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Article

How Kindergarten Teachers Assess Their Own Professional Competencies

by
Eva Pupíková
1,2,
Dalibor Gonda
3,*,
Kitti Páleníková
4,
Janka Medová
4,
Dana Kolárová
1 and
Anna Tirpáková
4
1
Faculty of Education, Constantine the Philosopher University, Drážovská 4, 949 74 Nitra, Slovakia
2
The Methodology and Pedagogy Centre, Regional Centre in Nitra, Ul. kozmonautov 5, 949 01 Nitra, Slovakia
3
Faculty of Management Science and Informatics, Zilina Univerzity, Univerzitná 8215, 010 26 Žilina, Slovakia
4
Faculty of Natural Sciences, Constantine the Philosopher University, Tr. A. Hlinku 1, 949 01 Nitra, Slovakia
*
Author to whom correspondence should be addressed.
Educ. Sci. 2021, 11(12), 769; https://0-doi-org.brum.beds.ac.uk/10.3390/educsci11120769
Submission received: 5 October 2021 / Revised: 23 November 2021 / Accepted: 24 November 2021 / Published: 29 November 2021
(This article belongs to the Section Curriculum and Instruction)
Browse Figures
Versions Notes

Abstract

:
One of the requirements of Education 4.0 is that students and practitioners should be involved in the creation of the content of study plans. Therefore, in the present research we focused on identifying the further educational needs of kindergarten teachers. Teachers’ educational needs were divided into four dimensions: ‘content knowledge’, ‘diagnostic knowledge’, ‘didactical knowledge’, and ‘classroom management knowledge’. In parallel, we discovered how teachers assess the level of their own teaching competencies. Based on the obtained data, we identified that teachers have the greatest need for further education in the dimension of ‘diagnostic knowledge’ and that the need for their further education in this dimension did not depend on the length of practice. In the other three dimensions, a declining trend in teachers’ educational needs has been recorded with an increasing length of practice, declining significantly in three of the four dimensions examined. The study points to the need to create in-service courses for kindergarten teachers to deepen their ‘diagnostic knowledge’ and thus ensure the sustainability of the quality of pre-school education for children. Teachers‘ self-assessment of their own teaching competencies corresponds to their educational needs, which supports the relevance of the findings on the further educational needs of kindergarten teachers. This study aimed to obtain relevant data on which the improvement of the higher education of future kindergarten teachers might be based. At the same time, this would allow the analysis and tailoring of the content of professional development courses to the needs of in-service kindergarten teachers.

1. Introduction

The term education appears in almost all program documents on sustainable development at the international and national levels. This is because education and the school as an institution play a leading role in implementing sustainable development in practice [1]. The link between education and sustainability is also indicated by the fact that sustainable development is the basis of Education for Sustainable Development (ESD) and at the same time sustainable development is the ultimate goal of ESD [2]. The ESD is a dynamic concept and a concept that incorporates a new vision of the type of education that aims to enable people of all ages to take responsibility for creating a sustainable future [3,4,5]. The ESD requires the integration of key concepts of sustainable development into all forms and levels of education; however, studies show that the implementation of sustainable development is very challenging for teachers and requires specific knowledge and skills [6,7]. The necessary specific knowledge and skills can be acquired by future teachers in higher education. In practice, teachers can expand their knowledge and skills in their in-service training. Therefore, universities can serve as an engine and innovation hub through teaching focused on sustainable development [8]. The relevant role of higher education for the ESD was already formally recognized at the UN conference in 1972 [9]. In higher education, adequate attention needs to be paid to the education of kindergarten teachers, as the quality of pre-school and pre-primary education is considered to be one of the very important factors in sustainable education [10]. According to [11], it is important to develop a “positive emotional relation to nature, diversity, and beauty, and teach them to use and protect them at the same time. Particular educational areas are developed later” (p. 2) in the children of pre-school age. Under the 2030 Agenda (https://sdgs.un.org/2030agenda, accessed on 25 September 2015), every boy and girl should have access to high-quality pre-primary education and the teacher is a decisive factor in the educational process. Therefore, it is natural that within the Agenda 2030, great attention is paid to the teacher and his/her higher education as a means of preparation for the profession and professional development. Within the Agenda 2030, specifically in the UN’s Sustainable Development Goal 4, it is recommended to review, analyze and improve the quality of higher education of future teachers and to create conditions for their continuous professional development. These requirements included in Sustainable Development Goal 4 are consistent with many research studies that have highlighted the role of the teacher as one of the critical factors in relation to children’s and students’ achievement (e.g., [12,13,14]). The quality of education depends to a large extent on the quality of the teacher [13,15]. In order to be able to effectively fulfill their tasks (educate and develop the child’s personality), the teachers must, in addition to professional requirements, also meet high demands on personal character traits. The shortage of qualified teachers is often resolved in schools by employing professionals without pedagogical education.
In order to be able to answer the questions of what (learning settings) and how (approach to competence development), it is necessary to carry out an analysis of what is needed and thus clarify which competencies should be focused on in higher education [1]. One of objectives of this study was to obtain relevant data that will form the basis for improvement of the university education of future kindergarten teachers. At the same time, it will be possible to analyze and revise the content of professional development courses of in-service kindergarten teachers.

