babies that survived after birth had an average weight of 7.5 pounds.
effect of stabilizing selection on trait distribution H.C. Bumpus (1899) observed 133 sparrows killed in a storm and found that those birds that were killed possessed abnormally long or short wings, away from the average. Oppossum, an American marsupial, has changed very little over Similarly, in the case of Sphenodon, not much change has taken place during the past 150 million years due to almost stable environment in New Zealand. M.N.Karn & L.S. Penrose (1951) studied rate of human babies in London hospitals and found that most of the babies that survived after birth had an average weight of 7.5 pounds.
H.C. Bumpus (1899) observed 133 sparrows killed in a storm and found that those birds that were killed possessed abnormally long or short wings, away rsupial, has changed very little over not much change has taken place during the past 150 million years due to almost stable environment in New Zealand. M.N.Karn & L.S. Penrose (1951) studied the survival rate of human babies in London hospitals and found that most of the babies that
This selection is always onmental change, owing to which average characters become average or extreme characters, which may prove useful in the changed environment. This is directional rise to new types from the original population, which have the ability to survive the change in the environment. By keeping the gene from disappearing in heterozygous condition, natural selection condition changes. Species that have lots of heterozygotes and plenty of variations are the fittest ones
The effect of disruptive selection on trait distribution Examples: White tigers and white leopards are common in the populations. The former must have given rise to Siberian tiger and the latter to snow leopard by migration. Similarly, origin of bird’s wing from a reptilian foreleg must have occurred due to megamutation, but it may not have been an advantageous character in the formative stage but was still maintained in the population and became advantageous later. Polymorphi butterflies, aphids and hoppers (winged and wingless forms), web social insects. Polymorphism permits the species to exploit different types of ecological conditions by different forms. Widely distributed of environmental conditions, usually possess polymorphism.
K-selection and r-selection: These two categories are made based on the density of population and reproductive rate at which the natural selection operates. K-selection operates in stable environmental conditions in which species live in saturated population densities. These populations show sigmoid growth curves and live near the carrying capacity. Selection favours those individuals that have enhanced competitive ability at high population densities near the carrying capacity. Such populations have slow growth rate and prevail in non tropics. r-selection operates on populations having rapid growth rate but low adaptiveness. They can rapidly exploit new environment, such as a burnt out forest or brief summer in mountains or in areas of uncertain environmental stress, e.g. storm,
The effect of disruptive selection on trait distribution White tigers and white leopards are common in the populations. The former must have given rise to Siberian tiger and the latter to snow leopard by Similarly, origin of bird’s wing from a reptilian foreleg must have occurred due to megamutation, but it may not have been an advantageous character in the formative stage but was still maintained in the population and became advantageous later. Polymorphism is very common in insects, such as butterflies, aphids and hoppers (winged and wingless forms), web-spinners and social insects. Polymorphism permits the species to exploit different types of ecological conditions by different forms. Widely distributed species, living in mosaic of environmental conditions, usually possess polymorphism.
These two categories are made based on the density of population and reproductive rate at which the natural selection operates. operates in stable environmental conditions in which species live in saturated population densities. These populations show sigmoid growth curves and live near the carrying capacity. Selection favours those individuals that have itive ability at high population densities near the carrying capacity. Such populations have slow growth rate and prevail in non
operates on populations having rapid growth rate but low adaptiveness. new environment, such as a burnt out forest or brief summer in mountains or in areas of uncertain environmental stress, e.g. storm,
White tigers and white leopards are common in the populations. The former must have given rise to Siberian tiger and the latter to snow leopard by Similarly, origin of bird’s wing from a reptilian foreleg must have occurred due to megamutation, but it may not have been an advantageous character in the formative stage but was still maintained in the population and sm is very common in insects, such as spinners and social insects. Polymorphism permits the species to exploit different types of species, living in mosaic
These two categories are made based on the density of population and reproductive rate at which the natural selection operates. operates in stable environmental conditions in which species live in saturated population densities. These populations show sigmoid growth curves and live near the carrying capacity. Selection favours those individuals that have itive ability at high population densities near the carrying capacity. Such populations have slow growth rate and prevail in non-seasonal
operates on populations having rapid growth rate but low adaptiveness. new environment, such as a burnt out forest or brief summer in mountains or in areas of uncertain environmental stress, e.g. storm,
drought, fire etc. Such populations are good pioneers and can rapidly exploit a new environment with their high biotic potential and no selection pressure. They show J-shaped growth curves, as in the case of seasonal insects.
Natural selection in microorganisms Microorganisms reproduce in three ways and natural selection may be different accordingly.