Physical activity (PA) is a fundamental behaviour for healthy development during childhood and adolescence, between ages 3 and 18 (Barnett et al., 2016). Despite this, 80% of adolescents do not meet the minimum PA recommendations (World Health Organization, 2021) and this means that physical inactivity is currently a public health problem (Miller et al., 2019) closely related to the development of chronic diseases such as cancer or diabetes (Lee et al., 2012). In this line, previous research (Barnett et al., 2022; De Meester et al., 2020) shows that participation in PA is impacted by several factors among which motor competence (MC) or physical literacy (PL) stands out.

MC (Coppens et al., 2021; Estevan & Barnett, 2018) can be actual or perceived and in both cases is associated with lifetime PA practice (Barnett et al., 2022; Robinson et al., 2015). Actual motor competence (AMC) refers to the degree of mastery and abilities in multiple motor skills and underlying mechanisms, such as coordination and balance, resulting in quality movement (De Meester et al., 2020). The conceptual model of motor development (Stodden et al., 2008) postulates the role of MC within health-related child development. This model proposes the existence of a direct relationship between AMC and PA, as well as an indirect relationship mediated by perceived motor competence (PMC), which refers to each person's appreciation of their own motor skills or abilities (Estevan & Barnett, 2018).

Regarding the explanatory power of AMC on PA in adolescents (Barnett et al., 2022), recent studies show a positive association, with AMC being a predictor of both PA volume (McIntyre et al., 2018) and intensity (Gu et al., 2018). This relationship seems to acquire greater predictive value when the mediating role of PMC is considered (Barnett et al., 2022). Those who show high PMC levels tend to persist in the motor challenges; thus, PMC is positively associated with AMC (De Meester et al., 2020). In this sense, this relationship between PMC and AMC seems to be moderated by the gender and age of children and young people. With reference to gender, boys tend to show higher levels of both PMC and AMC than girls. In terms of age, during childhood, children tend to overestimate themselves, whereas in adolescence, as they get older, their assessment of their own motor skills adjusts more to reality with implications for PA practice (Barnett et al., 2022). Thus, those adolescents who show high levels of AMC and PMC tend to perform more PA (Coppens et al., 2021; Menescardi, De Meester et al., 2022). However, evidence on the mediating role of PMC in the relationship between AMC and PA found so far has been indeterminate (Barnett et al., 2022) which, in addition to the lack of studies, may mean that there are other psychosocial factors that influence PA participation that are not included in the conceptual model of motor development such as PL (Barnett et al., 2016, 2023; Shen et al., 2018).

PL refers to the ability to understand the importance of PA practice across the lifespan. This capacity is achieved through holistic learning that results in the motivation, knowledge and physical competence needed to perform PA (Barnett et al., 2023; Whitehead, 2019). Because of its pedagogical potential, PL has acquired a key significance in Physical Education and sport being considered a central aspect to develop quality experiences in children and young people (Cairney & Clark, 2016), as it is a holistic concept that gathers some relevant aspects (such as physical, psychological, social and cognitive) of the person (Barnett et al., 2019, 2022; Cairney, Dudley et al., 2019) and which have been related to PA practice (Estevan et al., 2021; Menescardi, De Meester et al., 2022; Menescardi & Estevan, 2021; Monteiro et al., 2021; Nezondet et al., 2023; Shen et al., 2018).

Previous studies show adolescents with higher levels of AMC are more autonomously motivated towards PA practice (Estevan et al., 2021; Menescardi et al., 2023). Similarly, the social context can influence young people's motivation and enjoyment, as well as the adoption and maintenance of an active lifestyle (Barnett et al., 2016; Monteiro et al., 2021; Shen et al., 2018). In addition, an adequate understanding and comprehension of importance of maintaining active lifestyles promotes cognitive awareness that is associated with increased PA practice (Edwards et al., 2017). Thus, physically literate individuals would tend to show higher PA practice levels to a greater extent because they would have higher levels of autonomous motivation, social support, PMC, or AMC (Cairney, Clark et al., 2019). Therefore, the measurement of PL can be useful to holistically understand the different domains that impact PA practice increasing the possibilities of being physically active (Barnett et al., 2023).