2. Review of the Literature

According to Darling-Hammond (Darling-Hammond, 2000) [16], teachers with pedagogical education achieve better educational results than teachers without pedagogical education. For more than fifty years, significant attempts have been made to develop models of teaching quality (e.g., [17,18]), on which an optimal form of training of future teachers for the individual levels of school education would be designed.
Ref. [19] identified four aspects determining the quality of teacher education standards. Properly set standards for the education of future teachers should address the skills that are theoretically sound, considering research results, critically evaluated, and based on real practice [19]. Since the end of the 20th century, emphasis has been placed on the training of future teachers based on competencies (competency-based curriculum) [20]. In 2018, the fifth UNESCO’s Education on the Move series, which reviews trends in education today and challenges for tomorrow, Issues and trends in ESD, was published [21]. This publication addresses, inter alia, key competences within the ESD. The validity of the competency-based curriculum was also confirmed by [22], who was looking for criteria for quality teaching that would also be empirically provable. From various studies (TIMSS, PISA, SCHOLASTIK, VERA, Münchner Studies) and meta-studies [23,24,25,26,27,28] he derived ten criteria for quality teaching. One of the criteria is a focus on competencies. The aim of the training of a future teacher is to produce a teacher who has acquired basic professional competencies.
Van Merriënboer and Kirschner [29] define competence as “a combination of complex cognitive and higher abilities, highly integrated knowledge structures, interpersonal and social skills and attitudes and values”. The acquired competencies can be applied in different situations and for an unlimited period [29]. There are several models that set standards for competence-oriented education. In Europe there is the model developed by Oser [30] the most widely accepted. Oser described 88 standards (competencies) of quality education that were further divided into 12 groups [30]. During the undergraduate preparation for the profession, the preservice teacher acquires the necessary competencies and develops the necessary self-efficacy. Self-efficacy is defined by Bandura [31] as a person’s belief in the ability to succeed in a particular situation. According to Bandura [31], individuals with well-developed self-efficacy may see tasks as a challenge and try to handle them, not to avoid them. Although people can have the same knowledge and skills, they may perform differently, depending on their own ability to use the acquired knowledge and skills [31]. The teachers’ belief in their own ability to handle pupils’ learning means that the teachers are considering themselves as competent to carry out their profession. The high assessment of the moral role of teachers also suggests that a narrow view of competencies as technical achievements is not adequate [32,33]. According to Bertschy [1], the competencies needed to support sustainable development also concern the sphere of the personal and social behavior of the teacher, i.e., the whole personality of the teacher, not only their professional side. Similarly, Robina-Ramírez et al. [34] point to the fact that the teacher’s knowledge alone is not enough to evoke a positive attitude towards nature protection. To achieve this goal, the teacher needs to have developed environmental competencies.
Acceptance of the social nature of competencies means that it is the actor (in the case of education this is a pupil) and his/her expectations who determines and shapes the content of the competencies needed to succeed in specific professional contexts [35,36]. As a result, the social aspect of competences means that today’s schools need teachers who can constantly acquire new competencies. In this respect, socio-emotional competencies and reliable classroom management are crucial. Thanks to feedback from teachers, Zaragoza et al. [37] found that teachers have partial competencies, but that further training is required to increase the level of socio-emotional competencies and the competence for reliable classroom management. As stated by Blömeke, Gustafsson, and Shavelson [38], it is necessary to look for new tools for measuring teachers’ competencies. At the same time, it is necessary to take into account individual differences in teachers’ practice as well as the opportunities to learn offered during the higher education of future teachers of all types of schools [39,40]. When investigating the impact of teacher competencies on the quality of education, competencies acquired during higher education [41] as well as competencies deepened through professional development courses [42] are taken into account.
