Homogamy (biology)

Last updated August 14, 2023

Homogamy is used in biology in four separate senses:

Inbreeding can be referred to as homogamy.^[1]
Homogamy refers to the maturation of male and female reproductive organs (of plants) at the same time, which is also known as simultaneous or synchronous hermaphrodism and is the antonym of dichogamy. Many flowers appear to be homogamous but some of these may not be strictly functionally homogamous, because for various reasons male and female reproduction do not completely overlap.^[2]
In the daisy family, the flower heads are made up of many small flowers called florets, and are either homogamous or heterogamous. Heterogamous heads are made up of two types of florets, ray florets near the edge and disk florets in the center. Homogamous heads are made up of just one type of floret, either all ray florets or all disk florets.
Homogamy can be used as a form of choosing a mate based on characteristics that are wanted in a sexual partner.^[3]

Inbreeding

As opposed to outcrossing or outbreeding, inbreeding is the process by which organisms with common descent come together to mate and eventually procreate.^[4] An archetype of inbreeding is self-pollination. When a plant has both anthers and a stigma, the process of inbreeding can occur. Another word for this self-fertilization is autogamy, which is when an anther releases pollen to attach to the stigma on the same plant. Self-pollination is promoted by homogamy. Homogamy is when the anthers and the stigma of a flower are being matured at the same time.^[5] The action of self-pollination guides the plant to homozygosity, causing a specific gene to be received from each of the parents leading to the possession of two exact formats of that gene.^[6]

Assortative mating

Assortative mating is the choosing of a mate to breed with based on their physical characteristics, phenotypical traits.^[7] There are social factors that enhance one's choosing, such as religion, physical traits, and culture. For instance, research has been conducted by sociologists who found that men and women look for individuals who fall under the educational homogamy he or she is in.^[8] The homogamy theory holds that when organisms look for a potential partner, they search for organisms that have similar traits to themselves. The idea of sexual imprinting plays a role in this theory.^[3] Based on whether or not an individual is a male or a female, the individual tends to be attracted to other people that have most similar characteristics to their parent of the opposite gender. This is a form of positive assortative mating, where people choose a mate with attributes that correlate with their own. According to Kalmijn and Flap, there are five places individuals could become acquainted with each other in. These five places are: work, school, neighborhood, common family networks, and voluntary associations. They also studied the five criteria that are usually looked for to decide on the status of wanting to mate. As such, the five traits are: age, education, class destinations, class origins, and religious background.^[3]

Evolutionary aspect

There is an evolutionary theory that explain that there are two specific qualities that are looked out. These two traits are male dominance and the attractiveness of the female.^[9] According to the evolutionary perspective, the purpose of mating is to procreate for the purpose of survival. It is the ones with the best features and traits that survive, a known phrase called survival of the fittest. If there was a couple who lacked the ability to become fertile or have a child with a disease or a handicap, there is a great rise in the risk of the couple receiving a divorce.^[10] When there are traits that are found in a spouse that are not favorable, then the homogamy in the relationship decreases, and there begins to have a need for it for a better production of children.

Related Research Articles

Sex is the trait that determines whether a sexually reproducing organism produces male or female gametes. Male organisms produce small mobile gametes, while female organisms produce larger, non-mobile gametes. Organisms that produce both types of gametes are called hermaphrodites. During sexual reproduction, male and female gametes fuse to form zygotes, which develop into offspring that inherit traits from each parent.

Inbreeding is the production of offspring from the mating or breeding of individuals or organisms that are closely related genetically. By analogy, the term is used in human reproduction, but more commonly refers to the genetic disorders and other consequences that may arise from expression of deleterious recessive traits resulting from incestuous sexual relationships and consanguinity. Animals avoid incest only rarely.

Heterogamy is a term applied to a variety of distinct phenomena in different scientific domains. Usually having to do with some kind of difference, "hetero", in reproduction, "gamy". See below for more specific senses.

