Chapter 14 Interactions in an Ecosystem Animals and Their Habitats Biotic vs. Abiotic Factors • An ecosystem is made of both biotic and abiotic factors. • What biotic factors might scientists find in a Spectacled Bear’s habitat? • What abiotic factors might be in a Spectacled Bear’s habitat? • How do these factors differ for Polar Bears? Habitat vs. Niche • Habitat – describes the organism’s environment • Niche – describes how the organism interacts with its environment – Includes both biological and physical conditions in which an organism lives and how the organism uses those conditions for survival – It can include its place in the food web, preferred temperature, and abiotic factors – It is specific to each organism Competitive Exclusion Principle • This fundamental rule of Ecology states that no two species can occupy the same niche in the same habitat at the same time • Why? Symbiosis • Symbiosis – any relationship where two species live in close contact • Mutualism – both species benefit from the relationship • Commensalism – one species benefits and the other is neither helped nor harmed • Parasitism – one species harms the other Mutualism, Commensalism or Parasitism? How Populations Grow • Important characteristics of populations: geographic distribution, density, growth rate • Population density – number of individuals per unit area • Population dispersion patterns: clumped, uniform and random Survivorship Curves • Survivorship curves are generalized diagrams showing the number of surviving members over time from a measured set of births. • Type 1 – large mammals, low infant mortality, large number of elderly • Type 2 – birds, small mammals, reptiles, equal survivorship rate through out ages • Type 3 – fish, amphibians, plants, high mortality, high birth rates Population Growth • Populations fluctuate depending on different ecological pressures: births, deaths, immigration, emigration, etc. • Immigration – individuals moving into an area • Emigration – individuals moving out of an area Exponential Growth • Occurs when the individuals in a population reproduce at a constant rate • Typically occurs when a population has abundant space and food, and is protected from predators and disease • Characterized as “unrestricted growth” meaning there are no external pressures placed on the population • Will cease when carrying capacity is reached Logistic Growth • Begins as exponential growth • Population growth slows as a population reaches its carrying capacity – the largest number of individuals an environment can support • Birth rate may decline, death rate may increase, immigration or emigration may be fluctuating Limits to Growth • Limiting Factor – a factor that causes population growth to decrease • Examples: Density-dependent Limiting Factors • These factors depend on population size • Competition – what happens when the population increases, but resources stay the same? • Predation – natural way of controlling population; predator-prey relationship is fluctuating • Parasitism and Disease – may become more prevalent during high population density; limits population size similarly to predation Density-independent Factors • Affects all populations in similar ways, regardless of population size • Examples: Ecological Succession • Ecosystems change in response to human as well as natural disturbances. • What happens to an area after a forest fire? After a volcanic eruption? • Primary succession – succession the occurs where no soil exists and usually begins with pioneer species • Secondary succession – when change to the land occurs without removing the soil