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Sex ratio

January 19, 2024

"Gender balance" redirects here. For gender balance as a socio-political issue, see Gender equality.

A sex ratio is the ratio of males to females in a population. As explained by Fisher's principle, for evolutionary reasons this is typically about 1:1 in species which reproduce sexually.[2][3] However, many species deviate from an even sex ratio, either periodically or permanently. Examples include parthenogenic species, periodically mating organisms such as aphids, some eusocial wasps, bees, ants, and termites.[4]

Map indicating the human sex ratio by country.[1]
  Countries with more males than females.
  Countries with the same number of males and females (accounting that the ratio has 3 significant figures, i.e., 1.00 males to 1.00 females).
  Countries with more females than males.
  No data

The human sex ratio is of particular interest to anthropologists and demographers. In human societies, sex ratios at birth may be considerably skewed by factors such as the age of mother at birth[5] and by sex-selective abortion and infanticide. Exposure to pesticides and other environmental contaminants may be a significant contributing factor as well.[6] As of 2014, the global sex ratio at birth is estimated at 107 boys to 100 girls (1,000 boys per 934 girls).[7]

Types edit

In most species, the sex ratio varies according to the age profile of the population.[8]

It is generally divided into four subdivisions:

  • primary sex ratio — ratio at fertilization
  • secondary sex ratio — ratio at birth
  • tertiary sex ratio — ratio in sexually mature organisms
This is equivalent to the adult sex ratio (ASR), which is defined as the ratio of adult males to females in a population.[9][10]
  • The operational sex ratio (OSR) is the ratio of sexually active males to females in a population, and is therefore derived from a subset of the individuals included when calculating the ASR.[10] Although conceptually distinct, researchers have sometimes equated the ASR with the OSR, particularly in experimental studies of animals where the difference between the two values may not always be readily apparent.[11]
  • quaternary sex ratio — ratio in post-reproductive organisms

These definitions can be somewhat subjective since they lack clear boundaries.

Sex ratio theory edit

Sex ratio theory is a field of academic study which seeks to understand the sex ratios observed in nature from an evolutionary perspective. It continues to be heavily influenced by the work of Eric Charnov.[12] He defines five major questions, both for his book and the field in general (slightly abbreviated here):

  1. For a dioecious species, what is the equilibrium sex ratio maintained by natural selection?
  2. For a sequential hermaphrodite, what is the equilibrium sex order and time of sex change?
  3. For a simultaneous hermaphrodite, what is the equilibrium allocation of resources to male versus female function in each breeding season?
  4. Under what conditions are the various states of hermaphroditism or dioecy evolutionarily stable? When is a mixture of sexual types stable?
  5. When does selection favour the ability of an individual to alter its allocation to male versus female function, in response to particular environmental or life history situations?

Biological research mostly concerns itself with sex allocation rather than sex ratio, sex allocation denoting the allocation of energy to either sex. Common research themes are the effects of local mate and resource competition (often abbreviated LMC and LRC, respectively).

Fisher's principle edit

Main article: Fisher's principle

Fisher's principle (1930)[2] explains why in most species, the sex ratio is approximately 1:1. His argument was summarised by W. D. Hamilton (1967)[3] as follows, assuming that parents invest the same whether raising male or female offspring:

  1. Suppose male births are less common than female.
  2. A newborn male then has better mating prospects than a newborn female, and therefore can expect to have more offspring.
  3. Therefore parents genetically disposed to produce males tend to have more than average numbers of grandchildren born to them.
  4. Therefore the genes for male-producing tendencies spread, and male births become more common.
  5. As the 1:1 sex ratio is approached, the advantage associated with producing males dies away.
  6. The same reasoning holds if females are substituted for males throughout. Therefore 1:1 is the equilibrium ratio.

