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1396 materials

Found 1396 materials

Ecology: Biology of Interaction. IV-17. (Supplement) How Parasites “Set Up” Their Hosts

http://batrachos.com/Регуляція_чисельності A correlation was found between the degree of Toxoplasma infection in different peoples and cultural traits of those peoples. Available data suggest that the parasite increases anxiety, insecurity, depression, and guilt in humans. The specific manifestation of this effect depends on culture and social context.

Aug 27, 2021 Lecture

Ecology: Biology of Interaction. IV-16. Population Size Regulation

Population abundance can be regulated by abiotic factors, resource limitation, competitors, predators, parasites, and internal population mechanisms. Different regulatory mechanisms operate in different abundance ranges and determine the characteristic type of population dynamics.

Aug 27, 2021 Lecture

Ecology: the biology of interactions. IV-15. Ecological strategies

Populations of certain species spend the majority of their time in the r‑phase. In such species, the highest reproductive value is possessed by individuals capable of rapid reproduction and colonizing unoccupied habitats with their offspring. In other words, during this phase, selection will favor an increase in the parameter r …

Aug 27, 2021 Lecture

Ecology: Biology of Interaction. IV-14. Amensalism and Neutralism

Neutralism is not the complete absence of effects between two populations, but a situation where this effect can be neglected. When will interaction between two populations within one ecosystem be minimal? When there are no direct links between them, and they belong to different trophic chains.

Aug 27, 2021 Lecture

Ecology: Biology of Interaction. IV-12. Competition and Ecological Niches

In interspecific competition, two populations can negatively affect one another in two different ways. The first (indirect, or exploitative competition) is related to the use of the same resource by both populations. If the abundance of one population increases, its consumption of the shared resource rises, and less remains for …

Aug 27, 2021 Lecture

Ecology: Biology of Interaction. IV-11. Parasitism and Parasitoidism

For a parasite, the host is like an island. How to get from one island to another? One solution is to produce and release a multitude of offspring (eggs, larvae, etc.) into the environment, hoping that at least some of them will be lucky enough to reach their «destination». The …

Aug 27, 2021 Lecture

Ecology: The Biology of Interaction. IV-10. Predation

An important characteristic of a polyphagous predator capable of switching from one prey to another is its response to changes in relative prey density. A predator with a Type I response selectively consumes a particular prey species, even when they are rare, and increases their consumption as their prevalence grows. …

Aug 27, 2021 Lecture

Ecology: Biology of Interaction. IV-08. Commensalism

Commensalism refers to direct or indirect (through the environment) relationships between two populations, from which one — the commensal population — benefits (increases its numbers in response to an increase in the partner's numbers), while the other — the host population — is indifferent to these relationships and does not …

Aug 27, 2021 Lecture

Ecology: Biology of Interaction. IV-07. Mutualism and Protocooperation

We noted that mutualism — is an obligate mutually beneficial relationship between populations. How can we establish that certain relationships are obligate? If organisms in mutually beneficial relationships are found in natural conditions only together, this indicates the inseparable nature of their bond...

Aug 27, 2021 Lecture

Ecology: Biology of Interaction. IV-05. The Lotka-Volterra Model

In 1925, the well-known Italian mathematician Vito Volterra, while speaking over lunch with his future son-in-law (an ichthyologist), became interested in fish population dynamics. In particular, he learned that reduced fishing during World War I increased the share of predatory fish in catches. The result was a set of models …

Aug 27, 2021 Lecture

Ecology: Biology of Interaction. IV-04. Exponential and Logistic Population Growth

In the logistic model, the variable K is introduced: environmental carrying capacity, the equilibrium population size at which all available resources are consumed. Growth in the logistic model is described by dN/dt = r × N × (K−N)/K. For historical reasons, r can be called the Malthusian parameter.

Aug 27, 2021 Lecture

Ecology: Biology of Interaction. IV-02. Population Characteristics

Demographic characteristics of populations can be divided into two groups: static and dynamic. Static population characteristics (note: static, not statistical!) can be determined for a specific moment in time; an example is population size. Ho...

Aug 27, 2021 Lecture

Ecology: Biology of Interactions. IV-01. Populations and Their Properties

The concept of «population» — is one of the most important in biology. As is the case with key terms, it is frequently used with different meanings. According to Troyan, three approaches to defining the concept of «population» are possible: formal, concrete, and theoretical. Formal: «Popu...

Aug 27, 2021 Lecture

Ecology: Biology of Interactions. III-11. Trophic Links and Levels

Autotrophs obtain biogenic elements and the necessary energy from the environment and create organic substances. The organic substances of autotrophs are consumed by some heterotrophs, these heterotrophs -- by others, and so on until the organic matter synthesized by autotrophs is decomposed almost without remainder. These relatio...

Aug 22, 2021 Lecture

Ecology: Biology of Interactions. III-12. Ecological Efficiencies

The following measures of efficiency in energy consumption and processing can be distinguished: exploitation efficiency E1=Iexploiter/Pprey; assimilation efficiency E2=A/I; net production efficiency E3=P/A; gross production efficiency E4=P/I=E2×E3; ecological efficiency E5=Pexploiter/Ppre...

Aug 22, 2021 Lecture