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Article

Leadership Styles in Physical Education: A Longitudinal Study on Students’ Perceptions and Preferences

by
Adrian Solera-Alfonso
1,
Juan-José Mijarra-Murillo
1,
Romain Marconnot
1,*,
Miriam Gacría-González
1,
José-Manuel Delfa-de-la-Morena
1,
Pablo Anglada-Monzón
2 and
Roberto Ruiz-Barquín
3
1
Department of Physical Therapy, Occupational Therapy, Physical Medicine and Rehabilitation, Universidad Rey Juan Carlos, Avenida Atenas s/n, 28922 Alcorcon, Spain
2
Department Physical Education, Sport and Human Motricity, Universidad Autonoma de Madrid, 28049 Madrid, Spain
3
Interfaculty Program, Department of Developmental and Educational Psychology, Universidad Autonoma de Madrid, 28049 Madrid, Spain
*
Author to whom correspondence should be addressed.
Children 2025, 12(9), 1139; https://doi.org/10.3390/children12091139
Submission received: 4 July 2025 / Revised: 17 August 2025 / Accepted: 18 August 2025 / Published: 28 August 2025
(This article belongs to the Section Pediatric Orthopedics & Sports Medicine)
Versions Notes

Abstract

Background/Objectives: Leadership in physical education plays a critical role in the holistic development of students, influencing variables such as satisfaction, group cohesion, and performance. Despite the abundance of cross-sectional studies, there is a paucity of longitudinal evidence exploring the temporal stability of these perceptions in adolescent populations, which limits the current understanding of leadership development in educational settings. This longitudinal study investigates how secondary and high school students perceive and prefer different leadership styles in PE and how these relate to gender, academic level, and sport participation, grounded in the multidimensional leadership model. The analysis is further contextualized by recent research emphasizing adaptive, evidence-based pedagogical approaches in physical education, the influence of competitive environments on leadership expectations, and the role of emotional support in training contexts. Methods: Using validated questionnaires (LSS-1 and LSS-2), five dimensions were assessed: Training and Instruction, democratic behavior, autocratic behavior, Social Support, and positive feedback, considering variables such as gender, academic level, and extracurricular sport participation. Data were collected at two time points over a 12-month interval, enabling the identification of temporal patterns in students’ perceptions and preferences. Sampling procedures were clearly defined to enhance transparency and potential replicability, and the choice of a convenience sample from two private schools was justified by accessibility and continuity in longitudinal tracking. Although no a priori power analysis was conducted, the sample size (n = 370) was deemed adequate for the non-parametric analyses employed, with an estimated statistical power ≥ 0.80 for medium effect sizes (Cohen’s d = 0.3–0.5). Results: The results revealed a marked preference for leadership styles emphasizing social support and positive feedback, particularly among students engaged in sports. Statistically significant differences (p < 0.05) were identified based on gender and academic maturity, with female students favoring democratic behavior and students in the fourth year of compulsory secondary education showing a stronger inclination toward styles prioritizing emotional support. Trends toward statistical significance (p < 0.10) were also reported, following precedents in the sport psychology and sport sciences literature, as they provide potentially relevant indications for future research directions. The congruence between perceived and preferred leadership emerged as a key factor in student satisfaction, confirming that adaptive leadership enhances students’ learning experiences and overall well-being. However, this satisfaction was inferred from congruence measures, rather than directly assessed, representing a key methodological limitation. Conclusions: This study underscores the importance of physical education teachers tailoring their leadership styles to the individual and group characteristics of their students. The findings align with methodological approaches used in preference hierarchy analyses in sport contexts and support calls for individualized pedagogical strategies observed in sports medicine and training research. By providing longitudinal evidence on leadership perception stability and integrating recent cross-disciplinary findings, the study makes an original contribution to bridging the gap between educational theory and practice. The results address a gap in the literature concerning the temporal stability of leadership perceptions among adolescents, offering a theoretically grounded basis for future research and the design of pedagogical innovations in PE.

1. Introduction

The concept of leadership has evolved significantly throughout history, adapting to social, cultural, and technological changes. From early approaches linking leadership to power and authority [1] to more recent theories understanding it as an influence based on interaction and communication [2], leadership has been the subject of extensive analysis. In the field of sports and physical education, this evolution has been particularly notable [2,3,4,5], as these disciplines demand a profound understanding of group dynamics and individual motivation. Recent contributions [6] have emphasized the role of evidence-based pedagogical strategies in PE, highlighting that adaptive leadership styles—those that respond to student needs and contextual demands—are critical for optimizing learning outcomes. In addition, research in competitive sport has shown that incongruence between leadership preferences and perceptions can increase the risk of burnout and negatively affect young athletes’ well-being [7], which reinforces the importance of analyzing congruence in educational contexts such as PE. However, despite the theoretical advances, there is still a limited number of longitudinal investigations in the PE context that examine how students’ leadership perceptions and preferences change over time, which constitutes a relevant gap in the literature and represents the primary focus of this work.
Currently, the study of leadership in physical education holds great significance due to its substantial impact on students’ holistic development and the improvement of educational quality [8]. The importance of effective leadership in this context is well documented in the literature, highlighting the need for educators to develop specific skills to guide both classroom and physical activities [9]. Empirical evidence from competitive sports contexts [10] shows that leadership expectations vary according to the competitive environment, which parallels the differences in preferences observed among students with varying levels of extracurricular sport involvement in this study. This view is consistent with findings from doctoral research analyzing burnout and leadership in young athletes and coaches, where educational and formative implications of leadership styles have been highlighted [11]. This parallel suggests that contextual factors—such as the degree of competitiveness—may act as moderating variables in the relationship between leadership style and student outcomes, a perspective rarely explored in school-based PE research.
This research aims to explore leadership scales from the perspective of students’ perceptions and preferences through a longitudinal study based on data obtained within the framework of a doctoral investigation. The longitudinal design, with two measurement points over a 12-month period, enables an analysis of temporal stability that is seldom addressed in the PE leadership literature and responds directly to the need for studies that go beyond cross-sectional approaches. In line with this objective, the study proposes the following hypotheses: (1) students will demonstrate a significant preference for leadership styles characterized by high levels of social support and positive feedback; (2) differences in leadership perceptions and preferences will emerge according to gender, with female students favoring more democratic styles; (3) academic level will influence preferences, with older students showing a greater inclination towards emotionally supportive leadership; and (4) participation in extracurricular sports will be associated with higher congruence between perceived and preferred leadership styles. The inclusion of the LSS-2 scale is justified by its specificity in measuring students’ preferred leadership behaviors, providing complementary insights to those obtained through the LSS-1 scale, which assesses perceived behaviors. Both scales have been previously validated and are widely used in leadership behavior research [12,13]. Moreover, reporting both perceived and preferred behaviors allows for identifying gaps between expectation and experience, an analytical approach that can inform targeted interventions in PE settings. The methodological framework of this study also draws from preference hierarchy approaches used in performance analysis [14], which enable nuanced interpretations of leadership priorities across demographic subgroups. This dual application allows for a comprehensive comparison between students’ expectations and their actual experiences, a key aspect in understanding leadership effectiveness in educational contexts. This study extends previous research by providing longitudinal evidence of congruence between perceived and preferred leadership styles, an area underrepresented in the current physical education literature. By identifying patterns linked to contextual variables such as gender, academic level, and sport participation, it contributes to a dynamic understanding of the leadership–performance relationship. The emphasis on social support and positive feedback is consistent with findings in adolescent training contexts, where emotional reinforcement has been shown to enhance engagement and progress [15]. In addition, parallels can be drawn with individualized strategies in sports medicine and athlete care [16,17,18], underscoring the value of tailoring leadership approaches to meet diverse participant needs. The findings underscore the necessity for PE teachers to adapt their leadership behaviors to individual student characteristics and offer valuable implications for the design of teacher training programs and instructional strategies. Such adaptations align with recent critiques on the preparation and evaluation of PE teachers [6], reinforcing the practical relevance of this research.

1.1. Leadership in History and Its Evolution

The conceptualization of leadership has undergone multiple transformations over time. In antiquity, leadership was primarily associated with military and political power, where leaders made decisions authoritatively and imposed their will on others [19]. This traditional view of leadership as an exercise of power dominated for centuries. However, starting in the 19th century, with the emergence of social and psychological theories, the focus shifted toward understanding how and why certain individuals were more effective in influencing others [3]. As organizations and societies grew more complex, it became evident that leadership was a far more dynamic and interrelated process [4]. Barrow [1] reinforced this shift by defining leadership as a behavioral process of influence that guides groups toward common and specific goals. This perspective aligns with the multidimensional leadership model proposed by Chelladurai & Saleh [20], which defines leadership in physical education and sports contexts as a balance among the leader’s characteristics, group members, the situational context, and the holistic development of individuals.
Recent analyses in sport sciences [6] stress that leadership in educational contexts should not be seen as static or unidirectional but as adaptive and evidence-driven, integrating pedagogical adjustments based on situational feedback. Such perspectives resonate with findings from competitive sport research [10], which reveal that leadership expectations shift according to the competitive intensity and social environment. These insights are especially relevant for the present study, as they justify the inclusion of extracurricular sport participation as a contextual variable likely to influence leadership perceptions and preferences among students.
Recent perspectives conceptualize leadership in sport and PE as a dynamic, context-sensitive process that integrates social and emotional competencies [21,22]. Specifically, Fransen and colleagues [21]. highlight the distinction between task-oriented and motivational leadership roles within teams, showing how these dimensions foster social cohesion and collective efficacy. In PE settings, Beauchamp and Morton [23]. have adapted transformational leadership theory—originally proposed by Bass [24] to educational contexts, demonstrating its relevance for promoting student motivation and engagement. Furthermore, the importance of individualized approaches in leadership mirrors findings in broader physical activity contexts, such as personalized rehabilitation programs for knee osteoarthritis [18] and participant-tailored interventions in sports medicine [16,17], which underscore the value of aligning strategies with individual needs for sustained engagement. This parallel with clinical and training interventions strengthens the argument for adaptive leadership in PE, suggesting that tailoring leadership behaviors to individual characteristics may yield greater adherence, motivation, and learning outcomes.
A systematic review encompassing 2018–2022 found that transformational and autonomy-supportive leadership remain central to contemporary PE programs, with strong implications for student satisfaction and learning outcomes. This is consistent with evidence from adolescent strength training programs [15], where emotional support and constructive feedback significantly enhance adherence and perceived progress. By integrating these diverse strands of evidence, the present research positions itself at the intersection of leadership theory, sport pedagogy, and applied practice, addressing a clear gap in longitudinal analyses of leadership perception stability in adolescent PE contexts.