Petals are modified leaves that surround the reproductive parts of flowers. They are often brightly colored or unusually shaped to attract pollinators. All of the petals of a flower are collectively known as the corolla. Petals are usually accompanied by another set of modified leaves called sepals, that collectively form the calyx and lie just beneath the corolla. The calyx and the corolla together make up the perianth, the non-reproductive portion of a flower. When the petals and sepals of a flower are difficult to distinguish, they are collectively called tepals. Examples of plants in which the term tepal is appropriate include genera such as Aloe and Tulipa. Conversely, genera such as Rosa and Phaseolus have well-distinguished sepals and petals. When the undifferentiated tepals resemble petals, they are referred to as "petaloid", as in petaloid monocots, orders of monocots with brightly colored tepals. Since they include Liliales, an alternative name is lilioid monocots.

Pollination is the transfer of pollen from an anther of a plant to the stigma of a plant, later enabling fertilisation and the production of seeds, most often by an animal or by wind. Pollinating agents can be animals such as insects, birds, and bats; water; wind; and even plants themselves, when self-pollination occurs within a closed flower. Pollination often occurs within a species. When pollination occurs between species, it can produce hybrid offspring in nature and in plant breeding work.

Self-pollination is a form of pollination in which pollen from the same plant arrives at the stigma of a flower or at the ovule. There are two types of self-pollination: in autogamy, pollen is transferred to the stigma of the same flower; in geitonogamy, pollen is transferred from the anther of one flower to the stigma of another flower on the same flowering plant, or from microsporangium to ovule within a single (monoecious) gymnosperm. Some plants have mechanisms that ensure autogamy, such as flowers that do not open (cleistogamy), or stamens that move to come into contact with the stigma. The term selfing that is often used as a synonym, is not limited to self-pollination, but also applies to other type of self-fertilization.

Plant reproductive morphology is the study of the physical form and structure of those parts of plants directly or indirectly concerned with sexual reproduction.

Self-incompatibility (SI) is a general name for several genetic mechanisms that prevent self-fertilization in sexually reproducing organisms, and thus encourage outcrossing and allogamy. It is contrasted with separation of sexes among individuals (dioecy), and their various modes of spatial (herkogamy) and temporally (dichogamy) separation.

Assortative mating is a mating pattern and a form of sexual selection in which individuals with similar phenotypes or genotypes mate with one another more frequently than would be expected under a random mating pattern. A majority of the phenotypes that are subject to assortative mating are body size, visual signals, and sexually selected traits such as crest size. The opposite of assortative is disassortative mating.

An F1 hybrid (also known as filial 1 hybrid) is the first filial generation of offspring of distinctly different parental types. F1 hybrids are used in genetics, and in selective breeding, where the term F1 crossbreed may be used. The term is sometimes written with a subscript, as F₁ hybrid. Subsequent generations are called F₂, F₃, etc.

Sequential hermaphroditism is one of the two types of hermaphroditism, the other type being simultaneous hermaphroditism. It occurs when the organism's sex changes at some point in its life. In particular, a sequential hermaphrodite produces eggs and sperm at different stages in life. Sequential hermaphroditism occurs in many fish, gastropods, and plants. Species that can undergo these changes do so as a normal event within their reproductive cycle, usually cued by either social structure or the achievement of a certain age or size. In some species of fish, sequential hermaphroditism is much more common than simultaneous hermaphroditism.

A flower, sometimes known as a bloom or blossom, is the reproductive structure found in flowering plants. Flowers produce gametophytes, which in flowering plants consist of a few haploid cells which produce gametes. The "male" gametophyte, which produces non-motile sperm, is enclosed within pollen grains; the "female" gametophyte is contained within the ovule. When pollen from the anther of a flower is deposited on the stigma, this is called pollination. Some flowers may self-pollinate, producing seed using pollen from the same flower or a different flower of the same plant, but others have mechanisms to prevent self-pollination and rely on cross-pollination, when pollen is transferred from the anther of one flower to the stigma of another flower on a different individual of the same species.

Sexual mimicry occurs when one sex mimics the opposite sex in its behavior, appearance, or chemical signalling. It is more commonly seen within invertebrate species, although sexual mimicry is also seen among vertebrates such as spotted hyenas. Sexual mimicry is commonly used as a mating strategy to gain access to a mate, a defense mechanism to avoid more dominant individuals, or a survival strategy. It can also be a physical characteristic that establishes an individual's place in society. Sexual mimicry is employed differently across species and it is part of their strategy for survival and reproduction. Examples of sexual mimicry in animals include the spotted hyena, certain types of fish, passerine birds and some species of insect among others. These are cases of intraspecific sexual mimicry, but interspecific sexual mimicry can also occur in some plant species, especially orchids. In plants employing sexual mimicry, flowers mimic mating signals of their pollinator insects. These insects are attracted and pollinate the flowers through pseudocopulations or other sexual behaviors performed on the flower.