That is why the Agenda 2030 includes a requirement for the implementation of feedback, where data obtained from teachers in practice would be a basis for improving the training of teachers and their further professional development. The data obtained in this way from teachers in practice would be the basis for the innovation of curricula for the education of future teachers and in-service teacher education. According to Pieters and Voogt [43], the involvement of teachers in the creation of curricula can lead to the effective professional development of teachers in their education. In the Netherlands, for example, efforts have been made to substantially involve teachers in the standard-setting process based on a set of competencies relevant to interpersonal communication, social and moral values, subjects and methods, and organizational skills [44]. In our research, we focused on the self-assessment of the professional competencies of kindergarten teachers (pre-primary education) and their educational needs. For example, when Walan and Rundgren [45] analyzed the educational needs of kindergarten teachers in Sweden they focused on the analysis of their professional competencies. Similarly, we focused on the professional concepts of kindergarten teachers, but from the perspective of teachers’ self-assessment.
The very question of competencies, together with the question of the approach to the development of teachers’ competencies and the related question of the appropriate setting of learning, is one of the most basic pedagogical problems [46].
Methodologically, our study is based on Oser’s professional standards (Figure 1), as well as on the four dimensions of ‘content knowledge’, ‘diagnostic knowledge’, ‘didactical knowledge’, and ‘classroom management knowledge’ which have been framed as teachers’ crucial competencies [47]. In the ‘content knowledge’ dimension we included the professional competencies needed to choose a suitable topic for children or to justify why a teacher has chosen a topic. This is closely linked to professional self-reflection and the ability to plan one’s own professional growth. In the ‘diagnostic knowledge’ dimension we included competencies that enable the teacher to get to know the child’s personality: to find out the child’s previous knowledge acquired outside of school, to find out the child’s interests, to find out the child’s learning style and way of thinking, formulated in his/her own words. Proper knowledge of a child’s personality is an important factor that helps the teacher to motivate individual children to learn. As for the ‘didactical knowledge’, we understood this to represent competencies related to the planning of the teaching process and ‘classroom management knowledge’ we understood as the competencies related to the management of educational activities in the classroom.

Objective of This Study

The study aimed at identifying the educational needs of kindergarten teachers. Furthermore, we wanted to identify to what extent their educational needs correspond to the level of their perceived teaching competencies. Verloop et al. [48] suggest that certain competencies and related learning needs are perceived equally by all teachers, while others may be perceived differently. Therefore, we also wanted to explore the possible differences in the perceptions of younger and less experienced teachers who had recently completed teacher education programs [49] and older, more experienced teachers who rely on their rich experience. The results of the research can then be implemented in the university training of future kindergarten teachers as well as in the professional development of in-service kindergarten teachers.
While conducting the research, we first looked for whether there were differences between teachers with different lengths of teaching practice in self-assessment regarding their own competencies and educational needs. At the same time, we wanted to identify how the length of pedagogical practice of the participants affected their self-assessment regarding their own competencies and educational needs. Based on this, two research hypotheses were formulated:
Hypothesis 1.
How do the perceived self-assessment and educational needs differ among the four dimensions of professional standards?
Hypothesis 2.
How do the perceived self-assessment and educational needs differ according to the length of teachers’ practice?

