Пожалуйста помогите с тестами 1. Выберите положение теории Ч. Дарвина: А) все изменения,

Theory of Evolution by Charles Darwin

The correct position of Charles Darwin's theory of evolution is C) in the result of the influence of the environment, the most adapted individuals survive. This is known as the principle of natural selection, which states that individuals with advantageous traits are more likely to survive and reproduce, passing on those traits to future generations [[1]].

Paleontological Evidence of Evolution

The paleontological evidence of evolution includes B) fossil remains. Fossils provide a record of past life forms and can show the progression of species over time. Other examples of paleontological evidence include A) gill slits in embryos, which suggest a common ancestry with aquatic organisms, and D) chromosome sets, which can reveal evolutionary relationships [[2]].

Homologous Organs

A pair of homologous organs refers to organs that have a similar structure but may have different functions. An example of a pair of homologous organs is A) the front limbs of a mole and a bat. Although they have different functions (digging and flying, respectively), their underlying structure is similar, indicating a common ancestry [[3]].

Factors of Evolution

The factor that does not belong to the factors of evolution is D) modification variability. The factors of evolution include A) isolation, which can lead to the formation of new species, B) struggle for existence, where individuals compete for limited resources, and C) mutational variability, which introduces genetic variation into populations [[4]].

Success of Seed Plants in the Struggle for Existence

Seed plants have been successful in the struggle for existence because they B) form seeds with embryos. Seeds provide a protective covering and a food source for the developing embryo, allowing seed plants to disperse and survive in various environments [[5]].

Phylogenetic Characteristics in Animals

Phylogenetic characteristics in animals include C) body size and D) fins. Body size can provide insights into the evolutionary relationships between different species, while fins are a common feature among aquatic animals and can indicate a shared ancestry [[6]].

Non-Phylogenetic Characteristics in Plants

Non-phylogenetic characteristics in plants include A) unicellular stage and D) insect pollination. Unicellular stages, such as spores, are not indicative of evolutionary relationships, and insect pollination is a reproductive strategy rather than a phylogenetic characteristic [[7]].

Evolutionary Progress in Ancient Mammals

The appearance of C) four-chambered heart, endothermy, and developed cerebral cortex in ancient mammals is an example of A) idioadaptation. Idioadaptation refers to the development of unique adaptations in a specific lineage, allowing organisms to thrive in their environment [[8]].

Biological Progress

Biological progress leads to B) an increase in the number of species. As evolution occurs, new species arise through various mechanisms such as speciation and adaptive radiation, leading to an increase in biodiversity [[9]].

Example of Interspecific Competition

An example of interspecific competition is the interaction between B) a fungus and an alga in a lichen. Lichens are symbiotic organisms composed of a fungus and an alga, where both partners compete for resources and contribute to the survival of the lichen as a whole [[10]].

Expansion of Species Range and Isolation

The expansion of a species' range, the isolation of populations within it, and the influence of evolutionary forces on them are the causes of B) geographic speciation. Geographic speciation occurs when populations become isolated due to geographical barriers, leading to the formation of new species over time [[11]].

Diversification of Insects

The diversification of insects on Earth is the result of E) convergence. Convergence refers to the independent evolution of similar traits in unrelated lineages due to similar selective pressures or ecological niches. Insects have diversified into numerous species with various adaptations, allowing them to occupy different ecological roles [[12]].

Gas Exchange in Single-Celled Organisms

Gas exchange in single-celled organisms occurs B) through the entire surface of the body. Single-celled organisms, such as amoebas or bacteria, have a high surface-to-volume ratio, allowing efficient gas exchange to occur across their cell membranes [[13]].

Respiratory Mechanisms in Arthropods

In arthropods, respiratory mechanisms involve A) tracheae, body surface, and gills. Arthropods have a network of tracheae that deliver oxygen directly to their tissues, but they can also exchange gases through their body surface or specialized structures like gills in aquatic species [[14]].

Circulatory System in Fish

Fish have a A) two-chambered heart and one circulatory loop. The two-chambered heart pumps blood to the gills for oxygenation and then to the rest of the body, completing a single circuit of circulation [[15]].

Origin of Circulatory System

The circulatory system first appeared in B) segmented worms (annelids). Segmented worms were among the first organisms to develop a closed circulatory system, where blood is contained within vessels and circulated throughout the body [[16]].

Mechanism of Breathing in Mammals

The mechanism of breathing in mammals is achieved through A) the movement of the diaphragm. The diaphragm is a dome-shaped muscle that contracts and relaxes, causing changes in thoracic volume and facilitating the inhalation and exhalation of air [[17]].

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