Intersexuality and Turner Syndrome

Intersex is an umbrella term that unites numerous conditions arising from birth that can involve variations in sex chromosomes, sex hormones, and/or sexual anatomy that differ from normative, medicalized expectations about male and female bodies. Such embodiments often disrupt binary understandings of sex and gender. In the case of intersex individuals, whose physiological reality imposes a different set of social experiences, the body contributes to an entanglement between linguistic, material, and embodied resources.

TS is one of the most common intersex conditions and occurs in approximately 1/3000 female-identified births. It is characterized by the presence of only one sex chromosome, X, instead of two (XX, or XY) in all or some of the body's cells (see Figure 1). This produces effects such as short stature (averaging 1.42 meters for TS adults), failure to undergo puberty, infertility, undeveloped ovaries, a lack of naturally occurring sex hormones, and other physical and cognitive effects. This reality has led some TS individuals to report having a precarious relationship to womanhood and femininity, often commenting that they feel like ‘second class women’. In other words, while many of my collaborators identified with aspects of girlhood and femininity, based on their lived experiences, they expressed discomfort with the concept of ‘womanhood’, particularly in the sense of passing into this adult phase or becoming a woman.

Figure 1. Karyotype of classic Turner Syndrome.

The most common medical interventions for TS individuals involve daily injections of growth hormone between the ages of eight and sixteen, replacement of feminizing hormones estrogen and progesterone, and surgery to remove gonadal tissue. Such regimens are time-sensitive and must occur from an early age to be effective. This has led doctors to push for treatment before patients reach the legal age of consent (Souza & Collett-Solberg Reference Souza and Collett-Solberg2011). In Brazil, doctors and parents often report hesitancy to pursue treatment due to cost, difficulty in obtaining hormones, discomfort with administering a syringe daily, and concerns over side effects. Although growth hormone is covered by Brazil's universal healthcare system, the regular availability of growth hormone in pharmacies is not guaranteed, particularly outside of major cities or wealthier neighborhoods. The decision to intervene or to not, in the hands of doctors and parents, has permanent physiological, social, and psychological consequences for TS individuals. Such challenges have obvious intersections with race and class within Brazilian society, which merit a much longer discussion than that which can be accomplished here.

TS's classification as an intersex condition has been debated in various spaces. Many of the arguments against this classification have asserted that with medical treatment, TS individuals ‘grow up to be women’ (Harper Reference Harper2007:171) and do not appear to show ‘ambiguous genitalia or confusion regarding sexual identity’ (Sax Reference Sax2002:176). By contrast, within critical intersex studies, scholars have argued that the inclusion of TS under the intersex umbrella has the potential to do justice to the lived experiences of TS individuals and their embodied realities (Griffiths Reference Griffiths2018). Additionally, bodily autonomy lies at the center of intersex advocacy given the long history of human rights violations stemming from non-consensual surgeries and medical interventions. TS individuals are no strangers to this reality and frequently experience diminished biomedical agency (Dauphinais Reference Dauphinais, Hall and Barrett2021). Among my participants, most understood TS to exist under the intersex umbrella, although not universally. Some were unfamiliar with the concept or declined to take a strong interest or position in either direction. Given this majority consensus, I argue for its classification as an intersex condition on the basis that TS breaks with normative understandings of ‘femaleness’ across multiple aspects of binary sexual categorization, including chromosomes, hormones, reproduction, and anatomy. For a further discussion of TS as intersex, see Dauphinais (Reference Dauphinais, Hall and Barrett2021).

I align with the Darlington Statement (Reference Statement2017) and King's (Reference King2022) call which both advocate for scholarship on intersex communities to place intersex people's needs at the center of research ethics. Although I share a TS diagnosis myself and have been an active member of TS groups since 2008, my collaborators’ priorities and autonomy lie at the forefront. Over six years of fieldwork, I regularly shared my observations and drafts with participants. This allowed me to incorporate community priorities before, during, and after data collection, in addition to establishing the centrality of height and its connections to femininity and adulthood.

Embodied sociolinguistics

Embodiment is a broad term employed in multiple ways across the social sciences (Kimmel Reference Kimmel, Frank, Dirven, Ziemke and Bernárdez2008). From a cognitive perspective, embodiment emphasizes the role of the body in shaping the meaning, concepts, and thought that language depends on and recruits sensory, motor, and affective processes related to the physical body (Johnson Reference Johnson and Newen2018). From an anthropological or gender-theoretical approach, embodiment is understood as the material and social realities surrounding the condition of having a body (Farnell Reference Farnell and Stanlaw2020). Within sociolinguistics, embodiment and its entanglements with linguistic and material resources are still very much a new frontier within the field (Lempert Reference Lempert2013:109).

