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Population Numbers AG-WL-6. Population Dynamics  Short and long term changes in the size and age composition of populations, and the biological and environmental.

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Presentation on theme: "Population Numbers AG-WL-6. Population Dynamics  Short and long term changes in the size and age composition of populations, and the biological and environmental."— Presentation transcript:

1 Population Numbers AG-WL-6

2 Population Dynamics  Short and long term changes in the size and age composition of populations, and the biological and environmental processes influencing these changes  Deals with the way populations are affected by birth and death rates, and by immigration and emigration, and studies topics such as aging or population declines  Short and long term changes in the size and age composition of populations, and the biological and environmental processes influencing these changes  Deals with the way populations are affected by birth and death rates, and by immigration and emigration, and studies topics such as aging or population declines

3 Population Dynamics may change due to…  Reproduction rates  Social conflicts  Movements of animals  Ecological succession or disturbance  Death  Reproduction rates  Social conflicts  Movements of animals  Ecological succession or disturbance  Death

4 Qualities that Define Welfare of Wildlife  Age Structure  Proportional amount of young and old age classes  Can be depicted by a “triangle”  Lots of young on the bottom and very few old on the top  Age may be measured in years, weeks, or days  Young and very old experience the highest mortality rates  Lifespan  Different species have different lifespans  Species towards the end of the food chain are usually much longer-lived  Combination of lifespan and age structure explain general health of population  Sex Ratio  Each species has an “ideal” sex ratio  Appropriate sex ratios will maximize the ability of a species to produce new individuals  Age Structure  Proportional amount of young and old age classes  Can be depicted by a “triangle”  Lots of young on the bottom and very few old on the top  Age may be measured in years, weeks, or days  Young and very old experience the highest mortality rates  Lifespan  Different species have different lifespans  Species towards the end of the food chain are usually much longer-lived  Combination of lifespan and age structure explain general health of population  Sex Ratio  Each species has an “ideal” sex ratio  Appropriate sex ratios will maximize the ability of a species to produce new individuals

5 Qualities that Define Welfare of Wildlife  Natality & Mortality  Reflects pressures to increase and decrease population size  Migration  Winters and dry seasons result in less available food and water  Animals will migrate to accommodate the seasonal fluctuations  Carrying Capacity  When most species approach their carrying capacity, mortality factors overtake natality and the population will decline  Natality & Mortality  Reflects pressures to increase and decrease population size  Migration  Winters and dry seasons result in less available food and water  Animals will migrate to accommodate the seasonal fluctuations  Carrying Capacity  When most species approach their carrying capacity, mortality factors overtake natality and the population will decline

6 Limits to Population Size Around Carrying Capacity  Theoretical maximum rate of growth of a population is limited by factors that restrict the reproduction and survival of individuals

7 Density Independent Factors Any limit on a population that is not related to the population numbers  Natural Forces – fire, storms, flooding, tornadoes, volcanoes, etc.  Weather Changes – periodic cold weather in temperate climates  Human Activities – heated water discharged by power plants can impact 100% mortality on fish; chemicals accidently or intentionally released into the environment  Habitat Destruction – roadways, farms, suburbs, factories, cities, etc. Any limit on a population that is not related to the population numbers  Natural Forces – fire, storms, flooding, tornadoes, volcanoes, etc.  Weather Changes – periodic cold weather in temperate climates  Human Activities – heated water discharged by power plants can impact 100% mortality on fish; chemicals accidently or intentionally released into the environment  Habitat Destruction – roadways, farms, suburbs, factories, cities, etc.

8 Density Dependent Factors Any limit on a population that is related to the population numbers  Predation – organisms must hunt and kill others for nutritional needs  Competition – cover, water, food, breeding sites, and space  Physically unfit are particularly affected  If organisms are forced to colonize, poorer habitats, death from starvation, disease, or predation may occur  Parasitism – organisms that feed on tissues of other organisms are more easily transmitted among individuals when the population density is high  Disease – populations may be severely depleted by disease because the transportation distance between carriers is reduced Any limit on a population that is related to the population numbers  Predation – organisms must hunt and kill others for nutritional needs  Competition – cover, water, food, breeding sites, and space  Physically unfit are particularly affected  If organisms are forced to colonize, poorer habitats, death from starvation, disease, or predation may occur  Parasitism – organisms that feed on tissues of other organisms are more easily transmitted among individuals when the population density is high  Disease – populations may be severely depleted by disease because the transportation distance between carriers is reduced

9 Factors Affecting Natality  Habitat  Minimum breeding age  Maximum breed age  Number of young produced per year  Length of life after maximum breeding age  Sex and age composition of the population  Mating habitats related to age and sex compositions of the population  Habitat  Minimum breeding age  Maximum breed age  Number of young produced per year  Length of life after maximum breeding age  Sex and age composition of the population  Mating habitats related to age and sex compositions of the population

10 Biological Surplus A scientific name for the number of animals in a given populations that are above the carrying capacity  Most game animals have high biological surplus  If animals are being harvested or dying faster than they can be replaced, the number of breeding animals will be reduced, and the herd or flock will not be able to sustain its numbers  It is important to have enough mature animals to produce offspring and enough offspring to replace maturing animals as they die A scientific name for the number of animals in a given populations that are above the carrying capacity  Most game animals have high biological surplus  If animals are being harvested or dying faster than they can be replaced, the number of breeding animals will be reduced, and the herd or flock will not be able to sustain its numbers  It is important to have enough mature animals to produce offspring and enough offspring to replace maturing animals as they die

11 Biological Surplus  If 25 deer exist in a habitat with a carrying capacity for 25, and 12 fawns are born and 2 adults die of natural causes, the new population will be 35.  The biological surplus for the deer populations will be 10.  The 10 deer will either move to other areas or will die of starvation, disease, predators, or hunting  Those 10 deer are the extra and can be removed without changing the overall population  If 25 deer exist in a habitat with a carrying capacity for 25, and 12 fawns are born and 2 adults die of natural causes, the new population will be 35.  The biological surplus for the deer populations will be 10.  The 10 deer will either move to other areas or will die of starvation, disease, predators, or hunting  Those 10 deer are the extra and can be removed without changing the overall population

12 Biotic Potential  Maximum reproductive capacity of a population if resources are unlimited  Can only be reached when environmental conditions are very favorable  A species reaching its biotic potential would exhibit exponential population growth and be determined to have a high fertility rate  Maximum reproductive capacity of a population if resources are unlimited  Can only be reached when environmental conditions are very favorable  A species reaching its biotic potential would exhibit exponential population growth and be determined to have a high fertility rate

13 Biotic Potential Influences  Age at which reproduction begins  Time the species remains reproductive  Number of offspring produced during each period of reproduction  Age at which reproduction begins  Time the species remains reproductive  Number of offspring produced during each period of reproduction

14 Activity  Raptor Population Ecology Raptor Population Ecology  Raptor Population Ecology Raptor Population Ecology


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