1.2. Leadership in Physical Education: From Sports to Pedagogical Contexts

Sport and physical education (PE) constitute ideal environments for the study of leadership, given their inherent emphasis on interpersonal dynamics, motivation, and performance. In both domains, instructors assume roles that go beyond technical instruction; they shape students’ cognitive, social, and emotional development. This study is based on Chelladurai’s Multidimensional Leadership Model [12,25], which proposes that leadership in these contexts is not only task-oriented but also relational, involving affective support, feedback, and decision-making. By integrating both the task and relational dimensions, this model allows for a more holistic assessment of leadership effectiveness in PE, which is especially relevant when aiming to understand adolescent development over time.
Chelladurai’s Multidimensional Leadership Model is one of the most influential theoretical frameworks in this area. It posits that effective leadership arises from the congruence between three behavior dimensions: required (determined by the environment), preferred (expected by group members), and actual (demonstrated by the leader). Within this model, interaction styles—training and instruction, social support, and positive feedback—and decision-making styles—Democratic and Autocratic—are used to assess leadership effectiveness. Numerous studies have confirmed that when actual behaviors align with student preferences and situational demands, positive outcomes such as increased satisfaction, cohesion, and motivation are observed. Recent methodological applications in sport performance research, such as the Analytic Hierarchy Process [14], provide a useful parallel for understanding how different demographic groups prioritize leadership dimensions, offering a structured approach to interpreting the differential preferences observed in this study across gender and academic levels. This methodological analogy supports the decision to include multiple demographic variables in the analysis, allowing for a richer and more nuanced interpretation of leadership patterns in PE settings.
In PE specifically, students tend to value leadership styles characterized by high levels of emotional support and constructive feedback. These preferences often vary by demographic factors: for instance, female students show a greater inclination toward democratic leadership, while older students appear more receptive to directive styles. Furthermore, participation in structured sports—whether recreational, federated, or competitive—has been shown to influence students’ expectations regarding leadership behavior, reinforcing the need for differentiated pedagogical approaches [23,24,26]. Federated athletes were defined as those registered with an official regional or national sports federation and regularly participating in official competitions. High-performance athletes were enrolled in specialized training programs recognized by sports authorities, with intensified training demands and a focus on elite-level competition. Evidence from competitive sport environments [10] corroborates these distinctions, showing that higher competition levels are associated with stronger preferences for structured and supportive leadership. These distinctions also justify the separation of participants by sports involvement in the present study, as they are likely to reflect different motivational climates and leadership expectations.
Despite the growing body of research in this field, most existing studies employ cross-sectional designs, limiting our understanding of how leadership perceptions and preferences evolve over time. This study addresses this gap by employing a longitudinal approach in the underexplored context of Spanish secondary education. It examines how student perceptions of leadership change across one academic year and how variables such as gender, academic level, and sport participation interact with these dynamics. In doing so, it provides empirical evidence on temporal stability and change in leadership-related perceptions, an aspect scarcely documented in the literature. Such a longitudinal tracking of preference–perception congruence is aligned with calls from recent educational sport science research [6] to monitor leadership effectiveness over extended periods, ensuring that pedagogical strategies remain aligned with student needs. This design also responds to the broader academic demand for methodological approaches capable of detecting subtle but meaningful trends, including those approaching statistical significance, which may inform targeted interventions in future educational practice.

1.3. Relevance and Scope of the Study

The relevance of studying leadership within the context of physical education lies in its impact on the development of motor, cognitive, and social skills of students [4,5]. Since physical education is characterized by working on both individual and group performance, the teacher’s leadership plays a key role in the teaching–learning process [4,5]. Moreover, it is essential to consider that individual characteristics of students, such as gender, age, and motor competence level, may influence their leadership preferences and perceptions, highlighting the importance of adapting leadership styles to the needs of each group [27,28]. Recent findings in adolescent training interventions [15] further demonstrate that tailoring pedagogical strategies to individual needs, particularly through emotional reinforcement—enhances engagement and perceived progress, reinforcing the necessity of adaptive leadership in PE. This study expands on these findings by analyzing such dynamics longitudinally, thereby providing evidence not only of the presence of these associations but also of their temporal stability or evolution.
This study is also justified by the need to better understand how the relationship between leaders and followers evolves over time, particularly in a dynamic environment like physical education. Through a longitudinal analysis, it is possible to identify stable patterns of behavior, as well as changes in students’ perceptions and preferences regarding their teachers’ leadership. Such an approach addresses the current shortage of longitudinal data in PE leadership research, a gap that limits the development of evidence-based teacher training programs. Such an approach responds to methodological recommendations in contemporary sport sciences [6], which advocate for the sustained monitoring of teaching effectiveness to ensure alignment with evolving learner needs. Moreover, the competitive context has been shown to influence leadership expectations [10], suggesting that sport participation may be a decisive factor in shaping leadership preferences and perceptions. By integrating this contextual factor into the analysis, the present research acknowledges the multifactorial nature of leadership effectiveness and moves beyond single-variable approaches common in earlier studies. These findings may have practical implications for improving teacher training and, ultimately, optimizing educational outcomes in the field of physical education.
In addition, parallels can be drawn with individualized strategies in sports medicine and rehabilitation, where matching intervention approaches to participant profiles—such as in ACL injury recovery [18], efficacy-focused treatment evaluations [16], and adherence-improving modalities like whole-body cryotherapy [17]—has been shown to increase long-term engagement and satisfaction. These analogies underscore that the same principle applies in PE leadership: alignment between instructional style and student preference is key for sustained motivation and performance. This cross-disciplinary perspective strengthens the argument that PE leadership research can benefit from methodological and conceptual advances developed in other areas of sport and health sciences.
Recent research in sport sciences has underscored the need for adaptive and context-sensitive leadership in physical education. Studies have examined how leadership expectations vary across competitive contexts [10], the impact of emotional reinforcement on adolescent engagement [15], and the methodological advantages of hierarchical preference analysis [14]. Furthermore, broader sport science research on individualized approaches to performance and rehabilitation [16,17,18] supports the importance of aligning instructional strategies with participant needs. By synthesizing these strands of evidence and applying them within a longitudinal design in the Spanish secondary education context, this study provides an original and contextually grounded contribution to the literature on leadership in PE.
In contrast to prior research on leadership in physical education, which has predominantly relied on cross-sectional or short-term designs, the present study provides longitudinal evidence on the stability and evolution of leadership perceptions and preferences over an entire academic year in secondary education. While longitudinal approaches have been applied in other domains of sport sciences, their application to the school PE context—particularly within the Spanish educational system—remains scarce. This focus not only addresses a clear gap in the literature but also offers a differentiated contribution by integrating competitive sport experience, gender, and academic level as interacting contextual variables.

1.4. Objectives of the Study

The main objective of this longitudinal study is to analyze leadership within the field of physical education, specifically from the perspectives of students’ preferences and perceptions of their teachers’ leadership styles. The central research question guiding this study is as follows: “How do students’ perceptions and preferences regarding their physical education teachers’ leadership styles vary over time and according to contextual variables such as gender, academic level, and sports participation?”.
This objective addresses a critical gap identified in the PE leadership literature, in which most studies rely on cross-sectional designs and do not assess temporal stability or evolution of leadership perceptions [6]. By focusing on the longitudinal dimension, the study is able to capture both stable tendencies and potential shifts in leadership-related attitudes, offering a more nuanced understanding than cross-sectional approaches. By integrating recent evidence on the influence of competitive environments [10], preference hierarchies across demographics [14], and the role of emotional reinforcement in adolescent training contexts [15], the present work is designed to provide both theoretical and applied insights for educators and policy-makers. Furthermore, the study aims to generate actionable recommendations for teacher training programs, grounded in empirical evidence, to enhance the alignment between instructional strategies and student needs in diverse educational settings.

1.5. Research Hypotheses

Based on previous research grounded in Chelladurai’s Multidimensional Leadership Model and the principles of Self-Determination Theory, the following hypotheses were formulated:
H1. 
Students will show a greater preference for social support and positive feedback leadership styles, particularly among those involved in extracurricular sports. This expectation is supported by empirical findings indicating that emotional reinforcement and constructive feedback contribute to higher engagement and perceived progress in adolescent PE contexts [15].
H2. 
Female students will express a stronger preference for democratic behavior and social support compared to male students. This prediction aligns with prior literature highlighting gender-related differences in leadership expectations, in which female participants tend to value participative decision-making and relational support more highly [23].
H3. 
The congruence between perceived and preferred leadership styles will be associated with higher levels of student satisfaction. Although satisfaction was not directly measured in this study, this hypothesis is theoretically supported by prior work on individualized pedagogical strategies in both PE and broader sports science interventions [6,16,17]. The underlying assumption is that the alignment between student expectations and teacher behaviors fosters a motivational climate conducive to learning and sustained participation.
H4. 
Leadership preferences and perceptions will remain stable across the two time points measured, indicating consistency over the academic year. This stability hypothesis is methodologically comparable to the preference hierarchy consistency observed in sport performance analysis [14]. Identifying whether such stability exists in the PE context addresses a current gap in longitudinal leadership research and provides valuable insight for designing interventions that either maintain effective practices or adjust ineffective ones.

2. Materials and Methods

2.1. Study Design

This study adopted a longitudinal design, which allowed for the analysis of leadership perceptions and preferences at different points in time. The design is descriptive and correlational [29,30], focused on examining the relationship between students’ psychological variables, leadership perceptions and preferences, and academic performance. Specifically, a panel study design was used, whereby the same cohort of students was assessed at two different time points, separated by an interval of 12 months. This methodological approach enabled the examination of intra-individual changes and the evaluation of stability or variability in leadership perceptions and preferences over time.
The decision to employ a longitudinal, rather than cross-sectional, design responds directly to the scarcity of temporal analyses in PE leadership research, allowing the detection of both stable patterns and meaningful changes in student attitudes. This design also facilitates the examination of potential moderating effects of contextual variables such as gender, academic level, and sport participation.
Although no a priori power analysis was conducted, the sample size (n = 370) was estimated to provide ≥0.80 statistical power to detect medium effect sizes (Cohen’s d = 0.3–0.5) in non-parametric tests such as the Mann–Whitney U and Kruskal–Wallis. The choice of non-parametric methods was based on the non-normal distribution of the leadership scale scores, verified through Shapiro–Wilk tests. While the statistical approach is primarily descriptive-comparative, the longitudinal nature of the design enhances interpretive depth by enabling within-subject comparisons over time.
A methodological limitation of this design is the use of only two measurement points, which, while sufficient to capture short-term stability, may overlook more nuanced temporal trajectories. Future research could address this by incorporating additional time points and mixed-methods approaches to better understand the mechanisms underlying observed changes.

2.2. Participants

Participants were drawn from two private schools located in urban areas of central Spain. Both institutions serve predominantly middle- to upper-middle-class families, providing a relatively homogeneous socioeconomic profile. This socioeconomic homogeneity should be considered when interpreting results, as it may limit the generalizability of the findings to public-school contexts or populations with more diverse backgrounds. In both schools, students attended two physical education classes per week, each lasting approximately 55 min, in accordance with the regional curriculum. Participation was voluntary and required written informed consent from both students and their legal guardians.
The participants in this study were selected based on specific inclusion criteria to ensure sample homogeneity and the relevance of the obtained data. The inclusion criteria were as follows: (1) students from compulsory secondary education and/or the first year of upper secondary education, (2) students who regularly attended physical education classes (i.e., attended at least 80% of scheduled sessions during the academic term), (3) students who volunteered to participate, and (4) students who signed the informed consent form. The exclusion criteria included any medical condition or injury preventing full participation in PE activities during the measurement periods, as well as incomplete questionnaire responses that would compromise data validity.
No a priori power analysis was conducted. However, with n = 370 at the baseline, the sample size was adequate to detect medium effect sizes (Cohen’s d ≈ 0.3–0.5) with a power ≥ 0.80 in Mann–Whitney U and Kruskal–Wallis tests (α = 0.05). Attrition reduced the available sample to n = 208–221 for some longitudinal analyses, which may have reduced the statistical power for subgroup comparisons. Participant attrition was primarily due to school transfers, prolonged illness, or absence during the second measurement, and its potential impact on the stability of longitudinal estimates should be acknowledged.