In response to third-wave feminism and queer theory, which has long understood gender to be discursive and taken a more abstract approach to the body, trans and disability studies have drawn attention to the material and biophysical aspects of gender (Goodley Reference Goodley2013). With relatively few exceptions (Milani Reference Milani2014; Levon Reference Levon, Levon and Mendes2016), queer linguistics has followed the path of third-wave feminist theory and queer theory, examining the ways the body is discursively constructed as opposed to centering the body itself. Embodied sociolinguistics situates itself within the materiality versus discourse discussion by examining how the physical body produces language, while language itself produces and constructs bodies, often focusing on gesture and physical movement (King Reference King, Hall and Barrett2019). As Bucholtz & Hall (Reference Bucholtz, Hall and Coupland2016) argue, while work on gesture has its place, it needs to dialogue with indexicality, discourse, and agency. I take up this call here by examining the ways the bodies are discursively negotiated, and how this interacts with physical aspects of the voice.

While the intersex subject and the inherent messiness of human biology are often referenced in primers on language, gender, and sexuality as foundational to disrupting sex and gender binaries (e.g. Eckert & McConnell-Ginet Reference Eckert and McConnell-Ginet2013; Bucholtz Reference Bucholtz, Ehrlich, Meyerhoff and Holmes2014; McConnell-Ginet Reference McConnell-Ginet, Ehrlich, Meyerhoff and Holmes2014), little work within sociolinguistics has examined the interaction between biological sex and linguistic practice. As King (Reference King and Milani2014) argues, understandings of ‘masculinities’ and ‘femininities’ cannot always be separated from the intersex individual's subjective body experience, with language serving as the vehicle for articulating embodied knowledge. Calder (Reference Calder2020), in their review of the recent landscape of language, gender, and sexuality studies, argues that this body of scholarship has allowed linguists to construct and ideologize the construction of ‘man’, ‘woman’, ‘gay’, and ‘trans’, and expand beyond sexual and gendered binaries. Similarly, Zimman's (Reference Zimman, Zimman, Davis and Raclaw2014, Reference Zimman2017) work, which has focused on embodied aspects such as fundamental frequency and discursive practices surrounding genitals in transmasculine communities, demonstrates how bodies are at the center of negotiations of trans identities and agency. By interrogating such normativities among speakers and researchers, this has provided a fuller picture of the relationship between language and identity.

Pitch, formants, and gender differences in voice

Some of the earliest work in language and gender examined phonetic properties such as high phrase-final boundary tone and creaky voice—features that have been attributed to sexual dimorphism among humans in terms of vocal tract anatomy. Fundamental frequency (F0) and its perceptual correlate, pitch, are particularly fruitful in examining intersections of language, gender, and biology. Ohala (Reference Ohala1984) reports that on average, the male larynx is approximately 50% larger than the female larynx, resulting in a slower rate of vocal fold vibration and lower pitch. He concludes that this ‘frequency code’, or the sound-meaning correlation involves high F0 as a signifier of ‘smallness, nonthreatening attitude, desirous of goodwill of the receiver’, and low F0 as a marker of ‘largeness, threat, self-confidence, and self-sufficiency’ (Reference Ohala1984:343). As Zimman (Reference Zimman2017) argues, this projection comes close to naturalizing patriarchal domination via linguistic practice and does little to explore the way pitch is mediated by local sociocultural ideologies of gender.

Although there is a physiological component to pitch, several studies have shown that body size is not always indicative of F0 measures. Lass & Brown (Reference Lass and Brown1978) and González (Reference González2004), for example, find little correlation between F0 and physical markers such as height or weight, especially among participants of the same gender. These studies document that taller women do not necessarily have reliably deeper voices than shorter women, attributing differences in F0 to gender as opposed to height itself, with similar results for men. That is, size differences do not correlate with F0 when speakers of the same gender are compared.