Just as PMC is a measure associated with AMC, perception of PL (PPL) can provide a comprehensive view of students' perspectives on their own PA levels, that helps teachers, coaches, and families to understand the state of adolescents and which aspects they need further development (Barnett et al., 2022). Furthermore, in the same way that PMC mediates the relationship between AMC and PA, it can be hypothesized that the PPL also mediates this relationship and provides nuances that may help to explain which aspects influence PA practice in young people. So far, few instruments have been used to measure students' PPL (e.g., Perceived Physical Literacy Inventory [PPLI], Li et al., 2020; Ma et al., 2020; Sum et al., 2016). Recently, a pictographic scale measuring PPL in adolescents, the Physical Literacy in Children Questionnaire (PL-C Quest), has been developed (Barnett et al., 2020). The PL-C Quest is aligned to the concept and structure of PL and has shown evidence of validity in children and early adolescents (Barnett et al., 2020). Unlike the PPLI scale and thanks to the use of pictograms, which have the ability to maximise students' ability to understand the constructs without highly developed written literacy skills, the PL-C Quest assesses how individuals perceive themselves in regarding their PL (Barnett et al., 2020).

To date, there is no study that examined the mediating role of PMC in the relationship between AMC and PA in the conceptual model of motor development by Stodden et al. (2008), nor the mediating role of PPL in the aforementioned relationship in adolescents. Thus, this study is the first to analyse how this perception influences PA levels, e.g., whether PPL plays a mediating role in the relationship between AMC and PA in early adolescence. Thus, the aim of this study was twofold: to analyse the mediating role of PMC (objective 1) and PPL (objective 2) in the relationship between AMC and PA in Spanish adolescents. In accordance with the proposals of Stodden et al. (2008) and Barnett et al. (2022), it is hypothesised that PMC and PPL mediate the relationship between AMC and PA.

Means, standard deviations and correlations between study variables are presented in Table 1, which also shows the results of Pearson's bivariate correlations and the association of participants’ age with AMC. Gender was also related to PPL, PMC and AMC. In addition, being a girl is associated with lower PPL, PMC and in fact lower levels of AMC than boys.

Model 0, controlled for age and gender, has shown an optimal fit, χ2(2)=.178, CFI=1.00, RMSEA=.00, SRMR=.00 and a direct relationship between AMC and PA (β=.31, p< .001, R2=.11). Figure 1 represents the results of the SEM of model 1 (AMC-PMC-PA), controlled for age and gender, which has shown an acceptable fit, χ2(11)=25.909, CFI=.97, RMSEA=.08, SRMR=.04. AMC is positively related to PMC, which in turn is also positively related to PA. Furthermore, an indirect relationship of AMC through PMC with PA has been found (β=.14, IC 95%: .066 – .233; p= .001).

Figure 1.

Structural equation model of the relationship between actual motor competence, perceived motor competence and physical activity (objective 1). The standardized coefficients (β) are reported in the figure. Gender and age are included as covariates. As only significant relationships are shown, age has been removed from the model as it is not related to the other variables. Black lines indicate direct relationships, while grey lines indicate indirect relationships. The factor loadings are: PAR_PMC1 = .83, PAR_PMC2 = .78, PAR_ PMC3 = .68; PAR_PA1 = .81, PAR_PA2 = .86. *p<.05. **p<.01.

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Regarding the second objective, Figure 2 shows the results of the analysis of model 2 (AMC-PPL-PA), controlled by age and gender, which has shown a good fit to the data χ2(13)=20.034, CFI=.99, RMSEA=.05, SRMR=.03. AMC has been positively related to PPL, which in turn is positively related to PA. Furthermore, an indirect relationship has been found from AMC through PPL to PA (β=.10, IC 95%: .029 – .190; p= .013).

