age structure, age class, survivorship, fecundity, life table, allocation
... 15) Design a simple experiment to determine whether biotic or abiotic components of the ecosystem most strongly affect a particular plant species within a New England salt marsh community. Graph two set of results that would reflect whether one or the other component has the strongest effect for the ...
... 15) Design a simple experiment to determine whether biotic or abiotic components of the ecosystem most strongly affect a particular plant species within a New England salt marsh community. Graph two set of results that would reflect whether one or the other component has the strongest effect for the ...
Science department Quarter (2) Revision sheet 2014/2015 Grade 6
... C. Secondary succession occurs over a longer period of time than primary succession. D. Secondary succession occurs when animals are introduced to an area that had only plants. ...
... C. Secondary succession occurs over a longer period of time than primary succession. D. Secondary succession occurs when animals are introduced to an area that had only plants. ...
Florida Ecology powerpoint
... Commensalism: Gopher Tortoise Burrows • Ecosystem: Scrub and High Pine • Some animals share burrows with tortoises • Others use abandoned burrows • Specific endangered Florida species use tortoise burrows: indigo snake, Florida mouse, gopher frog ...
... Commensalism: Gopher Tortoise Burrows • Ecosystem: Scrub and High Pine • Some animals share burrows with tortoises • Others use abandoned burrows • Specific endangered Florida species use tortoise burrows: indigo snake, Florida mouse, gopher frog ...
Chapter 4
... 3. Parasitism – one species benefits & the other is harmed A. Tapeworms, ticks, fleas, etc. ...
... 3. Parasitism – one species benefits & the other is harmed A. Tapeworms, ticks, fleas, etc. ...
Teacher`s Name: ___Julie
... Species diversity, Genetic diversity, Endangered species, Global warming I can… I can explain how organisms cooperate and compete in ecosystems and how interrelationships and interdependence of organisms may generate ecosystems that are stable for thousands of years. I can describe examples of compe ...
... Species diversity, Genetic diversity, Endangered species, Global warming I can… I can explain how organisms cooperate and compete in ecosystems and how interrelationships and interdependence of organisms may generate ecosystems that are stable for thousands of years. I can describe examples of compe ...
CURRICULUM SUMMARY * September to October 2008
... flows through an ecosystem. • Analyse the efficiency of energy transfers through a system. • Construct system diagrams representing photosynthesis and respiration. • Explain the relevance of the laws of thermodynamics to the flow of energy through ecosystems. • Explain the impact of a persistent or ...
... flows through an ecosystem. • Analyse the efficiency of energy transfers through a system. • Construct system diagrams representing photosynthesis and respiration. • Explain the relevance of the laws of thermodynamics to the flow of energy through ecosystems. • Explain the impact of a persistent or ...
chapter5B - TJ
... • Balance of nature and a climax community • Current view • Ever-changing mosaic of patches of vegetation • Mature late-successional ecosystems • State of continual disturbance and change ...
... • Balance of nature and a climax community • Current view • Ever-changing mosaic of patches of vegetation • Mature late-successional ecosystems • State of continual disturbance and change ...
Lesson 5.3 Ecological Communities
... waste, while a decomposer breaks down nonliving matter into simpler parts that can be taken up by producers. ...
... waste, while a decomposer breaks down nonliving matter into simpler parts that can be taken up by producers. ...
ECOLOGICAL PATTERNS IN FOREST AND FIELD
... trees). The first species to enter and occupy a site are termed pioneer species. Each community in the successional series is termed a seral stage, and the entire array of changing community types over time is called a sere. Generally, this change process will result in an end-point, characterized a ...
... trees). The first species to enter and occupy a site are termed pioneer species. Each community in the successional series is termed a seral stage, and the entire array of changing community types over time is called a sere. Generally, this change process will result in an end-point, characterized a ...
Ecological
... One year after fire. This photo of the same general area taken the following year indicates how rapidly the com-munity began to recover. A variety of herbaceous plants, different from those in the former forest, cover the ground. ...
... One year after fire. This photo of the same general area taken the following year indicates how rapidly the com-munity began to recover. A variety of herbaceous plants, different from those in the former forest, cover the ground. ...
Questions for Invasion/Succession paper discussion
... Vitousek et al. (1987) Biological invasion by Myrica faya alters ecosystem development in Hawaii. Science 238: 802-805 Maron and Connors (1996) A native nitrogen-fixing shrub facilitates weed invasion. Oecologia 105:302-312 ...
... Vitousek et al. (1987) Biological invasion by Myrica faya alters ecosystem development in Hawaii. Science 238: 802-805 Maron and Connors (1996) A native nitrogen-fixing shrub facilitates weed invasion. Oecologia 105:302-312 ...
A case study in ecological succession
... Although armadillos have been observed in Kansas for several years, summer 2014 was the first time an armadillo was seen on the Reservation. ...