In modern language, the 1:1 ratio is the evolutionarily stable strategy (ESS).[13] This ratio has been observed in many species, including the bee Macrotera portalis. A study performed by Danforth observed no significant difference in the number of males and females from the 1:1 sex ratio.[14]

Examples in non-human species edit

Environmental and individual control edit

Spending equal amounts of resources to produce offspring of either sex is an evolutionarily stable strategy: if the general population deviates from this equilibrium by favoring one sex, one can obtain higher reproductive success with less effort by producing more of the other. For species where the cost of successfully raising one offspring is roughly the same regardless of its sex, this translates to an approximately equal sex ratio.

Bacteria of the genus Wolbachia cause skewed sex ratios in some arthropod species as they kill males. Sex-ratio of adult populations of pelagic copepods is usually skewed towards dominance of females. However, there are differences in adult sex ratios between families: in families in which females require multiple matings to keep producing eggs, sex ratios are less biased (close to 1); in families in which females can produce eggs continuously after only one mating, sex ratios are strongly skewed towards females.[15]

Several species of reptiles have temperature-dependent sex determination, where incubation temperature of eggs determines the sex of the individual. In the American alligator, for example, females are hatched from eggs incubated between 27.7 to 30 °C (81.9 to 86.0 °F), whereas males are hatched from eggs 32.2 to 33.8 °C (90.0 to 92.8 °F). In this method, however, all eggs in a clutch (20–50) will be of the same sex. In fact, the natural sex ratio of this species is five females to one male.[16]

In birds, mothers can influence the sex of their chicks. In peafowl, maternal body condition can influence the proportion of daughters in the range from 25% to 87%.[17]

Dichogamy (sequential hermaphroditism) is normal in several groups of fish, such as wrasses, parrotfish and clownfish. This can cause a discrepancy in the sex ratios as well. In the bluestreak cleaner wrasse, there is only one male for every group of 6-8 females. If the male fish dies, the strongest female changes its sex to become the male for the group. All of these wrasses are born female, and only become male in this situation. Other species, like clownfish, do this in reverse, where all start out as non-reproductive males, and the largest male becomes a female, with the second-largest male maturing to become reproductive.

Domesticated animals edit

Traditionally, farmers have discovered that the most economically efficient community of animals will have a large number of females and a very small number of males. A herd of cows with a few bulls or a flock of hens with one rooster are the most economical sex ratios for domesticated livestock.

Dioecious plants secondary sex ratio and amount of pollen edit

It was found that the amount of fertilizing pollen can influence secondary sex ratio in dioecious plants. Increase in pollen amount leads to decrease in number of male plants in the progeny. This relationship was confirmed on four plant species from three families – Rumex acetosa (Polygonaceae),[18][19] Melandrium album (Caryophyllaceae),[20][21] Cannabis sativa[22] and Humulus japonicus (Cannabinaceae).[23]

Polyandrous and cooperatively breeding homeotherms edit

In charadriiform birds, recent research has shown clearly that polyandry and sex-role reversal (where males care and females compete for mates) as found in phalaropes, jacanas, painted snipe and a few plover species is clearly related to a strongly male-biased adult sex ratio.[24] Those species with male care and polyandry invariably have adult sex ratios with a large surplus of males,[24] which in some cases can reach as high as six males per female.[25]

Male-biased adult sex ratios have also been shown to correlate with cooperative breeding in mammals such as alpine marmots and wild canids.[26] This correlation may also apply to cooperatively breeding birds,[27] though the evidence is less clear.[24] It is known, however, that both male-biased adult sex ratios[28] and cooperative breeding tend to evolve where caring for offspring is extremely difficult due to low secondary productivity, as in Australia[29] and Southern Africa. It is also known that in cooperative breeders where both sexes are philopatric like the varied sittella,[30] adult sex ratios are equally or more male-biased than in those cooperative species, such as fairy-wrens, treecreepers and the noisy miner[31] where females always disperse.

