
Chapter 4 Notes
... Core Case Study: Life on Earth • Uniquely suited for life – Temperature range – Liquid water – Gravitational mass – Oxygen • Organisms contribute to relatively consistent planetary conditions – resilient and adaptive • Biodiversity and sustainability ...
... Core Case Study: Life on Earth • Uniquely suited for life – Temperature range – Liquid water – Gravitational mass – Oxygen • Organisms contribute to relatively consistent planetary conditions – resilient and adaptive • Biodiversity and sustainability ...
Exam 4 Review - Iowa State University
... A person lifts a finger. The dog eventually sits. The dog gets fed. In time, even beginning to lift a finger leads to the dog sitting. Goslings are receptive to learning who their mother is early in their development and will follow the first thing they see upon hatching. When its humidity increases ...
... A person lifts a finger. The dog eventually sits. The dog gets fed. In time, even beginning to lift a finger leads to the dog sitting. Goslings are receptive to learning who their mother is early in their development and will follow the first thing they see upon hatching. When its humidity increases ...
Scarascia-Mugnozza - European Forest Institute
... resource/services production of natural and man-made forest systems ...
... resource/services production of natural and man-made forest systems ...
Chapter 14 Interaction in Ecosystems Study Guide
... 22. The various growth phases which most populations go through are represented on a (an) _____________________________________. (What type of curve?) 23. In a logistic growth curve, exponential growth is the phase in which the population _______________________________________. 24. A biotic or abio ...
... 22. The various growth phases which most populations go through are represented on a (an) _____________________________________. (What type of curve?) 23. In a logistic growth curve, exponential growth is the phase in which the population _______________________________________. 24. A biotic or abio ...
Čím je diverzita determinována
... migration pathways) – note, this is very wide definition – for some: Species pool excludes species not able to withstand given abiotic environment, and sometimes it is defined even more restrictive • Community filter – current ecological interactions, i.e. ability to withstand the abiotic environmen ...
... migration pathways) – note, this is very wide definition – for some: Species pool excludes species not able to withstand given abiotic environment, and sometimes it is defined even more restrictive • Community filter – current ecological interactions, i.e. ability to withstand the abiotic environmen ...
Set 1 - Edquest Science
... TAXONOMY The two-name Latin naming system for all living things was developed by Carolus Linnaeus. This classification system was much more reliable than previous systems, because he used structure, rather than habitat. Two words identify each organism. The 1st represents the organisms genus and the ...
... TAXONOMY The two-name Latin naming system for all living things was developed by Carolus Linnaeus. This classification system was much more reliable than previous systems, because he used structure, rather than habitat. Two words identify each organism. The 1st represents the organisms genus and the ...
A1980JT63100001
... as a conceptual foundation for the quantification of diversity has appealed to some ecologists. It has also proved a useful foundation for the analysis of niche overlap.3 The provision of an exact expression for calculating the number of species expected in a sample from a community of known composi ...
... as a conceptual foundation for the quantification of diversity has appealed to some ecologists. It has also proved a useful foundation for the analysis of niche overlap.3 The provision of an exact expression for calculating the number of species expected in a sample from a community of known composi ...
Chp 56 community behavior notes
... Ex. Acacia trees and fire ants. Acacia trees have thorns that secrete nectar. Ants protect and defend plant from animals that would eat it Ex. Pollinators. – Insects, Birds and others 28) Commensalism-(_________) Benefits one species with little or no effect on the other Ex. Birds follow army ants t ...
... Ex. Acacia trees and fire ants. Acacia trees have thorns that secrete nectar. Ants protect and defend plant from animals that would eat it Ex. Pollinators. – Insects, Birds and others 28) Commensalism-(_________) Benefits one species with little or no effect on the other Ex. Birds follow army ants t ...
Modes of Speciation - Bloor
... seasons, physical or behavioral traits, habitat preferences, or the incompatibility of the gametes. These are all prezygotic mechanisms because they prevent fertilization and zygote formation. Still others, called postzygotic mechanisms, can prevent a fertilized egg from growing into a viable and re ...
... seasons, physical or behavioral traits, habitat preferences, or the incompatibility of the gametes. These are all prezygotic mechanisms because they prevent fertilization and zygote formation. Still others, called postzygotic mechanisms, can prevent a fertilized egg from growing into a viable and re ...
Biology 31 Study Guide Species Interactions and
... Be able to define and give examples of the following types of species interactions: competition, exploitative interactions (predation, parasitism, and herbivory) and mutualism. Which type of exploitative interaction between species is most common? What group of organisms is the most widespread ...
... Be able to define and give examples of the following types of species interactions: competition, exploitative interactions (predation, parasitism, and herbivory) and mutualism. Which type of exploitative interaction between species is most common? What group of organisms is the most widespread ...