2.3. Instruments

Two validated questionnaires from the Leadership Scale for Sport [20], adapted into Spanish by [31], were used to collect data and measure students’ leadership preferences (LSS1) and leadership perceptions (LSS2) regarding their physical education teachers (Appendices 1 and 2). Each questionnaire consists of 40 questions representing five different items: (1) training and instruction, (2) democratic behavior, (3) autocratic behavior, (4) social support, and (5) positive feedback. All psychometric scale scores (LSS-1, LSS-2) are reported in arbitrary units (a.u.), consistent with their standard scoring procedure. A questionnaire on sports and sociodemographic data [31] was also used to complete the study variables. This additional instrument gathered information on gender, academic level, the type and frequency of extracurricular sport participation, and competitive involvement (recreational, federated, or high-performance), allowing for subgroup analyses.
The internal consistency (Cronbach’s alpha) coefficients for this sample were as follows: training and instruction (α = 0.82), democratic behavior (α = 0.78), autocratic behavior (α = 0.71), social support (α = 0.84), and positive feedback (α = 0.79), indicating acceptable-to-good reliability across all dimensions. These values are consistent with previous studies using the LSS in PE and sports contexts [12,13], supporting the robustness of the measurement tools in the present sample.

2.4. Procedure

Firstly, contact was made with the participating educational centers at the beginning of the academic year, through which the research objectives were explained to the school management teams and the physical education teachers involved. During these meetings, the protocol for administering the questionnaires was presented, clarifying any questions regarding their application and ensuring ethical commitment to the data collection process.
All participating teachers received written instructions outlining the standardized administration procedure, including the order of questionnaires, the exact wording to be used when providing instructions to students, and the time allowed for completion. This was done to minimize interviewer effects and ensure procedural consistency across the two schools. Data collection was carried out during regular PE class time in a quiet environment, with the researcher present to address procedural queries but without influencing responses.
The two measurement points were scheduled 12 months apart, with the first assessment taking place during the first academic term and the second during the same term of the following year, to control for seasonal variations in the school calendar. In one of the schools, minor deviations in timing occurred due to scheduling constraints; this was recorded and considered in the interpretation of results.
Incomplete questionnaires were handled according to a conservative missing-data protocol: if a participant left fewer than 10% of items unanswered within a subscale, the missing responses were replaced using mean substitution for that subscale; otherwise, the participant’s data for that subscale were excluded from analysis. While this approach preserves sample size, it is recognized as suboptimal compared to more advanced imputation techniques such as multiple imputation or maximum likelihood estimation, which are recommended for future research.

2.5. Informed Consent

Before starting data collection, informed consent was obtained from the parents or legal guardians of the underage students, as well as from the students and teachers themselves. The study adhered to the ethical principles outlined in Section IV (arts. 33–38) of the Code of Ethics of Psychology of the Official College of Psychologists of Spain (2015), which includes the necessary authorization for participation and the explicit approval from families. Consent forms provided a detailed description of the study’s objectives, procedures, potential risks, and expected benefits, as well as assurances regarding the voluntary nature of participation and the right to withdraw at any time without penalty. Additionally, the research complied with the Organic Law 3/2018 on the Protection of Personal Data, ensuring confidentiality and the exclusive use of the information for research purposes, as well as the ethical and deontological principles of the Declaration of Helsinki (2000). All consent forms were stored securely in locked cabinets, and digital data were anonymized using participant codes before analysis to prevent identification. Ethical approval for the study protocol was obtained from the relevant institutional ethics committee prior to the commencement of data collection.

2.6. Administration of Questionnaires

The questionnaires were administered at two points during the academic year. The first point (Time 1) was in October 2018, when the evaluation instruments were applied in physical education classes. Prior to data collection, all teachers responsible for administering the questionnaires participated in a structured training session led by the research team, which included detailed written guidelines, a standardized verbal script, and practice scenarios to ensure uniformity in delivery and reduce interviewer bias. Teachers responsible for administering the questionnaires were trained, as the success of the research depended on the active collaboration of the educators, and teachers were instructed to refrain from influencing student answers in any way.
The second point (Time 2) of data collection varied by educational center. Some schools conducted the second round of questionnaires in April 2019, while others did so in October 2019. This Time 2 allowed for the assessment of changes or stability in students’ leadership perceptions and preferences over time. The variation in timing was due to differences in each school’s internal calendar; these deviations were documented and later considered in the interpretation of results as a potential source of variability. During both phases, a suitable environment was ensured for student participation, guaranteeing the comprehension of the questions and encouraging honest responses. Students completed the questionnaires in quiet classroom conditions during regular PE lesson time, with the researcher present to address clarifying questions about instructions but without providing feedback on item content.
Although slight differences in the implementation timeline between the participating schools may introduce variability, standardized administration procedures and identical instruments were employed to minimize inconsistencies and ensure methodological reliability. This procedural consistency was intended to reduce measurement error and enhance comparability across the two time points.

2.7. Data Analysis

To carry out the analysis of the data obtained in this study, SPSS software version 22.0 was used. The analyses applied were carefully selected to address the research objectives, exploring both differences between leadership perceptions and preferences, as well as relationships between key variables. The techniques employed are outlined below:
  • Descriptive analysis: Frequency analyses, measures of central tendency (means), and measures of dispersion (standard deviation) were applied to describe the general profiles of participants in terms of perceived and preferred leadership. These analyses provided an overall view of the responses, highlighting the most common trends in perceptions and preferences. Where relevant, 95% confidence intervals were calculated to provide a range estimate for the observed means.
  • Normality tests: To determine whether the data followed a normal distribution, the Kolmogorov–Smirnov and Shapiro–Wilk tests were applied. Since many variables did not show a normal distribution, non-parametric statistical tests were chosen for subsequent analyses.
  • Mean differences analysis: several non-parametric tests were used to compare mean differences:
    • Mann–Whitney U test: Used to compare two independent samples, such as gender differences.
    • Wilcoxon signed-rank test: Used to compare responses at two different times (pre- and post-test) within the same group of students.
    • Kruskal–Wallis Test: Used to compare multiple independent samples, such as levels of perceived and preferred leadership across different academic levels. For Kruskal–Wallis tests, eta-squared (η2) effect sizes were reported to indicate the magnitude of the differences.
  • Instrument reliability: the Cronbach’s alpha coefficient was applied to assess the internal consistency of the questionnaires used.
  • Correlational analysis: Spearman’s correlation coefficients were used to explore the relationships between psychological variables, such as self-efficacy and values, with students’ perceptions and preferences of leadership. These analyses helped identify potential associations between students’ individual characteristics and their preferences for certain leadership styles. Effect sizes for correlations (Spearman’s rho) were interpreted according to conventional thresholds (with 0.10 being small, 0.30 being medium, and 0.50 being large).
Regarding statistical significance, both conventional thresholds (p < 0.05) and trends toward significance (p < 0.10) were reported. The inclusion of p < 0.10 values are justified by three main reasons: (1) they provide valuable preliminary evidence for variables that may warrant further investigation; (2) they indicate potentially important patterns in mean difference and correlation analyses; and (3) this practice has been used in prior relevant studies in sport psychology and sport sciences, including research applying Chelladurai’s Multidimensional Leadership Model [7,11].
Given the descriptive focus of this study, no inferential models (e.g., regression, mediation, or moderation analyses) were conducted. This decision reflects the objective of identifying preliminary trends, rather than establishing predictive or causal relationships. However, future research should incorporate multivariate modeling to explore potential mediating or moderating effects between leadership perceptions, preferences, and contextual variables.

2.8. Handling of Missing and Outlier Data

Before proceeding with the statistical analyses, a data-cleaning process was conducted to identify potential outliers and errors in the transcription of responses. Additionally, cases where students omitted certain items in the questionnaires were addressed. Despite the presence of some missing data, it was decided not to exclude participants with incomplete responses to maximize the final sample size. Participants with more than 10% missing data on the LSS items were excluded from analysis (n = 7). For the remaining cases with isolated missing responses (less than 5% of items per participant), missing values within each LSS subscale were replaced by the participant’s mean score for that subscale. This conservative approach was adopted due to the low percentage of missing data (<5%) and to preserve statistical power, particularly important in longitudinal designs where attrition can already reduce sample size.
Although this imputation strategy allowed for the retention of more cases than listwise deletion, it is recognized as suboptimal compared to modern missing-data techniques such as multiple imputation or maximum likelihood estimation, which are recommended for future studies to reduce potential bias and better estimate variability.
Potential univariate outliers were identified using standardized z-scores (>|3.29|) and multivariate outliers with the Mahalanobis distance (p < 0.001). Outlier values were examined individually to determine whether they reflected data entry errors or genuine extreme responses; only confirmed errors were corrected, while valid extreme cases were retained in the dataset.
This conservative approach was chosen due to the low percentage of data (<5%) missing values within each LSS subscale were replaced with the participant’s mean score for that subscale. This conservative approach was chosen due to the low percentage of missing data (<5%) and to preserve statistical power. However, more robust methods such as multiple imputation or maximum likelihood estimation are recommended for future studies. Although this conservative imputation was chosen to preserve statistical power, given the sample size, more robust techniques such as multiple imputation or maximum likelihood estimation are recommended for future studies.
This strategy was chosen over listwise deletion to preserve statistical power and representativeness, given the relatively small sample and the longitudinal nature of the design.
The analysis of the data collected at both points (pre- and post-test) provided a comprehensive view of perceived and preferred leadership in physical education, offering a solid foundation for the interpretation and discussion of the results.

3. Results

A total of 370 students from compulsory secondary education and first year of upper secondary education stages were included in the study, from two private schools in the Madrid and Castilla-La-Mancha regions (Table 1).
The participants had a mean age (Mage) of 14.48 years (standard deviation [SD] = 3.02), and they were enrolled in secondary education or the first year of the Spanish Baccalaureate. Of these, 48.6% were male (n = 180), and 51.4% were female (n = 190).
Before descriptive analyses, mean difference tests, and correlational analyses were conducted, the Kolmogorov–Smirnov test was applied to the various psychological and values scales administered at Time 1. The results indicated significant deviations from normality across most variables (p < 0.05), thus justifying the use of non-parametric procedures for subsequent analyses.
Table 2, Table 3, Table 4, Table 5, Table 6, Table 7 and Table 8 present the results derived from the first questionnaire (LSS-1), which assessed students’ preferred leadership behaviors (in a.u.). These analyses include descriptive statistics, reliability indices, and comparisons based on sex, age, sport modality, and level of sport participation.
The results indicate that the variables analyzed in the students do not follow a normal distribution (p < 0.05). Regarding students’ leadership preferences concerning their physical education teacher, as assessed with the LSS-1 questionnaire, the following scores were obtained: training and instruction (KS = 0.093, p < 0.001), democratic behavior (KS = 0.072, p < 0.01), autocratic behavior (KS = 0.100, p < 0.001), social support (KS = 0.069, p < 0.05), and positive feedback (KS = 0.091, p < 0.001).
On the other hand, in the LSS-2 questionnaire, which measures students’ perceptions of their teacher’s leadership behaviors (in a.u.), the following scores were found: training and instruction (KS = 0.103, p < 0.001), democratic behavior (KS = 0.068, p < 0.05), autocratic behavior (KS = 0.078, p < 0.01), social support (KS = 0.072, p < 0.05), and positive feedback (KS = 0.109, p < 0.001).
The results of the longitudinal study reveal important trends in the perception and preferences of leadership among physical education students, showing congruences in several styles, especially in social support and positive feedback.