See also edit

Humans:

Institutions:

Notes edit

  1. ^ Data from the CIA World Factbook. Map compiled in 2021, data from 2020.
  2. ^ a b Fisher, R. A. (1930). The Genetical Theory of Natural Selection. Oxford: Clarendon Press. pp. 141–143 – via Internet Archive.
  3. ^ a b Hamilton, W. D. (1967). "Extraordinary Sex Ratios: A Sex-ratio Theory for Sex Linkage and Inbreeding Has New Implications in Cytogenetics and Entomology". Science. 156 (3774): 477–488. Bibcode:1967Sci...156..477H. doi:10.1126/science.156.3774.477. JSTOR 1721222. PMID 6021675.
  4. ^ Kobayashi, Kazuya; Hasegawa, Eisuke; Yamamoto, Yuuka; Kazutaka, Kawatsu; Vargo, Edward L.; Yoshimura, Jin; Matsuura, Kenji (2013). "Sex ratio biases in termites provide evidence for kin selection". Nat Commun. 4: 2048. Bibcode:2013NatCo...4.2048K. doi:10.1038/ncomms3048. hdl:2123/11211. PMID 23807025.
  5. ^ "Trend Analysis of the sex Ratio at Birth in the United States" (PDF). U.S. Department of Health and Human Services, National Center for Health Statistics.
  6. ^ Davis, Devra Lee; Gottlieb, Michelle and Stampnitzky, Julie; "Reduced Ratio of Male to Female Births in Several Industrial Countries" in Journal of the American Medical Association; April 1, 1998, volume 279(13); pp. 1018-1023
  7. ^ . The Central Intelligence Agency of the United States. Archived from the original on June 13, 2007.
  8. ^ Coney, N. S. & Mackey, W. C. (1998). "The Woman as Final Arbiter: A Case for the Facultative Character of the Human Sex Ratio". Journal of Sex Research. 35 (2): 169–175. doi:10.1080/00224499809551930.
  9. ^ Parker, G. A. & Simmons, L. W. (1996). "Parental Investment and the Control of Sexual Selection: Predicting the Direction of Sexual Competition" (PDF). Proceedings of the Royal Society B: Biological Sciences. 263 (1368): 315–321. doi:10.1098/rspb.1996.0048. JSTOR 50614. Retrieved 24 December 2022 – via JSTOR.
  10. ^ a b Kvarnemo, Charlotta & Ahnesjö, Ingrid (2002). "Operational Sex Ratios and Mating Competition" (PDF). In Hardy, Ian C. W. (ed.). Sex Ratios: Concepts and Research Methods (PDF). Cambridge: Cambridge University Press. pp. 366–382. doi:10.1017/CBO9780511542053.019. ISBN 9780521818964. Retrieved 24 December 2022.
  11. ^ Székely, T.; Weissing, F. J. & Komdeur, J. (2014). "Adult Sex Ratio Variation: Implications for Breeding System Evolution". Journal of Evolutionary Biology. 27 (8): 1500–1512. doi:10.1111/jeb.12415. PMID 24848871. S2CID 8350737.
  12. ^ Charnov, Eric L. (1982). Sex Allocation. Princeton: Princeton University Press. ISBN 9780691083124.
  13. ^ Maynard Smith J, Price GR (1973). "The logic of animal conflict". Nature. 246 (5427): 15–8. Bibcode:1973Natur.246...15S. doi:10.1038/246015a0. S2CID 4224989.
  14. ^ Danforth, Bryan (1991). "Female Foraging and Intranest Behavior of a Communal Bee, Perdita portalis (Hymenoptera: Andrenidae)". Annals of the Entomological Society of America. 84 (5): 537–548. doi:10.1093/aesa/84.5.537.
  15. ^ Kiørboe, T. (2006). "Sex, sex-ratios, and the dynamics of pelagic copepod populations". Oecologia. 148 (1): 40–50. Bibcode:2006Oecol.148...40K. doi:10.1007/s00442-005-0346-3. PMID 16425044. S2CID 13412222.