Plant reproduction is the production of new offspring in plants, which can be accomplished by sexual or asexual reproduction. Sexual reproduction produces offspring by the fusion of gametes, resulting in offspring genetically different from either parent. Asexual reproduction produces new individuals without the fusion of gametes, resulting in clonal plants that are genetically identical to the parent plant and each other, unless mutations occur.

<span class="mw-page-title-main">Gynodioecy</span> Coexistence of female and hermaphrodite within a population

Gynodioecy is a rare breeding system that is found in certain flowering plant species in which female and hermaphroditic plants coexist within a population. Gynodioecy is the evolutionary intermediate between hermaphroditism and dioecy.

<span class="mw-page-title-main">Human mating strategies</span> Courtship behavior of humans

In evolutionary psychology and behavioral ecology, human mating strategies are a set of behaviors used by individuals to select, attract, and retain mates. Mating strategies overlap with reproductive strategies, which encompass a broader set of behaviors involving the timing of reproduction and the trade-off between quantity and quality of offspring.

Inbreeding avoidance, or the inbreeding avoidance hypothesis, is a concept in evolutionary biology that refers to the prevention of the deleterious effects of inbreeding. Animals only rarely exhibit inbreeding avoidance. The inbreeding avoidance hypothesis posits that certain mechanisms develop within a species, or within a given population of a species, as a result of assortative mating and natural and sexual selection, in order to prevent breeding among related individuals. Although inbreeding may impose certain evolutionary costs, inbreeding avoidance, which limits the number of potential mates for a given individual, can inflict opportunity costs. Therefore, a balance exists between inbreeding and inbreeding avoidance. This balance determines whether inbreeding mechanisms develop and the specific nature of such mechanisms.

The monocots are one of the two major groups of flowering plants, the other being the dicots. In order to reproduce they utilize various strategies such as employing forms of asexual reproduction, restricting which individuals they are sexually compatible with, or influencing how they are pollinated. Nearly all reproductive strategies that evolved in the dicots have independently evolved in monocots as well. Despite these similarities and their close relatedness, monocots and dicots have distinct traits in their reproductive biologies.

Sexual selection is described as natural selection arising through preference by one sex for certain characteristics in individuals of the other sex. Sexual selection is a common concept in animal evolution but, with plants, it is oftentimes overlooked because many plants are hermaphrodites. Flowering plants show many characteristics that are often sexually selected for. For example, flower symmetry, nectar production, floral structure, and inflorescences are just a few of the many secondary sex characteristics acted upon by sexual selection. Sexual dimorphisms and reproductive organs can also be affected by sexual selection in flowering plants.

Reproductive assurance occurs as plants have mechanisms to assure full seed set through selfing when outcross pollen is limiting. It is assumed that self-pollination is beneficial, in spite of potential fitness costs, when there is insufficient pollinator services or outcross pollen from other individuals to accomplish full seed set.. This phenomenon has been observed since the 19th century, when Darwin observed that self-pollination was common in some plants. Constant pollen limitation may cause the evolution of automatic selfing, also known as autogamy. This occurs in plants such as weeds, and is a form of reproductive assurance. As plants pursue reproductive assurance through self-fertilization, there is an increase in homozygosity, and inbreeding depression, due to genetic load, which results in reduced fitness of selfed offspring. Solely outcrossing plants may not be successful colonizers of new regions due to lack of other plants to outcross with, so colonizing species are expected to have mechanisms of reproductive assurance - an idea first proposed by Herbert G. Baker and referred to as Baker's "law" or "rule". Baker’s law predicts that reproductive assurance affects establishment of plants in many contexts, including spread by weedy plants and following long-distance dispersal, such as occurs during island colonization. As plants evolve towards increase self-fertilization, energy is redirected to seed production rather than characteristics that increased outcrossing, such as floral attractants, which is a condition known as the selfing syndrome.