3.1. Leadership Perceptions and Preferences

It was observed that, in general, students showed a clear preference (LSS-1) for leadership styles that emphasize social support and positive feedback at Time 1 (Table 2).
It was also observed that students perceived (LSS-2) their teachers as having leadership styles focused on social support and positive feedback at Time 1 (Table 3).
When the mean differences in preferences (LSS-1) and perceptions (LSS-2) of students based on Times 1 and 2 (Table 4 and Table 5) were analyzed using the Wilcoxon signed-rank test, no statistically significant results were observed.

3.2. Gender Differences

The results showed statistically significant differences based on students’ gender at Time 1. Although both sexes showed a greater preference for leadership styles such as training and instruction and social support, the most notable differences between boys and girls were found in the democratic behavior style, for which girls expressed a higher preference than boys (Table 6).
Regarding leadership perception at Time 2, it was observed that girls perceive a greater presence of democratic behavior, positive feedback, and training and instruction compared to boys. Although some comparisons yielded p-values between 0.05 and 0.10, these were interpreted as statistical tendencies, rather than robust effects. The statistical differences in these styles are more significant at Time 2 (LSS-2) than at Time 1 (LSS-1), highlighting a change in leadership perception over time (Table 7).

3.3. Differences by Academic Year

When focusing on the differences by academic year, a significant variation in leadership perception was observed based on the year of study. Two groupings can be identified: on the one hand, for first, second, and third-year students of secondary education, the mean scores showed a continuous decline, and on the other hand, fourth-year secondary education and first-year secondary education students’ mean scores increased.
It was also observed that students in higher years (fourth-year and first-year high school) showed a greater inclination towards leadership styles focused on social support, positive feedback, and autocratic behavior compared to students in lower years. However, higher-year students preferred leadership styles more oriented toward training and instruction, as well as social support. With a focus on statistically significant differences, it was found that there were greater statistical differences between years in the styles of training and instruction, social support, and autocratic behavior (Table 8).
With a focus on leadership perception, it can be observed that the highest mean scores were obtained in the second year, rather than in the first year. Additionally, two course groupings still exist: first-, second-, and third-year students, with decreasing mean scores, and fourth-year and first-year high school students, for whom the mean scores increased with three styles, except in autocratic behavior and social support, for which the mean scores decreased (Table 9). Statistically significant differences were more pronounced in LSS-2 than in LSS-1.
When the variables of academic year and gender were compared, no significant differences were observed in the total sample for both LSS-1 (Table 10 and Table 11) and LSS-2 (Table 12 and Table 13).

3.4. Differences by Participation in Physical Activity and Sports, and Level of Practice

The analysis of data based on the LSS-1 questionnaire revealed interesting differences between students who engage in extracurricular sports and those who do not. In general, students who participate in extracurricular sports scored higher on all leadership factors, except for the training and instruction factor, where non-practicing students achieved slightly higher scores. The most significant difference was observed in the social support factor (p < 0.05), indicating that athletes value leadership that emphasizes emotional and social support. While the factors of democratic behavior, autocratic behavior, and positive feedback also showed higher scores in athletes, these differences were not statistically significant. Regarding the level of sport participation (recreational, school-based, federated, and elite performance), the results from the LSS-1 questionnaire indicated that students with higher levels of athletic performance tended to score higher on most leadership factors. Elite athletes particularly stood out in the training and instruction and positive feedback factors (p < 0.05). The only factor for which no significant differences were found between levels of participation was autocratic behavior (Table 14 and Table 15).
The analysis using the LSS-2 questionnaire showed trends similar to those observed with LSS-1, although with some variations. Students who engage in extracurricular sports scored higher on almost all leadership factors compared to non-practitioners, but none of these differences reached statistical significance. Regarding the level of sport participation, the results indicated that higher levels of performance were associated with higher scores in factors such as training and instruction, democratic behavior (p < 0.05), and positive feedback (p < 0.05). Although high-performance students excelled again in these factors, no significant differences were found in the factors of autocratic behavior or social support across different levels of participation (Table 16 and Table 17).

3.5. Consistency Between Perceived and Preferred Leadership (Table 18, Table 19, Table 20, Table 21 and Table 22)

The study results reflect significant variations in leadership perception over time (Time 1 and Time 2), highlighting differences between perception and preference evaluations (LSS-1 and LSS-2). In the analysis of the LSS-2 minus LSS-1 differential descriptives (Table 18), relevant changes in leadership perception were identified. Specifically, notable differences were observed based on gender, with boys showing a greater differential compared to girls in the styles of autocratic behavior, social support, and positive feedback, suggesting a gender effect on the evaluation and perception of leadership styles.
Regarding specific leadership factors, the congruencies between perceived leadership styles showed variable results. In the training and instruction factor, 70.1% of participants reported high congruence, while in the democratic behavior factor, this percentage increased to 71.1%, 77.9% in autocratic behavior, 75.5% in social support, and 73.5% in positive feedback
A particularly relevant finding concerns the congruence between perceived and preferred leadership styles. Only 36.3% of participants exhibited full congruence across all five dimensions in both time points (Table 19, Table 20, Table 21 and Table 22). This result highlights the diversity in the perception of leadership styles among participants, emphasizing the need to consider individual and sociodemographic differences, such as gender, in future research on leadership and its impact in pedagogical settings.

4. Discussion

4.1. Importance of Adaptive Leadership in Physical Education

The results obtained confirm the importance of adaptive leadership in the field of physical education. The congruence between perceived and preferred leadership emerges as a crucial factor in increasing student satisfaction. This observation aligns with the postulates of Chelladurai´s [32] Multidimensional Leadership Model, which states that the alignment between the required, perceived, and preferred leadership behaviors enhances group satisfaction.
These findings resonate with recent empirical evidence indicating that autonomy-supportive and transformational leadership behaviors in PE are strongly associated with enhanced student motivation, engagement, competence, and satisfaction. Notably, Behzadnia et al. [33] report that perceived autonomy support correlates positively with student wellness and future physical activity intentions, whereas controlling behaviors link to need frustration and adverse outcomes. Moreover, Fransen et al. [21] underscore that distributed leadership structures—encompassing both task leaders and motivational/social leaders within teams—can significantly reinforce group cohesion and collective efficacy. These recent insights extend our interpretation of the observed preferences for social support and positive feedback, suggesting that leadership in PE should evolve toward more relational, empowering, and shared models, rather than relying solely on traditional autocratic or instructional methods. In this regard, Raiola et al. [6] emphasize that evidence-based and adaptive pedagogical strategies—tailored to the evolving needs of students—are essential for optimizing both immediate learning outcomes and long-term engagement. Similarly, Esposito [10] demonstrates that the competitive context significantly shapes leadership expectations, with more competitive environments fostering stronger preferences for structured yet supportive styles. Ceruso et al. [15] provide complementary evidence from adolescent training programs, showing that emotional reinforcement and personalized feedback not only improve performance but also increase perceived progress and adherence. In line with this, research in competitive sport has shown that the incongruence between preferred and perceived leadership is associated with a higher burnout risk in youth athletes [7], which also reinforces the relevance of achieving congruence in PE contexts to safeguard student well-being.
Collectively, these studies reinforce the present work’s emphasis on adaptive leadership as a driver of long-term student engagement, highlighting that such adaptability should integrate evidence-based pedagogy, sensitivity to competitive contexts, and the deliberate use of emotional reinforcement.

4.2. Implications of Gender and Academic Maturity

The preference of female students for democratic leadership styles can be understood through the lens of gender socialization theories and relational leadership models. Research indicates that females often value collaboration, inclusion, and affective support in interpersonal contexts [34,35]. In educational settings, these tendencies translate into a preference for participative and supportive teacher behaviors, which foster a sense of belonging and competence [36]. Esposito [10] observed that female athletes in competitive environments tend to prioritize participatory and supportive leadership approaches. This parallel suggests that gender-sensitive pedagogical adaptations in PE should integrate both collaborative decision-making opportunities and structured emotional support to meet the expectations of female students.
Regarding academic maturity, older students’ greater acceptance of autocratic leadership may reflect their increased orientation toward efficiency and task completion under academic pressure, consistent with developmental theories that suggest a shift from relational to instrumental priorities in late adolescence [36]. However, this interpretation should be viewed cautiously, as the study did not directly measure underlying motives. The patterns observed in this study also align with hierarchical preference structures identified in sport performance contexts [14], where different demographic subgroups systematically rank leadership dimensions according to context-specific priorities. Applying such methodologies in PE research could clarify whether age-related differences stem from developmental changes, accumulated sport experience, or situational demands.
Furthermore, doctoral research on burnout and leadership in youth sport has stressed the formative and educational implications of leadership styles [11], which parallels the gender- and age-related patterns observed in this study and suggests that PE teachers should adopt differentiated strategies according to student characteristics.
The study posits that congruence between perceived and preferred leadership styles enhances student satisfaction; however, since satisfaction was not directly assessed, this conclusion rests on theoretical inference and prior empirical evidence [37]. Specifically, the alignment likely promotes the fulfillment of basic psychological needs—autonomy, competence, and relatedness—which are essential drivers of motivation and engagement. In future research, combining longitudinal tracking with analytical hierarchy methods [14] could provide a more nuanced understanding of how leadership preference patterns evolve and interact with gender and academic maturity.
Future research should include direct measures of satisfaction and engagement to validate these associations and employ longitudinal designs to elucidate causal pathways. This would provide a more robust foundation for pedagogical recommendations aimed at optimizing leadership effectiveness in physical education.

4.3. Importance of Social Support and Positive Feedback

Social support and positive feedback were the most-valued factors by students throughout the study. These results underscore the importance of teachers focusing not only on the technical aspects of training but also on the emotional needs of their students. As Weinberg and Gould [2] state, effective sport leaders are those who balance technical demands with emotional support, which not only improves performance but also enhances student satisfaction and overall well-being. Comparable findings in adolescent resistance training programs [15] demonstrate that emotional reinforcement contributes significantly to perceived progress and engagement. In particular, Ceruso and colleagues [15] highlight that constructive feedback, the recognition of effort, and the creation of a supportive climate are central to sustaining adolescents’ motivation—elements that mirror the dimensions most valued by students in the present study.
The preference for more authoritarian leadership styles observed among students in higher academic grades represents an intriguing shift. While younger students tend to favor democratic and supportive behaviors, older students—particularly those in upper secondary education—appear more accepting of autocratic behaviors. This evolution may be explained by developmental psychology theories, which suggest that adolescents nearing adulthood increasingly seek structure, clarity, and efficiency in task-oriented contexts. When such autocratic leadership is coupled with consistent positive feedback and social support, it may be reinterpreted by students not as controlling but as decisive and competence-enhancing, thus maintaining its motivational value. Moreover, school culture might play a significant role; as academic demands intensify in later grades, institutional expectations often prioritize performance and discipline, which may socialize students into valuing directive leadership styles. These factors combined suggest that the preference for authoritarian leadership is not necessarily a rejection of emotional support but, rather, a contextual adaptation to evolving academic and social expectations. However, it is important to note that not all studies fully support this relationship. For instance, some investigations have reported no significant association between leadership behavior and student motivation or have found results influenced by contextual factors such as age, sport type, or cultural differences. This variability reinforces the need for PE leadership models that integrate both structured task-oriented behaviors and relational, emotionally supportive approaches—an integration already advocated for in evidence-based pedagogical frameworks within sport sciences [6]. These contrasting findings highlight the complexity of the topic and suggest that our results should be interpreted within a broader and more nuanced perspective.