  16. ^ Ferguson MW, Joanen T (April 1982). "Temperature of egg incubation determines sex in Alligator mississippiensis". Nature. 296 (5860): 850–3. Bibcode:1982Natur.296..850F. doi:10.1038/296850a0. PMID 7070524. S2CID 4307265.
  17. ^ Pike TW, Petrie M (October 2005). "Maternal body condition and plasma hormones affect offspring sex ration in peafowl". Animal Behaviour. 70 (4): 745–51. doi:10.1016/j.anbehav.2004.12.020. S2CID 53185717.
  18. ^ Correns С. (1922). "Geschlechtsbestimmung und Zahlenverhaltnis der Geschlechter beim Sauerampfer (Rumex acetosa)". Biologisches Zentralblatt. 42: 465–80.
  19. ^ Rychlewski J.; Kazlmierez Z. (1975). "Sex ratio in seeds of Rumex acetosa L. as a result of sparse or abundant pollination". Acta Biol Crac Ser Bot. 18: 101–14.
  20. ^ Correns C. (1928). "Bestimmung, Vererbung und Verteilung des Geschlechter bei den hoheren Pflanzen". Handb. Vererbungswiss. 2: 1–138.
  21. ^ Mulcahy D.L. (1967). "Optimal sex ratio in Silene alba". Heredity. 22 (3): 411–423. doi:10.1038/hdy.1967.50.
  22. ^ Riede W. (1925) Beitrage zum Geschlechts- und Anpassungs-problem. "Flora" 18/19
  23. ^ Kihara H., Hirayoshi J. (1932) Die Geschlechtschromosomen von Humulus japonicus. Sieb. et. Zuce. In: 8th Congr. Jap. Ass. Adv. Sci., p. 363—367 (cit.: Plant Breeding Abstr., 1934, 5, № 3, p. 248, ref. № 768).
  24. ^ a b c Liker András; Freckleton Robert P.; Székely Tamás (2013). "The evolution of sex roles in birds is related to adult sex ratio". Nature Communications. 4: 1587. Bibcode:2013NatCo...4.1587L. doi:10.1038/ncomms2600. PMID 23481395.
  25. ^ Kosztolányi András; Barta Zoltán; Küpper Clemens; Székely Tamás (2011). "Persistence of an extreme male-biased adult sex ratio in a natural population of a polyandrous bird". Journal of Evolutionary Biology. 24 (8): 1842–1846. doi:10.1111/j.1420-9101.2011.02305.x. PMID 21749544. S2CID 6954828.
  26. ^ Allainé, Dominique; Brondex, Francine; Graziani, Laurent; Coulon, Jacques and Till-Bottraud, Irène; "Male-biased sex ratio in litters of alpine marmots supports the helper repayment hypothesis"
  27. ^ Doerr Erik D.; Doerr Veronica A.J. (2006). "Comparative demography of treecreepers: evaluating hypotheses for the evolution and maintenance of cooperative breeding". Animal Behaviour. 72 (1): 147–159. doi:10.1016/j.anbehav.2005.10.017. S2CID 53165151.
  28. ^ Kokko Hanna; Jennions Michael D (2008). "Parental investment, sexual selection and sex ratios". Journal of Evolutionary Biology. 21 (4): 919–948. doi:10.1111/j.1420-9101.2008.01540.x. hdl:1885/54578. PMID 18462318. S2CID 14624385.
  29. ^ Orians Gordon H.; Milewski Antoni V. (2007). "Ecology of Australia: the effects of nutrient-poor soils and intense fires". Biological Reviews. 82 (3): 393–423. doi:10.1111/j.1469-185x.2007.00017.x. PMID 17624961. S2CID 39566226.
  30. ^ Noske, R.A. (1986). "Intersexual niche segregation among three bark-foraging birds of eucalypt forests". Australian Journal of Ecology. 11 (3): 255–267. doi:10.1111/j.1442-9993.1986.tb01396.x.
  31. ^ Arnold, Kathryn E.; Griffith, Simon C.; Goldizen, Anne W. (2001). "Sex-biased hatching sequences in the cooperatively breeding noisy miner". Journal of Avian Biology. 32 (3): 219–223. doi:10.1111/j.0908-8857.2001.320303.x.