References

↑ Walker, P.M.B. (ed.) 1988. The Wordsworth Dictionary of Science and Technology. W. R. Chambers Ltd. and Cambridge University Press.^{[ page needed ]}
↑ Bell, S. A.; Cresswell, J. E. (April 1998). "The phenology of gender in homogamous flowers: temporal change in the residual sex function of flowers of Oil-seed Rape (Brassica napus)". Functional Ecology. 12 (2): 298–306. doi: 10.1046/j.1365-2435.1998.00190.x .
1 2 3 Sterbová, Zuzana; Valentová, Jaroslava (2012). "Influence of homogamy, complementarity, and sexual imprinting on mate choice". Anthropologie. 50 (1): 47–60. JSTOR 26272386. ProQuest 1501654564.
↑ "Inbreeding | genetics". Encyclopedia Britannica. Retrieved 2018-04-16.
↑ "TNAU Agritech Portal Crop Improvement :: Mode of Pollination". TNAU Agritech portal. Retrieved 11 July 2018.
↑ "Definition of Homozygosity". MedicineNet. Retrieved 2018-04-16.
↑ "Assortative mating | genetics". Encyclopedia Britannica. Retrieved 2018-04-16.
↑ Gihleb, Rania; Lang, Kevin (1 December 2016). Educational Homogamy and Assortative Mating Have Not Increased (Report). hdl:2144/31475. SSRN 2883964.
↑ Lucas, Todd W.; Wendorf, Craig A.; Imamoglu, E. Olcay; Shen, Jiliang; Parkhill, Michele R.; Weisfeld, Carol C.; Weisfeld, Glenn E. (August 2004). "Marital satisfaction in four cultures as a function of homogamy, male dominance and female attractiveness". Sexualities, Evolution & Gender. 6 (2–3): 97–130. doi:10.1080/14616660412331327518.
↑ Littlefield, Christine H.; Silverman, Irwin (1991). "Marital Dissatisfaction Following the Death of a Child: The Influence of Genetic Factors at Cause in the Death". Journal of Marriage and Family. 53 (3): 799–804. doi:10.2307/352752. JSTOR 352752. ProQuest 219757341.

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[1] Walker, P.M.B. (ed.) 1988. The Wordsworth Dictionary of Science and Technology. W. R. Chambers Ltd. and Cambridge University Press.^{[ page needed ]}

[2] Bell, S. A.; Cresswell, J. E. (April 1998). "The phenology of gender in homogamous flowers: temporal change in the residual sex function of flowers of Oil-seed Rape (Brassica napus)". Functional Ecology. 12 (2): 298–306. doi: 10.1046/j.1365-2435.1998.00190.x .

[Sterbová_Valentová_2012-3] 1 2 3 Sterbová, Zuzana; Valentová, Jaroslava (2012). "Influence of homogamy, complementarity, and sexual imprinting on mate choice". Anthropologie. 50 (1): 47–60. JSTOR 26272386. ProQuest 1501654564.

[4] "Inbreeding | genetics". Encyclopedia Britannica. Retrieved 2018-04-16.

[5] "TNAU Agritech Portal Crop Improvement :: Mode of Pollination". TNAU Agritech portal. Retrieved 11 July 2018.

[6] "Definition of Homozygosity". MedicineNet. Retrieved 2018-04-16.

[7] "Assortative mating | genetics". Encyclopedia Britannica. Retrieved 2018-04-16.

[8] Gihleb, Rania; Lang, Kevin (1 December 2016). Educational Homogamy and Assortative Mating Have Not Increased (Report). hdl:2144/31475. SSRN 2883964.

[9] Lucas, Todd W.; Wendorf, Craig A.; Imamoglu, E. Olcay; Shen, Jiliang; Parkhill, Michele R.; Weisfeld, Carol C.; Weisfeld, Glenn E. (August 2004). "Marital satisfaction in four cultures as a function of homogamy, male dominance and female attractiveness". Sexualities, Evolution & Gender. 6 (2–3): 97–130. doi:10.1080/14616660412331327518.

[10] Littlefield, Christine H.; Silverman, Irwin (1991). "Marital Dissatisfaction Following the Death of a Child: The Influence of Genetic Factors at Cause in the Death". Journal of Marriage and Family. 53 (3): 799–804. doi:10.2307/352752. JSTOR 352752. ProQuest 219757341.

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