4.4. Importance of Extracurricular Practice and Practice Level

Student athletes tend to show a greater inclination toward leadership styles that offer more social support and positive feedback, especially when they experience high levels of perfectionism. This suggests that, for these students, effort and commitment in physical education classes may be related to a greater need for emotional and technical support from the teacher [25], especially when facing challenges in reaching their personal performance goals. Evidence from competitive sports [10] indicates that increased competitive involvement heightens expectations for structured and supportive leadership, with a stronger emphasis on clarity of instruction, constructive feedback, and emotional reinforcement. This pattern was also evident in the present study among federated and high-performance athletes, reinforcing the relevance of context-sensitive leadership.
Moreover, students who practice sports seem to perceive their physical education teacher in a manner similar to how they perceive their coaches [38], which could explain a greater congruence between their leadership expectations and the behaviors perceived from the teacher, especially in the factors of training and instruction and democratic behavior. This similarity could be particularly relevant in school contexts where extracurricular sport practice is common. Such parallels are consistent with findings in tennis performance research using the Analytic Hierarchy Process [14], in which competitive athletes demonstrated distinct priority structures in performance factors. This methodological approach could be applied to PE settings to map how varying practice levels shape leadership preference hierarchies, providing a structured tool for tailoring instructional strategies.
These findings converge with previous doctoral evidence [11], which highlighted that young athletes’ experiences of leadership—particularly when linked to burnout risk—are deeply influenced by the competitive environment and the congruence between expected and actual behaviors. Extending this reasoning to PE, extracurricular practice levels appear to shape leadership perceptions in ways comparable to competitive sport.
On the other hand, non-athletic students do not show significant differences in their perceptions of leadership regarding the five factors of the LSS-2 scale, suggesting that, for these students, the teacher’s leadership may be more aligned with the general expectations of the group, without the direct influence of the sports context [39]. This pattern may reflect lower levels of engagement or identification with the PE setting or different motivational profiles not centered on social affiliation or feedback. Drawing on the broader sports science literature, similar dynamics have been observed in individualized rehabilitation and performance programs [16,17,18], where aligning strategies with participant backgrounds and goals significantly improved adherence and perceived progress.
These results reinforce the idea that the extracurricular sports context plays a crucial role in the perception and preference of leadership in physical education, suggesting the need for the teacher to adapt their leadership style according to the characteristics and needs of the students, whether athletic or non-athletic. Such adaptability—integrating evidence-based pedagogy, sensitivity to competitive context, and personalized feedback—could not only improve students’ satisfaction with physical education classes but also optimize their performance and long-term engagement.

4.5. Congruence and Satisfaction

The results also reflect that, when physical education teachers align their leadership behaviors with students’ preferences, greater satisfaction is achieved and, consequently, better performance. This congruence between perceived and preferred leadership, especially in the factors of positive feedback and social support, showed the highest degree of congruence and were also most strongly associated with positive student response. These findings are consistent with Self-Determination Theory [37,40,41], which posits that satisfaction of basic psychological needs—autonomy, competence, and relatedness—leads to enhanced intrinsic motivation and commitment. Comparable conclusions can be drawn from individualized strategies in sports medicine—such as tailored rehabilitation for ACL injuries [18], intervention efficacy evaluations [16], and adherence-enhancing modalities like whole-body cryotherapy [17]—all of which show that the alignment between participant needs and program delivery fosters sustained engagement, mirroring the motivational benefits of leadership congruence in PE contexts.
However, a critical insight from this study is that only 36.3% of students exhibited full congruence between perceived and preferred leadership styles across both measurement points. This proportion, while indicative of a positive subgroup, reveals that nearly two-thirds of students experienced some level of mismatch between their expectations and their teachers’ actual behaviors. Such incongruence, as highlighted in competitive sport leadership research [10], may undermine motivation, reduce perceived autonomy, and weaken the classroom climate—especially in contexts where leadership expectations are shaped by prior sport participation.
Such incongruence has also been linked to burnout in sport contexts [7], which underscores the educational relevance of monitoring and adjusting leadership in PE to prevent negative motivational outcomes.
From a pedagogical perspective, this finding underscores the importance of continuous feedback mechanisms and the need for teachers to develop adaptive leadership skills. Incorporating analytical approaches such as the preference hierarchy framework [14] could enable educators to systematically map and track shifts in student priorities across the academic year, providing an evidence-based foundation for instructional adjustments. Initial assessments of students’ leadership preferences at the beginning of the academic year, followed by regular reflection and adjustment, could help close this perceptual gap. Moreover, teacher education programs should incorporate training in relational leadership and inclusive pedagogy to better prepare educators to respond to diverse student expectations. Fostering congruence is not a matter of merely matching styles but of cultivating an educational environment grounded in mutual understanding, responsiveness, and pedagogical flexibility.

4.6. Limitations and Future Research

This study involved several limitations that should be considered when interpreting its results. First, the sample consisted exclusively of students from two private schools in Spain, which limits the generalizability of the findings to other educational contexts, particularly public schools or those with different sociocultural profiles. This limitation is particularly relevant because leadership expectations and perceptions are shaped by cultural norms, socioeconomic backgrounds, and the institutional ethos. Consequently, the findings from relatively homogeneous, middle- to upper-middle-class private school contexts may not directly translate to public schools, rural settings, or regions with greater cultural diversity. Comparative studies across varied educational systems and socioeconomic strata are needed to determine the extent to which the patterns observed here are context-specific or generalizable. Future studies should broaden sampling to include diverse educational systems and cultural settings, as recent research in sport sciences [10] has demonstrated that competitive context and institutional culture can substantially shape leadership expectations. Second, although the study adopted a longitudinal design, it included only two measurement points over a one-year interval. A greater number of assessments or a longer follow-up period would have allowed for a deeper analysis of the temporal stability of leadership perceptions and preferences and their potential evolution across different academic stages. Incorporating analytical frameworks such as preference hierarchy analysis [14] could enable researchers to capture subtle shifts in leadership priorities across time and demographic subgroups.
Furthermore, the study focused on a descriptive analysis and non-parametric comparisons, without applying complex inferential models that could provide a deeper understanding of the relationships between leadership, contextual variables, and educational outcomes. Although this decision was aligned with the initial exploratory objective, future research should integrate multivariate statistical approaches, effect size estimation, and confidence intervals, as well as mixed-method designs that combine quantitative and qualitative data. This would allow for triangulation of results and a richer interpretation of the mechanisms underpinning leadership congruence. Additionally, methodological enhancements such as standardized measurement intervals, advanced missing-data handling (e.g., multiple imputation), and the integration of direct measures of satisfaction and engagement would address the current limitations and strengthen causal inference.
Finally, although validated and widely recognized instruments (LSS-1 and LSS-2) were used, the study relied solely on students’ self-perceptions, which may introduce social desirability bias. Future studies should combine objective measures, classroom observations, and teacher interviews to contrast and enrich the information collected. Drawing from evidence on individualized interventions in sports medicine and rehabilitation [16,17,18], such multi-informant and multi-method approaches could ensure that leadership assessments reflect both intended pedagogical strategies and their actual impact on student experience.
Despite these limitations, the findings provide a solid starting point for understanding leadership perceptions and preferences in physical education. Future research may expand the scope by using more representative samples, intervention designs, and more advanced inferential analyses, as well as by formulating concrete pedagogical proposals based on evidence.
The absence of an a priori power analysis and attrition between measurement points may have limited the statistical power for certain subgroup analyses. While missing data were handled using mean substitution within subscales, future research should apply more robust methods such as multiple imputation or maximum likelihood estimation to preserve validity without inflating the Type I or Type II error risk. Furthermore, effect size measures and confidence intervals were not included, which limits the interpretability of the findings. Addressing these methodological gaps will be critical for advancing from exploratory trends toward actionable, evidence-based pedagogical recommendations.

5. Conclusions

This longitudinal study provides new evidence on the importance of leadership in physical education. The results emphasize that greater congruence between leadership perceptions and preferences significantly improves student satisfaction and performance. Furthermore, the findings indicate that physical education teachers should adapt their leadership styles not only based on the characteristics of the group but also on individual factors such as gender and academic level. This study contributes to the understanding of how leadership styles in PE should vary by student demographic characteristics. These conclusions are reinforced by recent evidence in sport sciences demonstrating that adaptive, emotionally supportive, and context-sensitive leadership enhances engagement, cohesion, and performance in both educational and athletic settings [6,10,15] and that such approaches align with contemporary pedagogical calls for inclusivity and personalization.
Future studies should explore tertiary and vocational education contexts and diverse sociocultural environments to validate the consistency and developmental trajectory of these findings. Research could also focus on specific interventions to improve teacher leadership in physical education, using experimental or multi-wave longitudinal designs to assess their effects on student outcomes. Contextual variables such as class size, institutional culture, the availability of resources, and socioeconomic background should be systematically addressed, as well as the role of digital tools in teaching practice. For instance, technology-enhanced feedback systems and the real-time monitoring of student perceptions could help align leadership behaviors more closely with evolving preferences. Moreover, incorporating analytic approaches such as those applied in performance priority studies [14] may provide deeper insight into how different student subgroups prioritize leadership dimensions.
Teachers should engage in continuous professional development through targeted leadership workshops, peer-coaching modules, and reflective supervision sessions. It is essential to adapt leadership styles to be inclusive and equitable, considering diversity in gender, academic level, and culture. In line with individualized approaches shown to be effective in sports medicine and training contexts [16,17,18], aligning instructional methods with student needs is likely to foster sustained motivation, participation, and perceived competence in PE. Finally, fostering a positive environment grounded in trust, mutual respect, and ongoing dialogue between teachers and students should be considered a cornerstone of effective leadership in physical education.