3. Material and Methods

3.1. Research Tool

The broadest and most common definition of a teacher’s professional competence is a complex construct that includes professional knowledge, didactic skills and the ability to motivate students [50]. According to Bandura, self-assessment is the belief in one’s own ability to organize and perform an activity that leads to given results [51]. Bandura distinguishes two aspects of human belief. On the one hand, it is the perception of one’s own abilities (efficacy expectation), and on the other hand, the expectation of a certain result (outcome expectancy). As a research tool, we used a questionnaire of our own construction (Appendix A). The questionnaire was constructed based on the questionnaire used by Dellinger et al. [52], which used the TEBS-Self tool (Teachers’ Efficacy Beliefs System-Self Form) to guide the teacher’s self-assessment according to predetermined criteria, and actual teacher activities. From the original questionnaire, we selected items relevant to the pedagogical practice of kindergarten teachers. Using the questionnaire, we examined to what extent teachers perceive themselves self-efficacious in different professional competencies (part A) and what topic they would prefer for their professional development (part B). In this way we wanted to reduce the degree of influence of the answers of individual respondents in part B by the answers in part A. The individual items of the questionnaire were designed in order to get a complex picture of the level of teachers’ self-assessment regarding the defined professional competencies and their preferences for further education in the above-mentioned dimensions.
We first administered part A of the questionnaire to the respondents and two hours later we administered part B. For each competence, the task of teachers was to use scaling to indicate the extent to which they assess their professional competence, and how they perceive themselves self-efficacious in a certain competence. For each competence, the respondents could mark the answer from a four-point Likert scale: part A (weak belief—1; mild belief—2; strong belief—3; very strong belief—4); part B (weak need—1; mild need—2; strong need—3; very strong need—4). The validity of the test was assessed by three experts in the field (professors in the field of preschool pedagogy). Their comments were subsequently incorporated before the distribution of the questionnaires. The correlations between responses for the self-assessment and items “I have enough experience with…”, for convergent validation, and “I feel a need for professional development focused on…”, for discriminant validation, were estimated (Table 1). The correlation between the self-assessment and discriminatory items were not significant and the coefficients were lower than 0.10, that can, according to Campbell and Fiske [53]), suggest an invariance between the constructs.
The reliability of the test was measured with Cronbach’s alpha, and it was 0.95912. Based on this value, we can state the high reliability of the research tool [54].

3.2. Participants

The participants of the research were 561 kindergarten teachers from all over Slovakia. A total of 780 questionnaires was distributed. The number of returned questionnaires was 585, that implies a return rate of the questionnaire of 75%. After the initial analysis, the final number of questionnaires was adjusted to 561, which represents a 72% return rate. Participants were divided into five groups according to the length of their practice. The first group comprised novice teachers with up to 5 years of experience representing all the participants in the turbulent period when their knowledge and beliefs are shaped [55,56]. The other categories were teachers with 6–10 years of experience, 11–15 years of experience, 16–20 years of experience and over 21 years of experience.

4. Data Analysis

We first verified the validity of the research hypothesis, “Do teachers perceive self-assessment and educational needs differently in individual dimensions?”. This means that our aim was to discover whether the differences in the achieved average score in the self-assessment (variable S) and in the educational needs (variable N) of the respondents in each of the four examined dimensions were statistically significant. We expressed the following null hypothesis: H 0 , the distributions of the characters S, and N are the same compared to the alternative hypothesis H 1 , that they are not the same.
To select an appropriate statistical method to verify the validity of the null hypothesis, it was first necessary to verify whether the assumption of a normal distribution was met. We verified the assumption of a normal distribution for all files by the means of a Shapiro–Wilk test. Since the hypothesis of a normal distribution of data based on the result of the Shapiro–Wilk test was rejected, we used a nonparametric analogy, the Wilcoxon paired signed rank test to verify the validity of the hypothesis H 0 . We performed the test in the STATISTICA 9.0 Standard Plus CZ software (StatSoft Inc., Tulsa, OK, USA).
To answer the research hypothesis H2, we also used a nonparametric analog of the one-way analysis of variance—the Kruskal–Wallis test. The Kruskal–Wallis test makes it possible to test the hypothesis H 0 , that k (k ≥ 3) independent sample sets come from the same distribution. It is a direct generalization of Wilcoxon’s two-sample test for the case of k independent sample sets (k ≥ 3) [57]. In all four examined dimensions, D1–D4, we expressed the following null hypothesis: H 0 , between the considered five groups of teachers, based on the length of their practice, there is no statistically significant difference in the perception of individual pedagogical competencies (dimensions D1–D4) in self-assessment or in educational needs compared to the alternative hypothesis H 1 , that the difference is statistically significant. In this case, too, the calculations were performed using the STATISTICA software. In cases where the significance of the difference between the groups was confirmed by the Kruskal–Wallis test, the post-hoc Dunn test was used to compare the statistical significance of pairwise differences between groups.