References edit

  • Ansley J. Coale; Judith Banister (December 1996). "Five decades of missing females in China". Proceedings of the American Philosophical Society. 140 (4): 421–450. JSTOR 987286. Also printed as Coale, Ansley J.; Banister, Judith (Aug 1994). "Five decades of missing females in China". Demography. 31 (3): 459–79. doi:10.2307/2061752. JSTOR 2061752. PMID 7828766. S2CID 24724998.
  • Nishimura K, Jahn GC (1996). "Sex allocation of three solitary ectoparasitic wasp species on bean weevil larvae: sex ratio change with host quality and local mate competition". Journal of Ethology. 14 (1): 27–34. doi:10.1007/BF02350089. S2CID 10590797.
  • Trivers R.L.; Willard D.E. (1973). "Natural selection of parental ability to vary the sex ratio of offspring". Science. 179 (4068): 90–2. Bibcode:1973Sci...179...90T. doi:10.1126/science.179.4068.90. PMID 4682135. S2CID 29326420.
  • Rath, R.M., and Mishra A.K. (2005). Techniques for Sex Ratio Analysis. Association of Professional Geographers.

External links edit

  • A review of sex ratio theory

January 19, 2024
ratio, gender, balance, redirects, here, gender, balance, socio, political, issue, gender, equality, ratio, ratio, males, females, population, explained, fisher, principle, evolutionary, reasons, this, typically, about, species, which, reproduce, sexually, how. Gender balance redirects here For gender balance as a socio political issue see Gender equality A sex ratio is the ratio of males to females in a population As explained by Fisher s principle for evolutionary reasons this is typically about 1 1 in species which reproduce sexually 2 3 However many species deviate from an even sex ratio either periodically or permanently Examples include parthenogenic species periodically mating organisms such as aphids some eusocial wasps bees ants and termites 4 Map indicating the human sex ratio by country 1 Countries with more males than females Countries with the same number of males and females accounting that the ratio has 3 significant figures i e 1 00 males to 1 00 females Countries with more females than males No dataThe human sex ratio is of particular interest to anthropologists and demographers In human societies sex ratios at birth may be considerably skewed by factors such as the age of mother at birth 5 and by sex selective abortion and infanticide Exposure to pesticides and other environmental contaminants may be a significant contributing factor as well 6 As of 2014 the global sex ratio at birth is estimated at 107 boys to 100 girls 1 000 boys per 934 girls 7 Contents 1 Types 2 Sex ratio theory 3 Fisher s principle 4 Examples in non human species 4 1 Environmental and individual control 4 2 Domesticated animals 4 3 Dioecious plants secondary sex ratio and amount of pollen 4 4 Polyandrous and cooperatively breeding homeotherms 5 See also 6 Notes 7 References 8 External linksTypes editIn most species the sex ratio varies according to the age profile of the population 8 It is generally divided into four subdivisions primary sex ratio ratio at fertilization secondary sex ratio ratio at birth tertiary sex ratio ratio in sexually mature organismsThis is equivalent to the adult sex ratio ASR which is defined as the ratio of adult males to females in a population 9 10 The operational sex ratio OSR is the ratio of sexually active males to females in a population and is therefore derived from a subset of the individuals included when calculating the ASR 10 Although conceptually distinct researchers have sometimes equated the ASR with the OSR particularly in experimental studies of animals where the difference between the two values may not always be readily apparent 11 quaternary sex ratio ratio in post reproductive organismsThese definitions can be somewhat subjective since they lack clear boundaries Sex ratio theory editSex ratio theory is a field of academic study which seeks to understand the sex ratios observed in nature from an evolutionary perspective It continues to be heavily influenced by the work of Eric Charnov 12 He defines five major questions both for his book and the field in general slightly abbreviated here For a dioecious species what is the