Figure 2.

Structural equation model of the relationship between actual motor competence, perceived physical literacy and physical activity (objective 2). The standardized coefficients (β) are reported in the figure. Gender and age are included as covariates. Black lines indicate direct relationships, while grey lines indicate indirect relationships. The factor loadings are: PAR_PPL1 = .79, PAR_ PPL2 = .86, PAR_ PPL3 = .81, PAR_PA1 = .82, PAR_PA2 = .85. *p<.05. **p<.01.

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The purposes of the present study were twofold: (1) to analyse the mediating role of PMC in the AMC-PA relationship, and (2) to analyse the mediating role of PPL in the AMC-PA relationship. Regarding the first objective, examining the preliminary results of this study, AMC, PMC and PA are positively related to each other, coinciding with several studies that also report this relationship in European youth aged 8-13 years (Coppens et al., 2021; Menescardi, De Meester et al., 2022). Likewise, respect to the second objective, relationships have been found between PPL and PA, which is consistent with recent studies that have addressed this issue in Danish and Chinese students aged 12-21 (Ma et al., 2020; Melby et al., 2023). These findings help to support theoretical approaches that indicate that physically literate individuals show higher levels of PA practice (Nezondet et al., 2023; Öztürk et al., 2023). However, more in-depth analyses of these relationships are needed in order to better understand what factors play a mediating role in them.

Thus, when addressing the first objective of this research, in line with what is theorised in the conceptual model of motor development (Stodden et al., 2008), the results of the primary analyses of the first mediation model AMC-PMC-PA show a direct positive relationship between these variables (such as AMC-PA, AMC-PMC and PMC-PA), as well as an indirect relationship between AMC and PA through PMC, showing a partial mediation of PMC in the AMC-PA relationship. The relationship found between AMC and PA is in line with several cross-sectional studies proposing this association (Coppens et al., 2021; Webster et al., 2019), which indicates that AMC plays an important role in promoting regular PA practice (Lopes & Rodrigues, 2021). Following the conceptual model by Stodden et al. (2008), this relationship occurs through interaction with other mediating variables, such as PMC. Thus, analysing the results of this study, we found a relationship between AMC and PMC, which coincides with previous studies that confirm this positive association in schoolchildren of similar ages to the participants in this study (Carcamo-Oyarzun et al., 2020; De Meester et al., 2020; Jaakkola et al., 2019). These results support the idea that as schoolchildren get older, their PMC is less overestimated than in younger children and more in line with reality (Estevan & Barnett, 2018). Thus, in late childhood or early adolescence, schoolchildren can already make more accurate judgements about their performance, as they have had greater motor experiences that have allowed them not only to put their skills into practice, but also to compare themselves with their peers (Weiss & Amorose, 2005). In this way, the development of PMC during childhood acquires great relevance, since the confidence that schoolchildren have about their motor skills makes them more determined in the performance of PA where they are put to the test, increasing their motor experience baggage (Stodden et al., 2008).

Regarding the association between PMC and PA, the results of this study are in line with the studies analysed in the systematic review by Babic et al. (2014), who highlight that PMC shows a strong relationship with PA. These results suggest that schoolchildren with high PMC are more physically active, which may be due to these schoolchildren are more motivated (Menescardi, De Meester et al., 2022) and have a high expectation of success in motor demands, which stimulates greater effort when participating in games and sports, compared to schoolchildren with low PMC (Babic et al., 2014).