4.1. Results

Based on the results obtained using the Wilcoxon paired signed rank test, we conclude that the differences between self-assessment and educational need were statistically significant in each of the four examined dimensions (Figure 2). We also observed that while for content knowledge, didactical knowledge and classroom management knowledge, self-assessment was significantly higher than the need to learn in the field, the opposite relationship applies to diagnostic knowledge. Teachers did not feel self-efficacious, and it is possible, therefore, that they felt the highest educational needs in this area.
Based on the results obtained by analyzing the research using statistical methods, we can state that the validity of the hypothesis was confirmed. Teachers perceive self-assessment and educational needs differently in individual dimensions.

4.2. The Influence of the Length of Teachers’ Practice on the Self-Assessment and Perception of Educational Needs in Dimension D1—‘Content Knowledge’

In the first step, in the dimension ‘content knowledge’ for each group of teachers (according to the length of practice), we calculated the descriptive statistical characteristics, namely, arithmetic mean, number of respondents in the group (N) and standard deviation (SD) (Table 2).
The teachers’ self-assessment in the dimension, D1 Content knowledge, differed significantly between the groups of teachers with different lengths of practice (Kruskal–Wallis test, H = 13.331, p = 0.0098). The average values in both self-assessment and in the perception of educational needs in the ‘Content knowledge’ dimension in the five groups of teachers were different. Beginning teachers were significantly different in terms of ‘Content knowledge’ than teachers with 21 or more years of experience. While the average self-assessment value of beginning teachers was 2.794, the average self-assessment value of teachers with the longest practice was 3.029.
A significant difference was also confirmed when comparing the educational needs between teachers with different lengths of practice (Kruskal–Wallis test, H = 16.872, p = 0.002). This has shown that training needs in the field of professional competence are influenced by the length of practice. The results of post-hoc analysis show that there was a significant difference between groups 1 and 5 and between groups 2 and 5. In other words, teachers with an experience of five years or less, as well as teachers with an experience of 6 to 10 years, significantly differentiate their educational needs in the field of ‘Content knowledge’ than teachers with an experience of more than 21 years.

4.3. Influence of the Length of Teachers’ Practice on the Perception of Self-Assessment and Educational Needs in Dimension D2—Diagnostic Competence

The differences in self-assessment in the ‘Diagnostic competence’ dimension were confirmed as significant (H = 53.399, p < 0.001) by the means of a Kruskal–Wallis test. Based on the results of a pairwise comparison of individual groups (Table 3), we concluded that the self-assessment of teachers with experience up to 5 years was significantly different in diagnostic competence compared to all other groups of teachers except for teachers with 16 to 20 years of experience. During the first five years, self-assessment seems to have increased in this area and was no longer significantly growing. On the other hand, we can see that the educational needs did not differ significantly between the groups of teachers with different lengths of practice (Kruskal–Wallis test, H = 10.522, p = 0.051). This implies that the educational needs in the ‘Diagnostic competence’ dimension are not affected by the length of practice.

