Interactions of Life

... • EX: Lack of rain • Limits plant growth-plants produce fewer seedslimiting factor for mice that eats these seeds limiting factor for hawks and owls (feed on mice) ...

Principles of Ecology

... = where an organism lives out its life ◦Several species may share a similar habitat and its resources ...

All Forested Wetlands Continental Plan Estimate

... -How do I incorporate the C-Plan objectives (increase by 10%, increase by 50%, or double population estimate)? -How do I distribute a species population among habitats (upland vs. bottomlands)? - Should I use a population estimate derived from the 1990s as the basis of my habitat objectives? ...

Document

... 8.L.3.2 Summarize the relationship among producers, consumers and decomposers, including the positive and negative consequences of such interactions including: Coexistence and cooperation ...

Notes - Marine Ecology

... 2. Populations - 2 or more individuals of the same species who must compete for mates, food, light, and space because they occupy the same niche and habitat. DNA studies are used to identify which individuals are part of a population. Population density is the number of individuals divided by the s ...

1. Ecology Introductory Concepts

... When the niches of two species overlap, there is competition for limited resources such that the greater the overlap, the more intense the competition In extreme cases, where two species have identical niches, competition can be so intense that the different species are unable to coexist and one spe ...

Populations

... size, environment, and way of life. Different species have different needs for space. This need for space determines how many individuals of a given species can live in the same area at the same time. ...

Unit 2- Ecology

... Biomes Lesson EQ: ...

2.7 Biotic and Abiotic Influences on Ecosystems

... Density dependent: factors that are based on the size of the population. • Disease • Predation (When one species preys (feeds) on another) • Competition (for resources such as nesting sites, water, or food) ...

Ecology - Coastalzone

... the limiting factors and effects • Limiting Factors - any resource or requirement that acts to limit population when in short supply • Carrying capacity (K) - the greatest population that can be maintained indefinitely by a given system or place ...

Ecosystems

... Using the word photosynthesis, explain why water and sunlight are two abiotic factors that are important to all organisms ...

Ecology - ReicheltScience.com

... How large bodies of water and mountains affect climate Abiotic factors – nonliving factors, chemicals, temperature, light, water, nutrients, ...

Biodiversity and Conservation ppt

... Biodiversity varies around the world: Do you see a pattern? • Number of species of mammals: – Canada – 163 – US – 367 – Mexico – 439 ...

06 Understanding Populations COMPLETE

... Natural conditions are not usually constant or ideal, which means most populations in a given area cannot grow forever and rarely grow at their reproductive potential. ________________________________________________________________________________________ __________________________________________ ...

Conservation Biology and Restoration Ecology

... the species’ native locations to new geographic regions ...

Interactions Among Living Things

... Different species can share the same habitat, such as the many animals that live in and around the saguaro. Different species can also share similar food requirements. For example, the redtailed hawk and the elf owl both live on the saguaro and eat similar food. However, these two species do not occ ...

04Populations,_Commu..

... physical, physiological, and behavioural adaptations equip it to survive and reproduce  Niche is the role of an organism in its community  The niche can include how they interact with other members of the community – what they eat, what eats it, who competes with it, and their living space ...

Organisms and Their Environment

... A habitat is the place where an organism lives out its life. Organisms of different species use a variety of strategies to live and reproduce in their habitats. Habitats can change and even disappear from an area. Although several species may share a habitat, the food, shelter, and other essential r ...

Concepts in contemporary ecological theory Ecology is the study of

... Every environment is limited in ability to support life. Limiting factors (food, water, temperature, rainfall, presence of disease causing organisms, etc.) help determine the carrying capacity of an environment the point at or below which a population tends to stabilize or, alternatively, the limit ...

Direct and Indirect Impacts of Invasive Plants to Wildlife

... • Black terns returning after control of loosestrife ...

Ecology

... Some herbivores can have large effects on plant communities and ecosystems ...

K = Carrying capacity

... 2. Slow to mature, parental care. Usually large terrestrial vertebrates (like humans). Offspring have a good chance of survival. Often determined by the energy limitations of the organism 3. This is not the way most populations occur. 4. Fits the logistic equation. ...

Biology Chapter 14: Interactions in Ecosystems

... biological factors that a species needs to survive, stay healthy, and reproduce.  Includes food, abiotic conditions, and behavior  Also known as the role a species plays in the community ...

Biodiversity of Life

... The number of species in an ecosystem are comparable to the rivets in an airplane. If 1 or 2 fall out, no big deal. BUT, if they keep falling out, eventually, the plane (i.e. the ecosystem) will fall apart (die out). ...

Population Dynamics

... Human Population Growth ...

< 1 ... 108 109 110 111 112 113 114 115 116 ... 129 >

Source–sink dynamics

Source–sink dynamics is a theoretical model used by ecologists to describe how variation in habitat quality may affect the population growth or decline of organisms.Since quality is likely to vary among patches of habitat, it is important to consider how a low quality patch might affect a population. In this model, organisms occupy two patches of habitat. One patch, the source, is a high quality habitat that on average allows the population to increase. The second patch, the sink, is very low quality habitat that, on its own, would not be able to support a population. However, if the excess of individuals produced in the source frequently moves to the sink, the sink population can persist indefinitely. Organisms are generally assumed to be able to distinguish between high and low quality habitat, and to prefer high quality habitat. However, ecological trap theory describes the reasons why organisms may actually prefer sink patches over source patches. Finally, the source-sink model implies that some habitat patches may be more important to the long-term survival of the population, and considering the presence of source-sink dynamics will help inform conservation decisions.

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Source–sink dynamics