Unit 1: General Ecology
... given time. Individuals from other groups. Community: This includes all the populations in a specific area at a given time. A community includes populations of organisms of different species. Ecosystems: ecosystems include more than a community of living organisms (abiotic) interacting with the envi ...
... given time. Individuals from other groups. Community: This includes all the populations in a specific area at a given time. A community includes populations of organisms of different species. Ecosystems: ecosystems include more than a community of living organisms (abiotic) interacting with the envi ...
TOPIC 9: Ecology 1. Write down the levels of ecosystem
... Please use the podcast from Council Rock High School for TOPIC 9 to guide you. The podcast can be found at http://www.crsd.org/Page/31715 ...
... Please use the podcast from Council Rock High School for TOPIC 9 to guide you. The podcast can be found at http://www.crsd.org/Page/31715 ...
Populations Lesson Outline A. 1.
... is the potential growth of a population if it could grow in perfect conditions with no limiting factors. ...
... is the potential growth of a population if it could grow in perfect conditions with no limiting factors. ...
ES CH 5 Test Review
... 1. Evolution, as a general term, means “change over time.” 2. Specifically, biologists define biological evolution as a change in a population’s gene pool over time. 3. A gene is a sequence of DNA that codes for a particular trait. 4. Mutations are changes in DNA. ...
... 1. Evolution, as a general term, means “change over time.” 2. Specifically, biologists define biological evolution as a change in a population’s gene pool over time. 3. A gene is a sequence of DNA that codes for a particular trait. 4. Mutations are changes in DNA. ...
12A Relationships
... one of the most familiar of species relationships. It occurs both within (intraspecific) and between (interspecific) species. ‣ Individuals compete for resources such as food, space, and mates. In all cases of competition, both parties (the competitors) are harmed to varying extents by the interacti ...
... one of the most familiar of species relationships. It occurs both within (intraspecific) and between (interspecific) species. ‣ Individuals compete for resources such as food, space, and mates. In all cases of competition, both parties (the competitors) are harmed to varying extents by the interacti ...
Community Ecology
... •The ecological niche = organism’s use of abiotic/biotic resources in the environment. ...
... •The ecological niche = organism’s use of abiotic/biotic resources in the environment. ...
“Invasive” Plants - MSU Department of Geography
... • Eurasian Milfoil increase leads to native aquatic plant decrease (Knapton and Petrie 1999, ...
... • Eurasian Milfoil increase leads to native aquatic plant decrease (Knapton and Petrie 1999, ...
Water Water is a vital ingredient for thriving plant and animal
... eventually leads to the establishment of grasses, shrubs and eventually trees. This change over time is referred to as succession. *See animation on bog succession in the geodiscoveries section of your text’s website. ...
... eventually leads to the establishment of grasses, shrubs and eventually trees. This change over time is referred to as succession. *See animation on bog succession in the geodiscoveries section of your text’s website. ...
Ecology AS 2.4 Investigate an interrelationship or pattern in an
... Succession is the change is species composition in an area over time. During succession, one species starts to grow and modifies the environment so another organism can grow in its place. This cycle continues until a climax community is established. Primary succession differs from secondary successi ...
... Succession is the change is species composition in an area over time. During succession, one species starts to grow and modifies the environment so another organism can grow in its place. This cycle continues until a climax community is established. Primary succession differs from secondary successi ...
Interactions Among Living Things
... 1. a type of symbiosis in which one organism live with, in, or on a host and harms it 2. the struggle between organisms to survive as they attempt to use the same limited resources in the same place at the same time 3. a type of symbiosis in which both species benefit from living together 4. the pro ...
... 1. a type of symbiosis in which one organism live with, in, or on a host and harms it 2. the struggle between organisms to survive as they attempt to use the same limited resources in the same place at the same time 3. a type of symbiosis in which both species benefit from living together 4. the pro ...
QUEST REVIEW SHEET UNIT 5 Resource Management
... The following is a list of the main topics and concepts we have covered in unit 5. This is simply a guide to help you study for your quest and the final exam. Your textbook and class notes should also be referenced when studying. MAIN TOPICS: ...
... The following is a list of the main topics and concepts we have covered in unit 5. This is simply a guide to help you study for your quest and the final exam. Your textbook and class notes should also be referenced when studying. MAIN TOPICS: ...
Haley Nantz II C Ecosystem Diversity
... http://www.sliceofscifi.com/wp-content/uploads/2008/02/nc_evolution_080103_ms.jpg ...
... http://www.sliceofscifi.com/wp-content/uploads/2008/02/nc_evolution_080103_ms.jpg ...
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.