4.4. The Influence of the Length of Teachers’ Practice on the Perception of Self-Assessment and Educational Needs in Dimension D3—Didactic Competence

The average values in the dimension, ’Didactic competence’, in the five groups of teachers differ both in self-assessment (Kruskal–Wallis test, H = 64.514, p < 0.001) and in the perception of educational needs (Kruskal–Wallis test, H = 11.312, p = 0.023). Thus, both the self-assessment and educational needs evolve during practice. From the results shown in Table 4 we can claim that there is a significant difference between the 1st and 4th group of teachers and between the 1st and 5th group of teachers. This leads to the conclusion that teachers with an experience of 5 years or less have a significantly lower self-assessment in ’Didactic competence’ than more experienced teachers, particularly teachers with experience of 16 to 20 years, as well as teachers with experience of 21 years or more. Teachers with experience of 21 years or more differ statistically significantly in self-assessment in ’Didactic competence’ from all other groups of teachers. This showed that self-assessment in the field of didactic competence is influenced by the length of practice and grows throughout the practice of the pre-primary teacher. For the educational needs of the pre-primary teachers, there is a significant difference only between the 1st and 5th group of teachers. This means that teachers with experience of 5 years or less, as well as teachers with experience of 21 years or more, perceive their educational needs significantly differently in the dimension ’Didactic competence’. Moreover, their educational needs, in contrast to self-assessment, decline with increasing years of experience.

4.5. Influence of the Length of Teachers’ Practice on the Perception of Self-Assessment and Educational Needs in Dimension D4—Classroom Management Knowledge

Even in the case of the dimension D4, ‘Classroom management knowledge’, the differences in self-assessment between the five groups of teachers was confirmed as significant by the means of the Kruskal–Wallis test (H = 55.738, p < 0.001), i.e., self-assessment in the dimension ‘Classroom management knowledge’ competence is affected by length of practice. Subsequently, the post-hoc Dunn’s test was used to find out which of the abovementioned age categories of teachers according to their length of practice differ from each other in the self-assessment in the dimension ’Classroom management knowledge’. The test results are summarized in Table 5. The difference between the 5th group of teachers and all other groups is statistically significant. Thus, the teachers with a practice of 21 years or more had significantly different self-assessment scores in the ’Classroom management knowledge’ dimension than all other teachers. In the case of educational needs, the significance of the differences in educational needs between the five groups of teachers in the field of classroom management was also confirmed (Kruskal–Wallis test, H = 12.230, p = 0.016). In the post-hoc pairwise comparison by Dunn’s test, a significant difference was confirmed only between the 1st and 5th group of teachers. Therefore, teachers with an experience of 5 years or less and teachers with an experience of 21 years or more perceive their educational needs in the dimension ‘Classroom management knowledge’ in a significantly different way.
Based on the results of statistical analysis, we can state that the research hypothesis 2 was confirmed: individual categories of teachers perceive self-assessment as well as educational needs differently in individual dimensions according to the length of their practice. In all monitored dimensions, self-assessment increased significantly with an increasing length of practice. The reverse trend was observable for educational needs, which decreased significantly in three of the four dimensions examined with increasing years of practice.