Differences in F0 also arise across time, age, social groups, and different languages and cultures, while differences between men's and women's fundamental frequency typically arise during puberty (Lee, Potamianos, & Narayanan Reference Lee, Potamianos and Narayanan1999; Whiteside Reference Whiteside2001), with an overall lowering of F0 during this phase of development. Nonetheless, prepubescent children as young as four exhibit gendered differences in the regulation of vocal behavior well before any anatomical dimorphism (Nygren, Tyboni, Lindström, McAllister, & van Doorn Reference Nygren, Tyboni, Lindström, McAllister and van Doorn2012). Other research suggests that adult listeners persistently underestimated the age of older girls in perceptual tasks, suggesting that sociocultural understandings of age and pitch are interrelated (Assmann, Kapolowicz, & Barreda Reference Assmann, Kapolowicz and Barreda2018). Some perceptual studies also indicate that adult listeners use acoustic cues from both F0 and vowel formants to identify the gender of child speakers based on recordings (Perry, Ohde, & Ashmead Reference Perry, Ohde; and Ashmead2001). In Brazilian Portuguese, studies have found a main effect of gender, with women having a higher average F0 than men (Escudero, Boersma, Schurt Rauber, & Bion Reference Escudero, Boersma, Rauber and Bion2009). Escudero and colleagues find an average frequency of 216.63 Hz for women speakers and 125.07 Hz for men. In Brazilian Portuguese-speaking children between seven and eight years old, male-identified children were reported to produce an F0 of 258 Hz, female-identified children, an F0 of 256 Hz, with young girls exhibiting a wider F0 range (Viegas, Viegas, Atherino, & Baeck Reference Viegas, Viegas, Atherino and Baeck2010).

F0 has also been found to be affected by estrogen, hormone replacement therapy, and menstruation (Caruso, Roccasalva, Sapienza, Zappalá, Nuciforo, & Biondi Reference Caruso, Roccasalva, Sapienza, Zappalá, Nuciforo and Biondi2000). Hamden, Tabet, Fakhri, Sarieddine, Btaiche, & Seoud (2018) find that menopausal women on hormone replacement therapy (HRT) have significantly higher pitch than those who are not. This is attributed to changes in vocal fold dystrophy, which HRT can prevent (Caruso et al. Reference Caruso, Roccasalva, Sapienza, Zappalá, Nuciforo and Biondi2000). For trans men who undergo testosterone therapy, notable drops in F0 are recorded as well (Zimman Reference Zimman2017). These studies highlight the fluidity of physiology, particularly in light of biological sex differences, and the role of novel medical interventions on the voice.

Studies in phonetics have also noted gendered variation in fundamental frequency range, observing that women employ a greater range in pitch with faster shifts than men (Lakoff Reference Lakoff1973; McConnell-Ginet Reference McConnell-Ginet1978). Henton (Reference Henton1995) challenges this by arguing that, while women may employ greater acoustic shifts in pitch, it is equivalent to men's pitch ranges on a perceptual level. Vowel formants, while they elicit less metalinguistic commentary and awareness as a characteristic of speech, are aligned with pitch in terms of differences in the gendered voice. From a physiological perspective, the size of the vocal tract determines vowel formant frequencies, with lower frequencies in larger spaces and higher frequencies in smaller spaces. It is important to note that unlike F0, which is just one acoustic cue, the relationship among formants in their perception is also important. Scholarship on vowel formant frequencies and vocal tract size, however, has not found strong evidence for a biological or physiological explanation for gendered differences in formants. Simpson (Reference Simpson2009) argues that other articulatory movements such as tongue and lip position can affect the shape and resonance of formant frequencies, in addition to the descent of the larynx during puberty.

Other studies examine formants of prepubescent children whose vocal tracts do not yet exhibit differences in size. These results show that adult-like gender differences are still found, indicating the role of gendered ideologies on language during socialization (González Reference González2004). In terms of F1 and F2 in Brazilian Portuguese, Escudero and colleagues (Reference Escudero, Boersma, Rauber and Bion2009) find that the F1 vowel space is 1.201 times, and F2 vowel space 1.174 times, larger for women than for men for Brazilian participants. The place of gendered and physiological variation in formants is less clear, and to date, little to no research has been conducted on ideological or social dimensions of formants in Portuguese.

Participants and recruitment

This study contains two data sets: a set of qualitative ethnographic data obtained from fieldwork in TS communities in Brazil (2016–2022), and recordings of a phonetic task from TS and non-TS participants. Participants lived in different areas of Rio de Janeiro, predominantly in the Zona Norte, Zona Sul, Centro, and Baixada Fluminense areas (Figure 2), reflecting a variety of socioeconomic status and racio-ethnic categories that mirror the overall city demographics. I recruited collaborators during my observations at two endocrinology departments in local hospitals and from online TS support groups. While race was occasionally mentioned during fieldwork, participants often located race on themselves and others in complex ways. As a non-Brazilian, I was hesitant to impose my own immediate categories and outsider lens on participants and this data set without deeper methodological and theoretical foundations to do so. Given the depth of research on this topic, a further examination of racial categories within Brazilian TS communities is necessary in future work. All participants are identified here by pseudonyms that they chose during the informed consent process.

