Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-24T03:00:59.681Z Has data issue: false hasContentIssue false

Fluctuating body asymmetry in young Polish women in relation to childhood socioeconomic status

Published online by Cambridge University Press:  22 April 2019

Martyna Zurawiecka
Affiliation:
Department of Anthropology, Institute of Zoology and Biomedical Research, Jagiellonian University, Cracow, Poland
Justyna Marchewka
Affiliation:
Department of Human Biology, Faculty of Biology and Environmental Sciences, the Cardinal Stefan Wyszynski University, Warsaw, Poland
Iwona Wronka*
Affiliation:
Department of Anthropology, Institute of Zoology and Biomedical Research, Jagiellonian University, Cracow, Poland
*
*Corresponding author. Email: [email protected]

Abstract

The aim of this study was to analyse the relationship between childhood socioeconomic conditions and body asymmetry in young Polish women. The study measured fluctuating asymmetry (FA), which refers to small random deviations from perfect symmetry in bilaterally paired body structures. Data were obtained from 620 female students aged from 19 to 25 years recruited from Jagiellonian University in Cracow, Poland. The research was carried out in the period from January 2016 to May 2017. A composite fluctuating asymmetry (cFA) of the women was calculated using five bilateral body traits. The lengths and widths of the women’s ears, lengths of their 2nd and 4th digits and wrist widths of the right and left sides of the body were measured twice using standard methodology. The following data were collected in a questionnaire: degree of urbanization of the woman’s place of residence during childhood, number of older siblings, parental education and woman’s dominant hand. The results showed a tendency for FA to fall with an increase in parental education, and to rise with an increase in number of older siblings. The level of FA was significantly lower in women from rural areas than in those from cities. The results of the study show that FA in early adulthood is significantly associated with socioeconomic status during childhood, and confirm that the level of FA in adulthood may be a good indicator of stress factors in the early stages of development.