Regarding the indirect relationship between AMC and PA through PMC, in line with studies in schoolchildren of similar age ranges (Burns & Fu, 2018; Fu & Burns, 2018; Gu et al., 2017), the partial mediation that PMC exerts between AMC and PA is confirmed. Thus, the fact that higher AMC is directly associated with PA practice may be attributable to the fact that schoolchildren with higher PMC tend to be more self-confident and persistent in motor challenges (Stodden et al., 2008), which may lead to greater dedication and increased time spent doing PA (Estevan & Barnett, 2018). These findings provide new evidence regarding the recent review by Barnett et al. (2022), which shows that the mediating role of PMC is still undetermined, due to the lack of studies that delve deeper into this topic. However, it should be noted that the relationship between these factors found in this study is weak, which may indicate that there are other reasons related to perception that may influence the AMC-PA relationship.

To further explore the AMC-PA relationship, the second objective of the present study attempts to determine the possible mediating role of PPL in the above relationship. When analysing the second model presented in this study (AMC-PPL-PA, Figure 2), in line with Cairney, Dudley et al. (2019) and Cairney, Clark et al. (2019), a direct relationship between these variables (such as AMC-PPL, AMC-PA, PPL-PA), and an indirect one between AMC and PA through PPL, has been observed. With respect to the first model (Figure 1), the increase of the R2 value in the second model (Figure 2) shows that the inclusion of PPL explains a higher percentage of variance than AMC alone. This may be because PPL captures more aspects (e.g., social, knowledge) than PMC; therefore, PPL is a factor to be taken into account when studying the PA practice levels of students. These results provide emerging evidence of the mediating role that PPL plays between AMC and PA, giving a broader view where those young people who are motor competent, if they are motivated, have self-confidence, feel physically competent, and value the importance of PA, tend to be more active.

The findings of this study have allowed us to determine that PPL plays a mediating role between AMC and PA, and have helped to better understand how other factors influence PL. This confirms the role of gender in these relationships, with boys having higher AMC and PPL values than girls. There is robust evidence that boys have higher levels of AMC (Barnett et al., 2016; Quintriqueo-Torres et al., 2022), while evidence of higher levels of PPL in young people is emerging (e.g., Öztürk et al., 2023). The prevalence of a greater sport offer for boys to the detriment of girls (With-Nielsen & Pfister, 2011), coupled with gender stereotyped activities, where boys participate in ball handling activities and girls practice activities linked to body control (Crane et al., 2015), promote the development of different skills in each gender and different self-perceptions of social creation that condition their practice of PA and PPL.

The present study offers relevant and novel information. These results help to deepen the still undetermined knowledge about the mediating role of PMC in the AMC-PA association, an issue that needs to be addressed thoroughly (Barnett et al., 2022). Furthermore, the inclusion of models that include PPL as a mediator between AMC and PA is recent, so the results provide the first evidence for understanding this interaction and how PPL is involved in promoting habitual PA practice.

Although this is the first study to analyse the mediating role of PPL in the relationship between MC and PA, given the holistic nature of PL, future studies should analyse the mediating role of each of the PPL domains in the AMC-PA relationship in order to understand in more detail how these specific domains contribute to the relationship. Alongside these lines, despite the mentioned strengths, there are some limitations present in this study that are pertinent to mention for future research. One of them refers to the study design, which, being cross-sectional, only provides us with limited information from a specific moment in time, without the possibility of finding causal relationships. In addition, PA levels have been measured with a self-report scale, which could differ from reality. Therefore, it is necessary to carry out longitudinal or experimental studies in which PA is measured with more objective instruments (e.g., accelerometer) to corroborate the findings of the models analysed in this study.

Finally, the results of the present study highlight the importance of both PMC and PPL in mediating the interaction between AMC and PA. It is necessary to take this mediating role into account in interventions aimed at developing MC and promoting the recurrent practice of PA. In this way, favourable conditions can be generated to develop competence, confidence, and motivation at school age, stimulating PL to promote a lifelong commitment to PA.

The funding sources for carrying out this study are two: 1) Spanish Research Agency from the Ministry of Science and Innovation, Spain [PID2020-115075RA-I00 funded by the MCIN/AEI/10.13039/501100011033]. 2) la Conselleria de Educación, Universidades y Ocupación de la Generalitat Valenciana (AICO-2022-185).