Author Contributions

Conceptualization, A.S.-A., P.A.-M. and R.R.-B.; methodology, A.S.-A., P.A.-M. and R.M.; software, M.G.-G. and J.-M.D.-d.-l.-M.; validation, J.-J.M.-M., M.G.-G., R.R.-B. and P.A.-M.; formal analysis, A.S.-A. and R.M.; investigation, A.S.-A.; resources, J.-J.M.-M.; data curation, A.S.-A. and J.-M.D.-d.-l.-M.; writing—original draft preparation, A.S.-A.; writing—review and editing, R.R.-B., P.A.-M. and R.M.; visualization, M.G.-G.; supervision, M.G.-G.; project administration, R.R.-B. and P.A.-M. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Institutional Review Board Statement

The study, which forms part of the doctoral thesis entitled “Description and longitudinal analysis of the values associated with the practice of Physical Education in Compulsory Secondary Education and First Year of Baccalaureate and their relationship with certain psychological variables”, was approved by the Doctoral Committee of the PhD Program in Physical Activity and Sport Sciences at the Autonomous University of Madrid (approval date: September 2018; reference code: 61804). The research was conducted in accordance with the Code of Good Research Practices of the Autonomous University of Madrid (UAM, 2020), the Code of Ethics of the Official College of Psychologists of Spain (2015), and the Declaration of Helsinki (WMA, 2000). In addition, the study complied with Organic Law 3/2018 on the Protection of Personal Data and Guarantee of Digital Rights, ensuring the confidentiality of all information and its exclusive use for scientific purposes.

Informed Consent Statement

Before data collection began, informed consent was obtained from both the parents or legal guardians of underage students and from the students and teachers themselves.

Data Availability Statement

The data presented in this study are available on request from the corresponding author due to privacy restrictions.

Conflicts of Interest

The authors declare no conflicts of interest.

Abbreviations

The following abbreviations are used in this manuscript:
LSSLeadership Scale for Sport
LSS-1Leadership Preferences Scale for Sport
LSS-2Leadership Perceptions Scale for Sport