equilibrium sex ratio maintained by natural selection For a sequential hermaphrodite what is the equilibrium sex order and time of sex change For a simultaneous hermaphrodite what is the equilibrium allocation of resources to male versus female function in each breeding season Under what conditions are the various states of hermaphroditism or dioecy evolutionarily stable When is a mixture of sexual types stable When does selection favour the ability of an individual to alter its allocation to male versus female function in response to particular environmental or life history situations Biological research mostly concerns itself with sex allocation rather than sex ratio sex allocation denoting the allocation of energy to either sex Common research themes are the effects of local mate and resource competition often abbreviated LMC and LRC respectively Fisher s principle editMain article Fisher s principle Fisher s principle 1930 2 explains why in most species the sex ratio is approximately 1 1 His argument was summarised by W D Hamilton 1967 3 as follows assuming that parents invest the same whether raising male or female offspring Suppose male births are less common than female A newborn male then has better mating prospects than a newborn female and therefore can expect to have more offspring Therefore parents genetically disposed to produce males tend to have more than average numbers of grandchildren born to them Therefore the genes for male producing tendencies spread and male births become more common As the 1 1 sex ratio is approached the advantage associated with producing males dies away The same reasoning holds if females are substituted for males throughout Therefore 1 1 is the equilibrium ratio In modern language the 1 1 ratio is the evolutionarily stable strategy ESS 13 This ratio has been observed in many species including the bee Macrotera portalis A study performed by Danforth observed no significant difference in the number of males and females from the 1 1 sex ratio 14 Examples in non human species editEnvironmental and individual control edit Spending equal amounts of resources to produce offspring of either sex is an evolutionarily stable strategy if the general population deviates from this equilibrium by favoring one sex one can obtain higher reproductive success with less effort by producing more of the other For species where the cost of successfully raising one offspring is roughly the same regardless of its sex this translates to an approximately equal sex ratio Bacteria of the genus Wolbachia cause skewed sex ratios in some arthropod species as they kill males Sex ratio of adult populations of pelagic copepods is usually skewed towards dominance of females However there are differences in adult sex ratios between families in families in which females require multiple matings to keep producing eggs sex ratios are less biased close to 1 in families in which females can produce eggs continuously after only one mating sex ratios are strongly skewed towards females 15 Several species of reptiles have temperature dependent sex determination where incubation temperature of eggs determines the sex of the individual In the American alligator for example females are hatched from eggs incubated between 27 7 to 30 C 81 9 to 86 0 F whereas males are hatched from eggs 32 2 to 33 8 C 90 0 to 92 8 F In this method however all eggs in a clutch 20 50 will be of the same sex In fact the natural sex ratio of this species is five females to one male 16 In birds mothers can influence the sex of their chicks In peafowl maternal body condition can influence the proportion of daughters in the range from 25 to 87 17 Dichogamy sequential hermaphroditism is normal in several groups of fish such as wrasses parrotfish and clownfish This can cause a discrepancy in the sex ratios as well In the bluestreak cleaner wrasse there is only one male for every group of 6 8 females If the male fish dies the strongest female changes its sex to become the male for the group All of these wrasses are born female and only become male in this situation Other species like clownfish do this in reverse where all start out as non reproductive