Figure 2. Map of regions of Rio de Janeiro (Source: https://www.digitaleconomybrazil.com/digitaleconomy/coworking-spaces-in-rio-de-janeiro-which-neighborhood-to-choose/).

As mentioned earlier, my own TS diagnosis was key to developing trust with participants and forming relationships, as many only agreed to talk to me after they knew that I shared the condition. A few had never discussed TS outside of a medical context before, including with siblings, close friends, and partners. In disclosing this, I align with King's call for language scholars to conduct research both ‘with and for research collaborators’ (King Reference King2022:156), and in conjunction with calls from within linguistics and anthropology for greater researcher transparency (Kovach Reference Kovach2021).

Rio de Janeiro is a site of intense racial, class, gendered, and geographic contrasts, where the body is frequently on display publicly and discursively (Roth-Gordon Reference Roth-Gordon2016; Jarrín Reference Jarrín2017). For bodies deemed ‘non-normative’, such as the Turner body, this social context can result in increased pressure to pursue medical intervention and assimilate to gendered expectations. According to numerous collaborators, this contributed to feelings of isolation or estrangement from local social practices. For example, some participants commented how they disliked activities such as going to the beach, participating in sports like beach volleyball, or partaking in large, public events such as Carnaval, citing a discomfort with feeling exposed and vulnerable. Women with TS must therefore navigate complex social orders of femininity while having a condition that marks them as physically, sexually, and socially different.

Data analysis methods

In Praat, I segmented and extracted the vowel tokens of the target words, measuring from the onset to the offset of the vowel, generally from where the wave form shows an increase in intensity, and ending where intensity was lowered (Figure 4). A total of twenty-one tokens were segmented per recording for each speaker. A Praat script was then used to determine the maximum, minimum, and mean F0, as well as F1, F2, and F3 taken at the midpoint of each vowel token.

Figure 4. Segmentation of vowel in Praat.

I then coded all tokens (n = 790) for speaker, vowel, TS diagnosis, gender, karyotype, growth hormone, and height. TS diagnosis included a categorization of Turner or non-Turner. Gender included self-reported gender identity of the participants, as well as karyotype (X0 for TS, as well as XX and XY). For participants with a TS diagnosis, I included growth hormone replacement as a yes/no category, as well as reported height.

Height represents a salient characteristic and forms part of almost all daily conversations among TS groups. TS women frequently compare heights with each other, especially in the context of taking growth hormone, so asking about this was not invasive in the context of TS groups. Growth hormone treatment, while it does impact growth, is also subject to a lot of external variables. All but two of the TS participants who received intravenous growth hormone as children in this portion of the study were treated by the same set of doctors operating in the same clinic over their lifespan, reducing the number of variables, in terms of growth hormone replacement therapy, that might have influenced growth. I did not include estrogen replacement as a variable, as participants were not always consistent in their present usage and presented too much variability in terms of dosage, method of replacement, and reported medication adherence. I did not collect height data for non-TS participants in the study, given that many of the participants, particularly men, gave rough approximations or hedged significantly. By not probing further, I was able to respect participant privacy.

After coding, I used mixed-effects linear regression models in R to explore the relationship between the acoustic measures and factors including TS diagnosis, gender, and karyotype, with speaker and word as random effects. These three factors present a degree of overlap, although I examine them in this way to further establish which is most at stake in fundamental frequency and vowel formant production. For each dependent measure (F0, F1–F3), I ran a mixed effects linear regression model using the lmer function in the package lme4 (Bates, Mächler, Bolker, & Walker Reference Bates, Mächler, Bolker and Walker2015) in R for fitting linear mixed-effects models. An analysis of variance (ANOVA) using the ANOVA function was then conducted to compare the fit of different models. I then constructed a separate analysis to investigate the effects of growth hormone and height on fundamental frequency, which was only included for participants with TS. In a third analysis, I compared results for only participants identifying as women to explore the effect of karyotype on fundamental frequency.

For all of the analyses, I obtained marginal R-squared (R²m) and conditional R-squared (R²c) values for each model to assess the goodness-of-fit of the variation per measure using the MuMIn (Multi-Model Inference) package (Bartoń Reference Bartoń2002). R²m is a measure of the variation accounted for by just fixed factors, while R²c includes both fixed and random effects. Images for descriptive statistics were created with ggplot2 (Wickham Reference Wickham2016).