... Although armadillos have been observed in Kansas for several years, summer 2014 was the first time an armadillo was seen on the Reservation. ...
Vegetation succession in old fields at broad landscape scales
... comprehensive theory of plant succession. His scheme of the processes that drive succession contains the following basic phases: nudation, migration, ecesis, completion, reaction and stabilization (Glenn-Lewin et al. 1992). Important to the further development of successional theory were the first c ...
... comprehensive theory of plant succession. His scheme of the processes that drive succession contains the following basic phases: nudation, migration, ecesis, completion, reaction and stabilization (Glenn-Lewin et al. 1992). Important to the further development of successional theory were the first c ...
Exam Review - hrsbstaff.ednet.ns.ca
... p) Pioneer Organism q) Primary Succession r) Secondary Succession s) Climax Community t) Ecosystem u) Remediate v) Reactant/Product w) Fossil Fuel x) Biological Magnification 4. How does removing or adding an organism in a food web affect the other organisms? ...
... p) Pioneer Organism q) Primary Succession r) Secondary Succession s) Climax Community t) Ecosystem u) Remediate v) Reactant/Product w) Fossil Fuel x) Biological Magnification 4. How does removing or adding an organism in a food web affect the other organisms? ...
Ecosystem Ecology - Tacoma Community College
... boom in sea urchin population, destroying kelp forests (drastic decline in diversity) ...
... boom in sea urchin population, destroying kelp forests (drastic decline in diversity) ...
Ch52-56MustKnows-Ecology Review
... The logistic model describes a population grows more slowly as it nears its carrying capacity. Many factors that regulate population growth are density dependent. The human population is no longer growing exponentially but it is still increasing. Community interactions are classified by whether they ...
... The logistic model describes a population grows more slowly as it nears its carrying capacity. Many factors that regulate population growth are density dependent. The human population is no longer growing exponentially but it is still increasing. Community interactions are classified by whether they ...
Historical Range of Variability Revisited
... but also to management outcomes aimed at reducing societal vulnerability to severe fire activity (Platt et al. 2006). ...
... but also to management outcomes aimed at reducing societal vulnerability to severe fire activity (Platt et al. 2006). ...
Chapter 7
... of biotic communities in an area where a biotic community was previously present •Ex: "old field succession" ...
... of biotic communities in an area where a biotic community was previously present •Ex: "old field succession" ...
Ecology & Biomes
... Ecological Succession: transition in the species composition of a community following a disturbance Primary vs Secondary ...
... Ecological Succession: transition in the species composition of a community following a disturbance Primary vs Secondary ...
Ecology - TERI University
... 2. To draw through different levels of the living world (biology of organism to communities) 3. To introduce and work on case studies related to each of these levels. Course content SNo Topic L T P ...
... 2. To draw through different levels of the living world (biology of organism to communities) 3. To introduce and work on case studies related to each of these levels. Course content SNo Topic L T P ...
Distribution patterns - SOEST
... Martinez Arbizu, P. 2008. Abyssal food limitation, ecosystem structure and climate change. TREE, 962: 11pp ...
... Martinez Arbizu, P. 2008. Abyssal food limitation, ecosystem structure and climate change. TREE, 962: 11pp ...
ecology power point presentation
... relatively stable community historically has been called a sere and each of the changes a seral stage. Although seral stage is a point on a continuum of vegetation through time, it is recognizable as a distinct community. Each has its characteristic structure and species composition. A seral stage m ...
... relatively stable community historically has been called a sere and each of the changes a seral stage. Although seral stage is a point on a continuum of vegetation through time, it is recognizable as a distinct community. Each has its characteristic structure and species composition. A seral stage m ...
Ecological succession
Ecological succession is the observed process of change in the species structure of an ecological community over time. The time scale can be decades (for example, after a wildfire), or even millions of years after a mass extinction.The community begins with relatively few pioneering plants and animals and develops through increasing complexity until it becomes stable or self-perpetuating as a climax community. The ʺengineʺ of succession, the cause of ecosystem change, is the impact of established species upon their own environments. A consequence of living is the sometimes subtle and sometimes overt alteration of one's own environment.It is a phenomenon or process by which an ecological community undergoes more or less orderly and predictable changes following a disturbance or the initial colonization of a new habitat. Succession may be initiated either by formation of new, unoccupied habitat, such as from a lava flow or a severe landslide, or by some form of disturbance of a community, such as from a fire, severe windthrow, or logging. Succession that begins in new habitats, uninfluenced by pre-existing communities is called primary succession, whereas succession that follows disruption of a pre-existing community is called secondary succession.Succession was among the first theories advanced in ecology. The study of succession remains at the core of ecological science. Ecological succession was first documented in the Indiana Dunes of Northwest Indiana which led to efforts to preserve the Indiana Dunes. Exhibits on ecological succession are displayed in the Hour Glass, a museum in Ogden Dunes.