Ecosystem - angelteach

... Niche- an organisms functional role within an ecosystem; everything that affects the survival and ...

BIO 1C Study Guide 2F10

... What is the difference between primary and secondary succession (ANSWER: Primary succession is in a habitat that is starting ‘from scratch’ such as lava or an area left bare after glacial retreat. Secondary succession is succession starting in a habitat where there was a plant community which was ...

Effects of plant diversity on nutrient cycling in a California serpentine

Community Ecology I Competition IAWhat is a community?

... The fact that there are many more Nutches than Niches. Each Nutch in a Nich knows that some other Nutch Would like to move into his Nich very much. So each Nutch in a Nich has to watch that small Nich or Nutches who haven't got Niches will snitch. ...

IH274: Resource utilisation of reef fish across environmental

... Not only are fish dependant on the reef but reefs are also dependent on fish. Fish are fundamental to the reef’s processes (Dulvy et al 2004), and this has been well established through research, particularly the effect of coralivore activity on coral community assemblage and abundance (Neudecker 19 ...

Darwinian model of evolution

... self-replicating entities biological evolution appears to be a spontaneous process. ...

diversity presentation

Unit 5

... Ecology is the scientific study of the interactions between organisms and their environments. The scientific nature of ecology involves using observations and experiments to test hypothetical explanations of ecological phenomena. It is a multidisciplinary field examining questions from all areas of ...

ECOLOGY

ch 8.2 power point

... two species (or individuals) in which both species (or individuals) attempt to use the same limited resource such that both are negatively affected by the relationship. • Members of the same species must compete with each other because they require the same resources because they occupy the same nic ...

8.2 Notes

Ch 8 Notes Day 2

... two species (or individuals) in which both species (or individuals) attempt to use the same limited resource such that both are negatively affected by the relationship. • Members of the same species must compete with each other because they require the same resources because they occupy the same nic ...

Chapter 11 Reading Questions:

... limit their spread with pesticides? 36. How can we prevent the introduction of nonnative species END of ASSIGNMENT 1! ...

Powerpoint: Chapter 3 notes

... different kinds, with each species specialized or adapted to live in, what is largely, a very cold dry environment; ...

Benthos

... Model of Atlantic Northeast coast barnacle population regulation ...

Non-indigenous Species

... strong to the point where there is no longer an onslaught by predators, but rather just enough for both to survive in harmony. This comfort slows evolution. Introduction of new predators such as cane toads however, re-encourages this evolution to take place, and overall advances the evolution of spe ...

T. confusum - The Dryad data repository wiki

part 1 - CSUN.edu

... What is adaptation • Trait, or set of related traits, that increases the fitness of the organism that has it • Adaptations created by natural selection ...

Chapter 6 - Population and Community Ecology

...  Population size = total number of individuals (N)  Population density = number of individuals per unit of area ...

Chapter 18, section 2 Interactions of living things How does the

... 4. Limiting Factors- a population of any particular organism cannot grow indefinitely. All ecosystems have a limited amount of food, water, living space, mates, nesting sites, and other resources. Limiting factors can be biotic or abiotic. Because of limiting factors competition exist between organi ...

biodiversity - Teacher Notes

... Microevolution: small genetic changes that a population within a species undergoes (peppered moth in England) Macroevolution: Long term, large scale changes through which new species form from ancestral species and other species are lost through extinction. Coevolution: Two different species interac ...

03-Distribution of Species UPDATED

... • Species cannot coexist in a community if their niches are identical • Connell’s 1965 study ...

chapter5

... – Alertness – highly developed senses ...

chapter 8 Glossary - CarrollEnvironmentalScience

... the immigration rate (of species new to the island) from other inhabited areas and the extinction rate (of species established on the island). The model predicts that at some point the rates of immigration and extinction will reach an equilibrium point that determines the island's average number of ...

Review for Exam III

... which allopatric speciation might occur. 5. Give an example of real-life situation in which sympatric speciation can occur (one that is known to scientists as an example of sympatric speciation). Chapter 15: History of Life and Classification 1. From lecture, approximately how many species have been ...

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Ecological fitting

Ecological fitting is ""the process whereby organisms colonize and persist in novel environments, use novel resources or form novel associations with other species as a result of the suites of traits that they carry at the time they encounter the novel condition.” It can be understood as a situation in which a species' interactions with its biotic and abiotic environment seem to indicate a history of coevolution, when in actuality the relevant traits evolved in response to a different set of biotic and abiotic conditions. The simplest form of ecological fitting is resource tracking, in which an organism continues to exploit the same resources, but in a new host or environment. In this framework, the organism occupies a multidimensional operative environment defined by the conditions in which it can persist, similar to the idea of the Hutchinsonian niche. In this case, a species can colonize new environments (e.g. an area with the same temperature and water regime) and/or form new species interactions (e.g. a parasite infecting a new host) which can lead to the misinterpretation of the relationship as coevolution, although the organism has not evolved and is continuing to exploit the same resources it always has. The more strict definition of ecological fitting requires that a species encounter an environment or host outside of its original operative environment and obtain realized fitness based on traits developed in previous environments that are now co-opted for a new purpose. This strict form of ecological fitting can also be expressed either as colonization of new habitat or the formation of new species interactions.

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Ecological fitting