males and the largest male becomes a female with the second largest male maturing to become reproductive Domesticated animals edit Traditionally farmers have discovered that the most economically efficient community of animals will have a large number of females and a very small number of males A herd of cows with a few bulls or a flock of hens with one rooster are the most economical sex ratios for domesticated livestock Dioecious plants secondary sex ratio and amount of pollen edit It was found that the amount of fertilizing pollen can influence secondary sex ratio in dioecious plants Increase in pollen amount leads to decrease in number of male plants in the progeny This relationship was confirmed on four plant species from three families Rumex acetosa Polygonaceae 18 19 Melandrium album Caryophyllaceae 20 21 Cannabis sativa 22 and Humulus japonicus Cannabinaceae 23 Polyandrous and cooperatively breeding homeotherms edit In charadriiform birds recent research has shown clearly that polyandry and sex role reversal where males care and females compete for mates as found in phalaropes jacanas painted snipe and a few plover species is clearly related to a strongly male biased adult sex ratio 24 Those species with male care and polyandry invariably have adult sex ratios with a large surplus of males 24 which in some cases can reach as high as six males per female 25 Male biased adult sex ratios have also been shown to correlate with cooperative breeding in mammals such as alpine marmots and wild canids 26 This correlation may also apply to cooperatively breeding birds 27 though the evidence is less clear 24 It is known however that both male biased adult sex ratios 28 and cooperative breeding tend to evolve where caring for offspring is extremely difficult due to low secondary productivity as in Australia 29 and Southern Africa It is also known that in cooperative breeders where both sexes are philopatric like the varied sittella 30 adult sex ratios are equally or more male biased than in those cooperative species such as fairy wrens treecreepers and the noisy miner 31 where females always disperse See also editEvolution of sex Operational sex ratio Sex allocation Trivers Willard hypothesis XY sex determination systemHumans Human sex ratio List of countries by sex ratio Bride kidnapping Groom kidnapping Demographic transition Sex selection Sex selective abortion and infanticide Youth bulgeInstitutions Gender Balance CouncilNotes edit Data from the CIA World Factbook 1 Map compiled in 2021 data from 2020 a b Fisher R A 1930 The Genetical Theory of Natural Selection Oxford Clarendon Press pp 141 143 via Internet Archive a b Hamilton W D 1967 Extraordinary Sex Ratios A Sex ratio Theory for Sex Linkage and Inbreeding Has New Implications in Cytogenetics and Entomology Science 156 3774 477 488 Bibcode 1967Sci 156 477H doi 10 1126 science 156 3774 477 JSTOR 1721222 PMID 6021675 Kobayashi Kazuya Hasegawa Eisuke Yamamoto Yuuka Kazutaka Kawatsu Vargo Edward L Yoshimura Jin Matsuura Kenji 2013 Sex ratio biases in termites provide evidence for kin selection Nat Commun 4 2048 Bibcode 2013NatCo 4 2048K doi 10 1038 ncomms3048 hdl 2123 11211 PMID 23807025 Trend Analysis of the sex Ratio at Birth in the United States PDF U S Department of Health and Human Services National Center for Health Statistics Davis Devra Lee Gottlieb Michelle and Stampnitzky Julie Reduced Ratio of Male to Female Births in Several Industrial Countries in Journal of the American Medical Association April 1 1998 volume 279 13 pp 1018 1023 CIA Fact Book The Central Intelligence Agency of the United States Archived from the original on June 13 2007 Coney N S amp Mackey W C 1998 The Woman as Final Arbiter A Case for the Facultative Character of the Human Sex Ratio Journal of Sex Research 35 2 169 175 doi 10 1080 00224499809551930 Parker G A amp Simmons L W 1996 Parental Investment and the Control of Sexual Selection Predicting the Direction of Sexual Competition PDF Proceedings of the Royal Society B Biological Sciences 263 1368 315 321 doi 10 1098 rspb 1996 0048 JSTOR 50614 Retrieved 24 December 2022 via JSTOR a b Kvarnemo Charlotta amp Ahnesjo Ingrid 2002 Operational