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Table 1. Sociodemographic Data of the Participants.
Table 1. Sociodemographic Data of the Participants.
VariableValue
Gender Female n = 190 (51.35%)
Male n = 180 (48.65%)
Total n = 370 (100%)
Age M = 14.21SD = 1.41
Academic Level 1st Year of Secondary Education n = 86 (23.31%)
2nd Year of Secondary Education n = 94 (25.47%)
3rd Year of Secondary Education n = 81 (21.95%)
4th Year of Secondary Education n = 77 (20.87%)
First year of upper Secondary Education n = 31 (8.40%)
Sport Practice Practice n = 302 (82.8%)
Not practice n = 63 (17.26%)
Level of Sport and Physical Activity High Performance n = 9 (3.98%)
Federated n = 127 (56.19%)
School Practice n = 49 (21.68%)
Leisure n = 41 (18.14%)
Table 2. Descriptive statistics of the prorated LSS-1 scale (from 1 to 5 points) for the total sample at time 1.
Table 2. Descriptive statistics of the prorated LSS-1 scale (from 1 to 5 points) for the total sample at time 1.
M SD Minimum Maximum
LSS-1 Training and Instruction T1 3.4595 0.56626 2.15 5.00
LSS-1 Democratic Behavior T1 3.1549 0.63133 1.33 5.00
LSS-1 Autocratic Behavior T1 3.2027 0.89635 1.40 5.00
LSS-1 Social Support T1 3.5888 0.69757 1.50 5.00
LSS-1 Positive Feedback T1 3.8326 0.74298 1.40 5.00
M: mean; ST: standard deviation.
Table 3. Descriptive statistics of the prorated LSS-2 scale (from 1 to 5 points) for the total sample at time 1.
Table 3. Descriptive statistics of the prorated LSS-2 scale (from 1 to 5 points) for the total sample at time 1.
MSDMinimumMaximum
LSS-2 Training and Instruction T1 3.47260.670291.855.00
LSS-2 Democratic Behavior T1 3.16510.748591.225.00
LSS-2 Autocratic Behavior T1 3.30480.892681.405.00
LSS-2 Social Support T1 3.56970.713761.005.00
LSS-2 Positive Feedback T1 3.83560.763971.405.00
M: mean; ST: standard deviation.
Table 4. Descriptive statistics and mean difference analysis considering the LSS-1 Scale at Time 1 and 2 using the Wilcoxon W test.
Table 4. Descriptive statistics and mean difference analysis considering the LSS-1 Scale at Time 1 and 2 using the Wilcoxon W test.
RanksnMSDAverage RangeTotal of RanksZSig.
LSS-1 Training and Instruction T1/T2Negative Ranks4646.89917.9430249.962298.00−0.2830.777
Positive Ranks5147.09177.7502048.142455.00
Equal Ranks12
Total109
LSS-1 Democratic Behavior T1/T2Negative Ranks5728.72486.1461754.753121.00−1.0830.279
Positive Ranks4827.92667.5014950.922444.00
Equal Ranks4
Total109
LSS-1 Autocratic Behavior T1/T2Negative Ranks5613.71563.8540348.142599.50−1.7990.072 †
Positive Ranks4613.27523.7880744.171678.50
Equal Ranks7
Total109
LSS-1 Social Support T1/T2Negative Ranks5627.48625.8382852.382933.50−1.0260.305
Positive Ranks4626.96335.9828950.422319.50
Equal Ranks7
Total109
LSS-1 Positive Feedback T1/T2Negative Ranks4818.67893.9296650.272413.00−0.1320.895
Positive Ranks4918.69724.2425647.762340.00
Equal Ranks12
Total109
Note: † p < 0.10; M: mean; SD: standard deviation.
Table 5. Descriptive statistics and analysis of mean differences considering the LSS-2 scale at Time 1 and 2 for the 12-month sample.
Table 5. Descriptive statistics and analysis of mean differences considering the LSS-2 scale at Time 1 and 2 for the 12-month sample.
RanksnMSDAverage RangeTotal of RanksZSig.
LSS-2 Training and Instruction T1/T2Negative Ranks4348.17248.3780041.691792.50−0.6220.534
Positive Ranks3847.45988.2247640.221528.50
Equal Ranks6
Total87
LSS-2 Democratic Behavior T1/T2Negative Ranks4628.50577.1151243.001978.00−1.0680.285
Positive Ranks3727.29898.3903540.761508.00
Equal Ranks4
Total87
LSS-2 Autocratic Behavior T1/T2Negative Ranks4414.22994.1503743.721923.50−1.6820.092 †
Positive Ranks3513.13794.1935035.331236.50
Equal Ranks8
Total87
LSS-2 Social Support T1/T2Negative Ranks4327.68975.8415343.031850.50−1.1080.268
Positive Ranks3726.89666.8489337.551389.50
Equal Ranks7
Total87
LSS-2 Positive Feedback T1/T2Negative Ranks4119.10343.8880744.611829.00−1.2210.222
Positive Ranks3818.63223.7606135.031331.00
Equal Ranks8
Total87
Note: † p < 0.10; M: mean; SD: standard deviation.
Table 6. Descriptive statistics and analysis of mean differences based on the gender/sex variable considering the LSS-1 scale and Time 1 (total n = 211).
Table 6. Descriptive statistics and analysis of mean differences based on the gender/sex variable considering the LSS-1 scale and Time 1 (total n = 211).
GendernMSDAverage RangeTotal of RanksMann–Whitney UZSig.
LSS-1 training and instruction T1Male11246.08047.63012121.7713,638.504897.500−2.5420.011 *
Female10943.83496.9262299.9310,892.50
LSS-1 Democratic Behavior T1Male11229.07145.87668118.7213,297.005239.000−1.8240.068 †
Female10927.69725.41347103.0611,234.00
LSS-1 Autocratic Behavior T1Male11216.05364.40074111.6212,501.006035.000−0.1460.884
Female10915.97254.58350110.3712,030.00
LSS-1 Social Support T1Male11229.14295.66299117.5013,159.505376.500−1.5340.017 *
Female10928.26615.48507104.3311,371.50
LSS-1 Positive Feedback T1Male11219.50003.96380118.5413,277.005259.000−1.7840.074†
Female10918.81653.42422103.2511,254.00
Note: † p < 0.10; * p < 0.05; M: mean; SD: standard deviation.
Table 7. Descriptive statistics and analysis of mean differences considering the LSS-2 scale at Time 1 (total n = 208).
Table 7. Descriptive statistics and analysis of mean differences considering the LSS-2 scale at Time 1 (total n = 208).
GendernMSDAverage RangeTotal of RanksMann–Whitney UZSig.
LSS-2 Training and Instruction T1Male10246.88249.41485116.8611,920.004145.000−2.9090.004 **
Female10643.47177.6596792.609816.00
LSS-2 Democratic Behavior T1Male10230.03927.01190117.7812,013.504051.500−3.1260.002 **
Female10626.99066.1311091.729722.50
LSS-2 Autocratic Behavior T1Male10216.38244.53380101.8910,393.005140.000−2.6270.539
Female10616.66044.41186107.0110,343.00
LSS-2 Social Support T1Male10229.19615.98023111.3911,361.504703.500−1.6220.105
Female10627.94345.3945897.8710,374.50
LSS-2 Positive Feedback T1Male10219.83333.88213116.0911,841.504223.500−2.7360.006 **
Female10618.54723.6674493.349894.50
Note: ** p < 0.01; M: mean; SD: standard deviation.
Table 8. Descriptive statistics and analysis of mean differences considering the LSS-1 scale and the school year based on the general sample and applying the Kruskal-Wallis test for mean differences.
Table 8. Descriptive statistics and analysis of mean differences considering the LSS-1 scale and the school year based on the general sample and applying the Kruskal-Wallis test for mean differences.
School Year n M SD Average Range Chi-Square Sig.
LSS-1 Training and Instruction T1 1 SE 39 48.0000 7.98309 136.93 36.176 0.000 ***
2 SE 51 47.4118 7.19771 132.02
3 SE 46 46.5652 7.96842 126.25
4 SE 55 41.1273 5.26010 77.62
1 HS 20 41.7097 4.86617 81.23
Total 221 44.9729 7.36140
LSS-1 Democratic Behavior T1 1 SE 39 29.9211 6.44050 127.92 8.783 0.067 †
2 SE 51 29.1569 5.99124 118.18
3 SE 46 28.1087 6.32536 108.14
4 SE 55 26.6909 4.76046 91.59
1 HS 20 28.7097 3.93441 117.13
Total 221 28.3937 5.68201
LSS-1 Autocratic Behavior T1 1 SE 39 14.8158 4.49537 93.37 86.100 0.000 ***
2 SE 51 14.3529 3.67600 87.26
3 SE 46 12.5652 3.01590 61.97
4 SE 55 19.3091 3.63049 157.65
1 HS 20 19.4839 2.32194 161.66
Total 221 16.0136 4.48176
LSS-1 Social Support T1 1 SE 39 28.5526 5.22312 107.14 13.431 0.009 **
2 SE 51 28.5882 4.94440 106.37
3 SE 46 26.1522 6.40821 86.80
4 SE 55 30.2182 5.79492 129.30
1 HS 20 30.2258 3.91331 126.77
Total 221 28.7104 5.58059
LSS-1 Positive Feedback T1 1 SE 39 19.6053 3.43700 118.72 6.267 0.180
2 SE 51 18.6863 3.33761 99.89
3 SE 46 18.2826 4.58821 99.12
4 SE 55 19.4364 3.58267 116.41
1 HS 20 20.2258 2.57824 127.84
Total 221 19.1629 3.71492
Note: † p < 0.10; ** p < 0.01; *** p < 0.001; M: mean; SD: standard deviation; SE: secondary education; HS; high school.
Table 9. Descriptive statistics and mean difference analysis considering the LSS-2 Scale and the course variable at Time 1.
Table 9. Descriptive statistics and mean difference analysis considering the LSS-2 Scale and the course variable at Time 1.
School YearnMSDAverage RangeChi-SquareSig.
LSS-2 Training and Instruction T11st SE3248.87508.51090133.4254.549p < 0.001
2nd SE4650.10877.92248139.48
3rd SE4346.79078.81708115.34
4th SE5639.60716.2251164.04
1st HS3141.6452.6.9739980.81
Total20845.14428.71383
LSS-2 Democratic Behavior T11st SE3228.65637.88469107.419.5470.049 *
2nd SE4631.23916.90953126.18
3rd SE4327.37217.5024594.42
4th SE5626.98215.4221592.40
1st HS3128.48395.19532105.16
Total20828.48566.73729
LSS-2 Autocratic Behavior T11st SE3214.68754.3361880.1654.231p < 0.001
2nd SE4616.19574.3849298.91
3rd SE4313.37213.7034361.78
4th SE5619.21433.82201140.95
1st HS3118.41942.82576131.34
Total20816.52404.46342
LSS-2 Social Support T11st SE3229.28136.26426113.806.8370.145
2nd SE4629.06524.80001109.09
3rd SE4326.51166.6345983.92
4th SE5629.21435.53900111.47
1st HS3128.70974.92066104.05
Total20828.55775.71011
LSS-2 Positive Feedback T11st SE3218.65634.4038898.942.1250.713
2nd SE4619.78263.72924114.34
3rd SE4318.65124.1858497.64
4th SE5619.46433.23596105.77
1st HS3119.03233.82521102.87
Total20819.17793.81987
Note: * p < 0.05; M: mean; SD: standard deviation; SE: secondary education; HS: high school.
Table 10. Descriptive statistics and mean difference analysis considering the LSS-1 scale and the course based on the male sample using the Kruskal–Wallis test.
Table 10. Descriptive statistics and mean difference analysis considering the LSS-1 scale and the course based on the male sample using the Kruskal–Wallis test.
School YearnMSDAverage RangeChi-SquareSig.
LSS-1 Training and Instruction T11st SE3249.66677.2511971.4826.539p < 0.001
2nd SE4649.39297.1922871.34
3rd SE4345.82617.4568656.57
4th SE5641.10005.8300534.84
1st HS3141.76475.9005236.97
Total20846.08047.63012
LSS-1 Democratic Behavior T11st SE3230.91676.4935969.388.6320.071 †
2nd SE4629.75005.8917758.86
3rd SE4329.04356.5120754.52
4th SE5626.10005.2605840.98
1st HS3128.88243.4979055.38
Total20829.07145.87668
LSS-1 Autocratic Behavior T11st SE3215.79174.2730655.0233.001p < 0.001
2nd SE4615.32143.7223450.55
3rd SE4312.52173.3285230.59
4th SE5618.50004.6735573.43
1st HS3119.52942.0615283.53
Total20816.05364.40074
LSS-1 Social Support T11st SE3229.75004.8745160.274.7990.309
2nd SE4629.78575.2093758.39
3rd SE4326.56526.4654843.59
4th SE5629.80007.2227762.35
1st HS3129.94123.3254858.65
Total20829.14295.66299
LSS-1 Positive Feedback T11st SE3220.25003.5046662.251.9870.738
2nd SE4619.25003.3952652.02
3rd SE4319.17394.7544456.26
4th SE5618.65005.1531852.25
1st HS3120.29412.5681961.09
Total20819.50003.96380
Note: † p < 0.10; M: mean; SD: standard deviation; SE: secondary education; HS: high school.
Table 11. Descriptive statistics and mean difference analysis considering the LSS-1 Scale and the course based on the female sample using the Kruskal–Wallis test.
Table 11. Descriptive statistics and mean difference analysis considering the LSS-1 Scale and the course based on the female sample using the Kruskal–Wallis test.
School YearnMSDAverage RangeChi-SquareSig.
LSS-1 Training and Instruction T11st SE1445.14298.6278459.3610.3810.034 *
2nd SE2345.00006.5712960.09
3rd SE2347.30438.5156368.87
4th SE3541.14294.9949644.54
1st HS1441.64293.4330345.64
Total10943.83496.92622
LSS-1 Democratic Behavior T11st SE1428.21436.2039553.571.6480.800
2nd SE2328.43486.1631359.50
3rd SE2327.17396.1322753.78
4th SE3527.02864.4950050.94
1st HS1428.50004.5361861.18
Total10927.69725.41347
LSS-1 Autocratic Behavior T11st SE1413.14294.5210134.8958.576p < 0.001
2nd SE2313.17393.3255536.02
3rd SE2312.60872.7425831.85
4th SE3519.77142.8500381.13
1st HS1419.42862.6808279.00
Total10915.97254.58350
LSS-1 Social Support T11st SE1426.50005.3313340.1415.2350.004 **
2nd SE2327.13044.2672647.22
3rd SE2325.73916.4682344.43
4th SE3530.45714.9010467.80
1st HS1430.57144.6362268.00
Total10928.26615.48507
LSS-1 Positive Feedback T11st SE1418.50003.1317252.5410.5300.032 *
2nd SE2318.00003.2951146.76
3rd SE2317.39134.3352642.67
4th SE3519.88572.8571064.77
1st HS1420.14292.6849266.82
Total10918.81653.42422
Note: * p < 0.05; ** p < 0.01; M: mean; SD: standard deviation; SE: secondary education; HS: high school.
Table 12. Descriptive statistics and mean difference analysis considering the LSS-2 Scale and the course variable at Time 1 for the male sample.
Table 12. Descriptive statistics and mean difference analysis considering the LSS-2 Scale and the course variable at Time 1 for the male sample.
School YearnMSDAverage RangeChi-SquareSig.
LSS-2 Training and Instruction T11st SE2050.55009.0465265.2330.402p < 0.001
2nd SE2552.48007.5505069.52
3rd SE2047.20009.0472452.10
4th SE2040.90007.1590931.70
1st HS1741.00008.4483731.44
Total10246.88249.41485
LSS-2 Democratic Behavior T11st SE2030.55007.8638155.438.0210.091 †
2nd SE2533.32006.6377763.96
3rd SE2029.25006.8508546.83
4th SE2027.65006.7611543.60
1st HS1728.35295.7221243.35
Total10230.03927.01190
LSS-2 Autocratic Behavior T11st SE2014.90004.3997641.8023.212p < 0.001
2nd SE2517.08004.4433554.96
3rd SE2012.95003.7763129.33
4th SE2018.75004.3634266.78
1st HS1718.35292.8710065.94
Total10216.38244.53380
LSS-2 Social Support T1 1st SE2030.45006.6052260.884.9380.294
2nd SE2530.20004.3969755.06
3rd SE2027.55006.1342441.98
4th SE2028.90007.0628851.40
1st HS1728.54945.7891946.56
Total10229.19615.98023
LSS-2 Positive Feedback T11st SE2020.00004.1294853.603.5340.473
2nd SE2520.60003.7416658.28
3rd SE2020.15003.8013253.55
4th SE2019.15003.8835045.38
1st HS1718.94124.0384243.85
Total10219.83333.88213
Note: † p < 0.10; M: mean; SD: standard deviation; SE: secondary education; HS: high school.
Table 13. Descriptive statistics and mean difference analysis considering the LSS-2 Scale and the course variable at Time 1 for the female sample.
Table 13. Descriptive statistics and mean difference analysis considering the LSS-2 Scale and the course variable at Time 1 for the female sample.
School YearnMSDAverage RangeChi-SquareSig.
LSS-2 Training and Instruction T11st SE1246.08337.0124345.2924.307p < 0.001
2nd SE2147.28577.5772261.79
3rd SE2346.43488.7999347.46
4th SE3638.88895.6202651.53
1st HS1442.42864.8152763.11
Total10643.47177.65967
LSS-2 Democratic Behavior T11st SE1225.50007.1414338.004.8060.308
2nd SE2128.76196.5337943.19
3rd SE2325.73917.8056932.76
4th SE3626.61114.5811973.01
1st HS1428.64294.6839766.14
Total10629.99066.13110
LSS-2 Autocratic Behavior T11st SE1214.33334.3969746.4232.913p < 0.001
2nd SE2115.14294.1747552.67
3rd SE2313.73913.6831042.65
4th SE3619.47223.5253161.36
1st HS1418.50002.8756358.43
Total10616.66044.41186
LSS-2 Social Support T1 1st SE1227.33335.3484635.426.2540.181
2nd SE2127.71435.0114254.48
3rd SE2325.60877.0500746.04
4th SE3629.38894.5874261.25
1st HS1428.92863.8122159.86
Total10627.94345.39458
LSS-2 Positive Feedback T11st SE1216.41674.0554945.298.4880.075 †
2nd SE2118.80953.5583661.79
3rd SE2317.34784.1408047.46
4th SE3619.63892.8601051.53
1st HS1419.14293.6973449.46
Total10618.54723.66744
Note: † p < 0.10; M: mean; SD: standard deviation; SE: secondary education; HS: high school.
Table 14. Descriptive statistics and analysis of mean differences between students who practice and do not practice extracurricular sports, considering the Leadership Preferences Questionnaire LSS-1 using the Mann–Whitney U test statistic (total n = 220).
Table 14. Descriptive statistics and analysis of mean differences between students who practice and do not practice extracurricular sports, considering the Leadership Preferences Questionnaire LSS-1 using the Mann–Whitney U test statistic (total n = 220).
SportnMSDAverage RangeTotal of RanksMann–Whitney UZSig.
LSS-1 Training and Instruction T1Practice18744.87177.17407109.8120,534.002956.000−0.3850.701
Not practice3345.72738.46416114.423776.00
LSS-1 Democratic Behavior T1Practice18728.40645.44134111.2420,802.002947.000−0.4120.681
Not practice3328.60616.85994106.303508.00
LSS-1 Autocratic Behavior T1Practice18716.08024.47201111.3520,822.002927.000−0.4710.637
Not practice3315.78794.58092105.703488.00
LSS-1 Social Support T1Practice18729.01075.51244114.3421,381.502367.500−2.1340.033 *
Not practice3327.06065.8359888.742928.50
LSS-1 Positive Feedback T1Practice18719.30483.73420113.2521,177.002572.000−1.5280.126
Not practice3318.48483.5630194.943133.00
Note: * p < 0.05; M: mean; SD: standard deviation.
Table 15. Descriptive statistics and analysis of mean differences based on performance level, considering the LSS-1 questionnaire for the total student sample at Time 1.
Table 15. Descriptive statistics and analysis of mean differences based on performance level, considering the LSS-1 questionnaire for the total student sample at Time 1.
Level of PracticenMSDAverage RangeChi-SquareSig.
LSS-1 training and instruction T1Leisure1743.17658.0795734.099.3470.025 *
School Practice1445.78576.6815342.04
Federated6348.25407.4161354.98
High Performance550.80006.3796663.70
Total9947.16167.58315
LSS-1 Democratic Behavior T1Leisure1727.52946.4225641.762.6050.457
School Practice1428.64294.6839746.18
Federated6329.71435.6065352.33
High Performance530.80005.0695259.40
Total9929.24245.61174
LSS-1 Autocratic Behavior T1Leisure1713.00002.8939647.213.5360.316
School Practice1412.64292.3405241.14
Federated6314.15873.6817253.71
High Performance511.60003.3615537.50
Total9913.61623.42472
LSS-1 Social Support T1Leisure1726.47065.1975741.593.0240.388
School Practice1427.50004.2562245.57
Federated6328.39685.6498352.34
High Performance530.20003.4205361.50
Total9928.03035.31738
LSS-1 Positive Feedback T1Leisure1717.64714.2857539.918.1770.042 *
School Practice1417.42863.6524936.68
Federated6319.68253.6047754.43
High Performance521.20002.4899865.80
Total9919.09093.80143
Note: * p < 0.05; M: mean; SD: standard deviation.
Table 16. Descriptive statistics and mean difference analysis between students who practice and do not practice extracurricular sports using the LSS-2 Leadership Preferences Questionnaire and the Mann–Whitney U test (total n = 207).
Table 16. Descriptive statistics and mean difference analysis between students who practice and do not practice extracurricular sports using the LSS-2 Leadership Preferences Questionnaire and the Mann–Whitney U test (total n = 207).
Sport PracticenMSDAverage RangeTotal of RanksMann–Whitney UZSig.
LSS-2 Training and Instruction T1Practice17944.86038.61130101.9218.243.002133.000−1.2670.205
Not Practice2846.96439.44960117.323285.00
LSS-2 Democratic Behavior T1Practice17928.41906.42921102.8518,410.502300.500−0.6980.485
Not Practice2829.10718.59948111.343117.50
LSS-2 Autocratic Behavior T1Practice17928.62015.54155103.3318,496.502386.500−0.4060.684
Not Practice2828.42866.73536108.273031.50
LSS-2 Social Support T1 Practice17928.62015.54155103.3618,502.002392.000−0.3870.698
Not Practice2828.42866.73536108.073026.00
LSS-2 Positive Feedback T1Practice17919.25143.70673104.5418,712.502409.500−0.3290.742
Not Practice2818.71434.58546100.552815.50
Note: M: mean; SD: standard deviation.
Table 17. Descriptive statistics and mean difference analysis based on performance level using the LSS-2 Questionnaire for the Total Student Sample at Time 1.
Table 17. Descriptive statistics and mean difference analysis based on performance level using the LSS-2 Questionnaire for the Total Student Sample at Time 1.
Level of PracticenMSDAverage RangeChi-SquareSig.
LSS-2 Training and Instruction T1Leisure1946.21059.3664841.163.7900.150
School Practice1646.56258.1073541.25
Federated6149.95087.4664352.69
High Performance551.40005.1768733.66
Total10148.78227.9619147.69
LSS-2 Democratic Behavior T1Leisure1925.73685.1622853.347.2650.026 *
School Practice1629.25005.7096441.87
Federated6130.40987.8110544.69
High Performance533.20001.9235451.57
Total10129.48517.0945238.16
LSS-2 Autocratic Behavior T1Leisure1913.63163.2181946.312.1280.345
School Practice1614.06253.5490652.30
Federated6115.18034.5735044.18
High Performance517.00003.8078934.00
Total10114.80204.1905153.65
LSS-2 Autocratic Behavior T1Leisure1926.10535.7144541.163.8650.145
School Practice1628.06254.7675141.25
Federated6129.11485.8111952.69
High Performance530.20002.7748933.66
Total10128.43565.5989647.69
LSS-2 Positive Feedback T1Leisure1918.31584.5589153.346.9200.031 *
School Practice1617.25003.0221441.87
Federated6119.75414.1579544.69
High Performance521.20000.8366651.57
Total10119.15844.0810138.16
Note: * p < 0.05; M: mean; SD: standard deviation.
Table 18. Descriptive statistics of the differences LSS-2 minus LSS-1 at Time 1.
Table 18. Descriptive statistics of the differences LSS-2 minus LSS-1 at Time 1.
nMSDMinimumMaximum
LSS-2/LSS-1 Training and Instruction T12040.27946.89008−25.0020.00
LSS-2/LSS-1 Democratic Behavior T10.10295.91518−16.0017.00
LSS-2/LSS-1 Autocratic Behavior T10.40693.72532−11.0015.00
LSS-2/LSS-1 Social Support T1−0.24515.19081−15.0015.00
LSS-2/LSS-1 Positive Feedback T1−0.05394.09397−14.0010.00
M: mean; SD: standard deviation.
Table 19. Descriptive statistics of the differences LSS-2 minus LSS-1 at Time 2.
Table 19. Descriptive statistics of the differences LSS-2 minus LSS-1 at Time 2.
nMSDMinimumMaximum
LSS-2/LSS-1 Training and Instruction T21110.65776.52477−26.0020.00
LSS-2/LSS-1 Democratic Behavior T2−0.59465.58957−14.0020.00
LSS-2/LSS-1 Autocratic Behavior T20.14413.50544−13.0011.00
LSS-2/LSS-1 Social Support T20.36944.51850−15.0014.00
LSS-2/LSS-1 Positive Feedback T2−0.21623.82909−14.009.00
M: mean; SD: standard deviation.
Table 20. Descriptive statistics and analysis of mean differences considering the LSS-1 and LSS-2 scales at Time 1 based on the gender variable (total n = 204).
Table 20. Descriptive statistics and analysis of mean differences considering the LSS-1 and LSS-2 scales at Time 1 based on the gender variable (total n = 204).
GendernMSDAverage RangeTotal of RanksMann–Whitney UZSig.
LSS-2/LSS-1 Training and Instruction T1Male1010.99016.84470107.1410,821.004733.000−1.1130.266
Female103−0.41756.8963397.9510,089.00
LSS-2/LSS-1 Democratic Behavior T1Male1011.14855.85557112.2711,339.004215.000−2.3450.019 *
Female103−0.92235.8203392.929571.00
LSS-2/LSS-1 Autocratic Behavior T1Male1010.31683.55789102.5010,352.005201.000−0.0010.999
Female103−49513.89790102.5010,558.00
LSS-2/LSS-1 Social Support T1Male1010.09905.27921104.1910,523.505030.500−0.4070.684
Female103−0.58255.10579100.8410,386.50
LSS-2/LSS-1 Positive Feedback T1Male1010.39604.25929108.8710,996.004558.000−1.5320.125
Female103−0.49513.8953896.259914.00
Note:* p < 0.05; M: mean; SD: standard deviation.
Table 21. Descriptive statistics and analysis of mean differences considering the LSS-1 and LSS-2 scales at Time 1 based on the course variable for the total sample.
Table 21. Descriptive statistics and analysis of mean differences considering the LSS-1 and LSS-2 scales at Time 1 based on the course variable for the total sample.
School YearsnMSDAverage RangeChi-SquareSig.
LSS-2/LSS-1 Training and Instruction T11st SE311.03237.40938110.7910.4690.033 *
2nd SE452.57786.57298122.64
3rd SE42−0.21438.0532997.13
4th SE55−1.45456.6383286.15
1st HS31−0.06454.53090101.26
Total2040.27946.89008
LSS-2/LSS-1 Democratic Behavior T11st SE31−0.83875.5021091.904.7390.315
2nd SE451.60006.16220114.74
3rd SE42−0.78576.0021892.46
4th SE550.27276.42176107.97
1st HS31−0.22584.6669799.21
Total2040.10295.91518
LSS-2/LSS-1 Autocratic Behavior T11st SE310.22583.90478103.9716.3840.003 **
2nd SE451.91113.91281125.34
3rd SE420.76192.82678108.63
4th SE55−0.16364.2197295.42
1st HS31−1.06452.6068672.13
Total2040.40693.72532
LSS-2/LSS-1 Social Support T11st SE311.06455.15063116.276.8300.145
2nd SE450.15564.56247106.58
3rd SE420.33335.14979111.92
4th SE55−1.03646.2626693.99
1st HS31−1.51613.6228185.15
Total204−0.24515.19081
LSS-2/LSS-1 Positive Feedback T11st SE31−0.90323.8588088.356.9510.138
2nd SE450.93333.94058117.60
3rd SE420.35714.53077106.49
4th SE55−0.05454.18736103.45
1st HS31−1.19353.5063787.63
Total204−0.05394.09397
Note: * p < 0.05; ** p < 0.01; M: mean; SD: standard deviation; SE: secondary education; HS: high school.
Table 22. Descriptive statistics and analysis of mean differences based on performance level, considering the difference LSS-2 minus LSS-1 for the total student sample at Time 1 (total n = 98).
Table 22. Descriptive statistics and analysis of mean differences based on performance level, considering the difference LSS-2 minus LSS-1 for the total student sample at Time 1 (total n = 98).
Level of PracticenMSDAverage RangeChi-SquareSig.
LSS-2/LSS-1 Training and Instruction T1Leisure181.72228.3158649.250.4170.937
School Practice150.066710.2292845.50
Federated601.13336.4557650.69
High Performance50.60002.0736448.10
LSS-2/LSS-1 Democratic Behavior T1Leisure18−2.33337.2517739.443.4430.328
School Practice150.53335.7801048.53
Federated600.83335.7759551.84
High Performance52.40005.1768760.50
LSS-2/LSS-1 Autocratic Behavior T1Leisure180.38893.0513043.694.6690.198
School Practice151.06673.4942149.67
Federated601.11673.2888749.12
High Performance55.40005.6833174.50
LSS-2/LSS-1 Social Support T1Leisure18−1.00004.3386143.061.6620.645
School Practice150.46675.9505954.27
Federated600.70004.7095350.71
High Performance50.00002.1213243.90
LSS-2/LSS-1 Positive Feedback T1Leisure180.00004.9348749.030.2870.962
School Practice15−0.13335.1390253.10
Federated600.00003.7866848.79
High Performance50.00002.5495148.90
Note: M: mean; SD: standard deviation.
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MDPI and ACS Style