Type
Research Article
Copyright
© Cambridge University Press, 2019 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bielicki, T (1998) Growth as an indicator of social inequalities. In Ulijaszek SJ, Johnston FE and Preece MA (eds) Cambridge Encyclopedia of Human Growth and Development. Cambridge University Press, Cambridge, pp. 5457.Google Scholar
Bigoni, L, Krajícek, V, Sládek, V, Velemínský, P and Velemínská, J (2013) Skull shape asymmetry and the socioeconomic structure of an early medieval central European society. American Journal of Physical Anthropology 150, 349364.Google Scholar
Debat, V and David, P (2001) Mapping phenotypes: canalization, plasticity and developmental stability. Trends in Ecology and Evolution 16, 555561.Google Scholar
DeLeon, VB (2007) Fluctuating asymmetry and stress in a medieval Nubian population. American Journal of Physical Anthropology 132, 520534.Google Scholar
Fink, B, Weege, B, Manning, JT and Trivers, R (2014) Body symmetry and physical strength in human males. American Journal of Human Biology 26, 697700.Google Scholar
Flinn, MV, Leone, DV and Quinlan, RJ (1999) Growth and fluctuating asymmetry of stepchildren. Evolution and Human Behavior 20, 465479.Google Scholar
Gawlikowska-Sroka, A, Szczurowski, J, Czerwinski, F, Miklaszewska, D, Adamiec, E and Dzieciociołowska-Baran, E (2007) The fluctuating asymmetry of mediaeval and modern human skulls. Homo 58, 159172.Google Scholar
Graham, JH, Raz, S, Hel, H and Nevo, E (2010) Fluctuating asymmetry: methods, theory, and applications. Symmetry 2, 466540.Google Scholar
Gray, PB and Marlowe, F (2002) Fluctuating asymmetry of a foraging population: the Hadza of Tanzania. Annals of Human Biology 29, 495501.Google Scholar
Gurzkowska, B, Kułaga, Z, Litwin, M, Grajda, A, Świąder, A, Kułaga, K et al. (2014) The relationship between selected socioeconomic factors and basic anthropometric parameters of school-aged children and adolescents in Poland. European Journal of Pediatrics 173, 4552.Google Scholar
Hardersen, S and Frampton, C (2003) The influence of differential survival on the distribution of fluctuating asymmetry modeling approach. Journal of Theoretical Biology 224, 479482.Google Scholar
Hoover, KC and Matsumura, H (2008) Temporal variation and interaction between nutritional and developmental instability in prehistoric Japanese populations. American Journal of Physical Anthropology 137, 469478.Google Scholar
Hope, D, Bates, T, Penke, L, Gow, AJ, Starr, JM and Deary, IJ (2013) Symmetry of the face in old age reflects childhood social status. Economics and Human Biology 11, 236244.Google Scholar
Kieser, JA, Groeneveld, H and Da Silva, ACF (1997) Dental asymmetry, maternal obesity, and smoking. American Journal of Physical Anthropology 102, 133139.Google Scholar
Kirchengast, S (2017) Directional and fluctuating asymmetry among !Kung San and Kavango people of northern Namibia. The impact of sex and subsistence patterns. American Journal of Human Biology 29, e22921.Google Scholar
Kirchengast, S and Christiansen, K (2017) Androgen levels and body size are associated with directional as well as fluctuating asymmetry patterns in adult !Kung San and Kavango males from northern Namibia. Symmetry 9, 7288.Google Scholar
Krzywińska-Wiewiorowska, M, Stawińska-Witoszyńska, B, Krzyżaniak, A, Kaczmarek, M and Siwińska, A (2017) Environmental variation in the prevalence of hypertension in children and adolescents – is blood pressure higher in children and adolescents living in rural areas? Annals of Agricultural and Environmental Medicine 24, 129133.Google Scholar
Leamy, LJ and Klingenberg, CP (2005) Genetics and evolution of fluctuating asymmetry. Annual Review of Ecology Evolution Systematics 36, 121.Google Scholar
Little, BB, Buschang, PH and Malina, RM (2002) Anthropometric asymmetry in chronically undernourished children from Southern Mexico. Annals of Human Biology 29, 526537.Google Scholar
Livshits, G, Davidi, L, Kobyliansky, E, Ben-Amitai, D, Levi, Y and Merlob, P (1988) Decreased developmental stability as assessed by fluctuating asymmetry of morphometric traits in preterm infants. American Journal of Medical Genetics 29, 793805.Google Scholar
Livshits, G and Kobyliansky, E (1991) Fluctuating asymmetry as a possible measure of developmental homeostasis in humans: a review. Human Biology 63, 441466.Google Scholar
Møller, AP and Swaddle, JP (1997) Asymmetry, Developmental Stability and Evolution. Oxford University Press, Oxford.Google Scholar
Özener, B (2010) Fluctuating and directional asymmetry in young human males: effect of heavy working condition and socioeconomic status. American Journal of Physical Anthropology 143, 112120.Google Scholar
Özener, B and Fink, B (2010) Facial symmetry in young girls and boys from a slum and a control area of Ankara, Turkey. Evolution and Human Behavior 31, 436441.Google Scholar
Özener, B and Graham, JH (2014) Growth and fluctuating asymmetry of human newborns: influence of inbreeding and parental education. American Journal of Physical Anthropology 153, 4551.Google Scholar
Palmer, AR and Srobeck, C (1992) Fluctuating asymmetry as a measure of developmental stability: implications of nonnormal distributions and power of statistical tests. Acta Zoologica Fennica 191, 5772.Google Scholar
Palmer, AR and Strobeck, C (2003) Fluctuating asymmetry analyses revisited. In Polak M (ed.) Developmental Instability: Causes and Consequences. Oxford University Press, Oxford, pp. 279319.Google Scholar
Nijhout, HF and Davidowitz, G (2003) Developmental perspectives on phenotypic variation, canalization and fluctuating asymmetry. In Polak M (ed.) Developmental Instability: Causes and Consequences. Oxford University Press, Oxford, pp. 313.Google Scholar
Quinto-Sanchez, M, Cintas, C, Silva de Cerqueira, CC, Ramallo, V, Acuna-Alonzo, V, Adhikari, K and De Avila, F (2017) Socioeconomic status is not related with facial fluctuating asymmetry: evidence from Latin-American populations. PloS One 12, e0169287.Google Scholar
Swaddle, JP, Witter, MS and Cuthill, IC (1994) The analysis of fluctuating asymmetry. Animal Behaviour 48, 986989.Google Scholar
Waynforth, D (1998) Fluctuating asymmetry and human male life-history traits in rural Belize. Proceedings of the Royal Society London Series B 1405, 14971501.Google Scholar
Weisenseea, KE and Spradley, KM (2018) Craniofacial asymmetry as a marker of socioeconomic status among undocumented Mexican immigrants in the United States. Economics and Human Biology 29, 122127.Google Scholar
Wells, JC, Hallal, PC, Manning, JT and Victora, CG (2006) A trade-off between early growth rate and fluctuating asymmetry in Brazilian boys. Annals of Human Biology 33, 112124.Google Scholar
Wronka, I and Pawlinska-Chmara, R (2009) Childhood environment and adult height among Polish university students. Collegium Antropologicum 33, 10391045.Google Scholar
Zadzinska, E (2003) Fluctuating asymmetry of some head structures and its possible causes. Anthropological Review 66, 3954.Google Scholar
Zadzinska, E, Kozieł, S, Kurek, M and Spinek, A (2013) Mother’s trauma during pregnancy affects fluctuating asymmetry in offspring’s face. Anthropologischer Anzeiger 70, 427437.Google Scholar
Zaidi, ZF (2011) Body asymmetry: incidence, etiology and clinical implications. Australian Journal of Basic and Applied Sciences 5, 21572191.Google Scholar
Zienkiewicz, E, Okoński, M, Matuszewski, , Zienkiewicz, T, Goździewska, M and Klatka, M (2014) Influence of urbanization level and Gross Domestic Product on the prevalence of adolescent obesity in Poland. Annals of Agricultural and Environmental Medicine 21, 136142.Google Scholar