Sex Ratios and Mating Competition PDF In Hardy Ian C W ed Sex Ratios Concepts and Research Methods PDF Cambridge Cambridge University Press pp 366 382 doi 10 1017 CBO9780511542053 019 ISBN 9780521818964 Retrieved 24 December 2022 Szekely T Weissing F J amp Komdeur J 2014 Adult Sex Ratio Variation Implications for Breeding System Evolution Journal of Evolutionary Biology 27 8 1500 1512 doi 10 1111 jeb 12415 PMID 24848871 S2CID 8350737 Charnov Eric L 1982 Sex Allocation Princeton Princeton University Press ISBN 9780691083124 Maynard Smith J Price GR 1973 The logic of animal conflict Nature 246 5427 15 8 Bibcode 1973Natur 246 15S doi 10 1038 246015a0 S2CID 4224989 Danforth Bryan 1991 Female Foraging and Intranest Behavior of a Communal Bee Perdita portalis Hymenoptera Andrenidae Annals of the Entomological Society of America 84 5 537 548 doi 10 1093 aesa 84 5 537 Kiorboe T 2006 Sex sex ratios and the dynamics of pelagic copepod populations Oecologia 148 1 40 50 Bibcode 2006Oecol 148 40K doi 10 1007 s00442 005 0346 3 PMID 16425044 S2CID 13412222 Ferguson MW Joanen T April 1982 Temperature of egg incubation determines sex in Alligator mississippiensis Nature 296 5860 850 3 Bibcode 1982Natur 296 850F doi 10 1038 296850a0 PMID 7070524 S2CID 4307265 Pike TW Petrie M October 2005 Maternal body condition and plasma hormones affect offspring sex ration in peafowl Animal Behaviour 70 4 745 51 doi 10 1016 j anbehav 2004 12 020 S2CID 53185717 Correns S 1922 Geschlechtsbestimmung und Zahlenverhaltnis der Geschlechter beim Sauerampfer Rumex acetosa Biologisches Zentralblatt 42 465 80 Rychlewski J Kazlmierez Z 1975 Sex ratio in seeds of Rumex acetosa L as a result of sparse or abundant pollination Acta Biol Crac Ser Bot 18 101 14 Correns C 1928 Bestimmung Vererbung und Verteilung des Geschlechter bei den hoheren Pflanzen Handb Vererbungswiss 2 1 138 Mulcahy D L 1967 Optimal sex ratio in Silene alba Heredity 22 3 411 423 doi 10 1038 hdy 1967 50 Riede W 1925 Beitrage zum Geschlechts und Anpassungs problem Flora 18 19 Kihara H Hirayoshi J 1932 Die Geschlechtschromosomen von Humulus japonicus Sieb et Zuce In 8th Congr Jap Ass Adv Sci p 363 367 cit Plant Breeding Abstr 1934 5 3 p 248 ref 768 a b c Liker Andras Freckleton Robert P Szekely Tamas 2013 The evolution of sex roles in birds is related to adult sex ratio Nature Communications 4 1587 Bibcode 2013NatCo 4 1587L doi 10 1038 ncomms2600 PMID 23481395 Kosztolanyi Andras Barta Zoltan Kupper Clemens Szekely Tamas 2011 Persistence of an extreme male biased adult sex ratio in a natural population of a polyandrous bird Journal of Evolutionary Biology 24 8 1842 1846 doi 10 1111 j 1420 9101 2011 02305 x PMID 21749544 S2CID 6954828 Allaine Dominique Brondex Francine Graziani Laurent Coulon Jacques and Till Bottraud Irene Male biased sex ratio in litters of alpine marmots supports the helper repayment hypothesis Doerr Erik D Doerr Veronica A J 2006 Comparative demography of treecreepers evaluating hypotheses for the evolution and maintenance of cooperative breeding Animal Behaviour 72 1 147 159 doi 10 1016 j anbehav 2005 10 017 S2CID 53165151 Kokko Hanna Jennions Michael D 2008 Parental investment sexual selection and sex ratios Journal of Evolutionary Biology 21 4 919 948 doi 10 1111 j 1420 9101 2008 01540 x hdl 1885 54578 PMID 18462318 S2CID 14624385 Orians Gordon H Milewski Antoni V 2007 Ecology of Australia the effects of nutrient poor soils and intense fires Biological Reviews 82 3 393 423 doi 10 1111 j 1469 185x 2007 00017 x PMID 17624961 S2CID 39566226 Noske R A 1986 Intersexual niche segregation among three bark foraging birds of eucalypt forests Australian Journal of Ecology 11 3 255 267 doi 10 1111 j 1442 9993 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4682135 S2CID 29326420 Rath R M and Mishra A K 2005 Techniques for Sex Ratio Analysis Association of Professional Geographers External links editCIA listing of sex ratios for individual countries including age divisions A review of sex ratio theory Retrieved from https en wikipedia org w index php title Sex ratio amp oldid 1196178682, wikipedia, wiki, book, books, library,

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