Solera-Alfonso, A.; Mijarra-Murillo, J.-J.; Marconnot, R.; Gacría-González, M.; Delfa-de-la-Morena, J.-M.; Anglada-Monzón, P.; Ruiz-Barquín, R. Leadership Styles in Physical Education: A Longitudinal Study on Students’ Perceptions and Preferences. Children 2025, 12, 1139. https://doi.org/10.3390/children12091139

AMA Style

Solera-Alfonso A, Mijarra-Murillo J-J, Marconnot R, Gacría-González M, Delfa-de-la-Morena J-M, Anglada-Monzón P, Ruiz-Barquín R. Leadership Styles in Physical Education: A Longitudinal Study on Students’ Perceptions and Preferences. Children. 2025; 12(9):1139. https://doi.org/10.3390/children12091139

Chicago/Turabian Style

Solera-Alfonso, Adrian, Juan-José Mijarra-Murillo, Romain Marconnot, Miriam Gacría-González, José-Manuel Delfa-de-la-Morena, Pablo Anglada-Monzón, and Roberto Ruiz-Barquín. 2025. "Leadership Styles in Physical Education: A Longitudinal Study on Students’ Perceptions and Preferences" Children 12, no. 9: 1139. https://doi.org/10.3390/children12091139

APA Style

Solera-Alfonso, A., Mijarra-Murillo, J.-J., Marconnot, R., Gacría-González, M., Delfa-de-la-Morena, J.-M., Anglada-Monzón, P., & Ruiz-Barquín, R. (2025). Leadership Styles in Physical Education: A Longitudinal Study on Students’ Perceptions and Preferences. Children, 12(9), 1139. https://doi.org/10.3390/children12091139

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