5. Discussion

In the first phase of the analysis of the obtained data, we found that there were statistically significant differences in teachers’ self-efficacy in individual dimensions. Thus, there was a certain imbalance between the competencies belonging to different dimensions. By comparing the answers about the self-assessment of teachers’ competencies and educational needs, we observed that educational needs corresponded to the level of self-assessment of teachers in individual dimensions. Therefore, we can consider the data obtained on the educational needs of teachers to be relevant. An interesting finding is that the lowest average scores were achieved by teachers in the D2 (diagnostic knowledge) dimension. It was also the only dimension where teachers achieved higher average scores in their need for professional development than in self-efficacy in the same dimension. Our findings correspond to the results of several studies in which diagnostic skills were identified as a weakness of teachers [58]. According to some research, teachers’ diagnostic competence is developed through practical experience during teaching practice [59]. When analyzing teachers’ answers according to the length of their teaching practice in dimension D2, the average score increased depending on the length of practice. At the same time, a significant difference was found between teachers with experience of up to 5 years compared to all other groups of teachers except teachers with a length of practice of 16 to 20 years. These findings correspond to the results of other researchers [60,61], who report that teachers’ diagnostic skills improve during their teaching practice. In Watson and Marschall [62], beginning mathematics teachers first master classroom management, then student management (including teacher noticing), and finally instructional strategies (including an individual approach). It is the individualization of instructional strategies that is the most difficult to master in reported studies, in congruence with the presented results, for future and beginning teachers. The most frequently reported practice leading to an increased self-assessment of beginning teachers in higher-level teaching skills (this includes diagnostics, and responsive approaches—response to current events in the classroom) is reflection and peer support, not external sources or institutions [63].
In the analysis of educational needs depending on the length of practice, only in dimension D2 were the educational needs not affected by the length of teachers’ practice. In all age categories except 21 and over, the average score for educational needs was higher than for self-assessment. Although the diagnostic skills of teachers improve with the length of practice, only teachers with a very long experience were satisfied with the levels of acquired diagnostic competencies over the need for further education in this area. The ability to diagnose usually goes hand in hand with the quality of the teacher—they can adapt their teaching to the individual needs of their students [64,65]. Such teachers can match the assigned tasks with the knowledge and skills of their students [66]. Therefore, diagnostic competence was recognized as an important part of pre-service and in-service teacher training. Not only is it part of the recommendations for teacher training in Germany [67], but it is also one of the five basic proposals of the US National Council for Professional Training Standards [66].
Another finding was the prevailing satisfaction of teachers with their professional knowledge, because in dimension D1 there was no gradual increase in the level of self-assessment of professional knowledge depending on the length of practice. There was also no gradual increase in the level of competencies in dimensions D3 (didactical knowledge) and D4 (classroom management knowledge); however, in dimensions D3 and D4, where it was shown that teachers with 21 or more years of experience assessed their level of relevant competencies significantly higher than for other groups of teachers, they were in line with the findings of Wilson and Tan [68]. They found that teachers with more than 20 years of teaching experience had a greater sense of their own level of acquired competencies than those with less than 20 years of teaching experience. The same result was reached by de la Torre Cruz and Arias [69]. The research found a relatively high level of interest in professional development in individual areas of pedagogical competencies. Thus, teachers were more interested in obtaining the new information.
Our findings that the self-assessment of teachers improve throughout their whole careers is in strong accordance with the seminal ideas of Bandura [51]. He identified the teacher’s experience, whether mastery experience (own success) or vicarious experience (observed success) as the most prevalent source of self-assessment.
As the teachers with longer career experience have a better chance of experiencing and managing (either directly or indirectly) different situations, they have more experience with and therefore a higher rate of self-assessment. In our results, the role of verbal persuasion was not observable, nor was physiological or affective states at all.

Recommendations and limitations

Based on our findings, we also recommend increasing the attention paid to pedagogical diagnostics during the training of future teachers for all types of schools. An integral part of a teacher’s competencies is diagnostic competence, which can have a positive effect on children’s learning processes and performance [59,67]. Diagnostic competence is generally considered to be a teacher’s ability to assess the learning and behavior of his/her students according to predetermined criteria. In addition, diagnostic competence includes the ability to support the learning processes of individual students [70,71]. Related to this is the ability to diagnose students’ mistakes and use them constructively in the classroom, thus creating an “error-friendly” learning environment [72,73]. Diagnostic competence can be considered as a “cross-cutting” competence and its level fundamentally affects the level of other competencies of the teacher.
Additionally, based on our findings we recommend increasing the attention paid to pedagogical diagnostics during the training of future teachers for all types of schools. The ability of a kindergarten teacher to properly diagnose a child’s needs would contribute to the early detection of the specific educational needs of children. At the same time, such erudite teachers can “prepare” the ground for the possible inclusion of children in the first stage of primary school. Finally, teachers with a higher degree of diagnostic competence have a higher presumption to detect in children already in kindergarten tendencies towards inappropriate behavior [74]. Diagnostic competencies also extend to other teacher competencies. According to some studies, diagnostic competencies or diagnostic knowledge are a special form of expertise [75].
The preparation of pre-service or in-service training courses, with content based on the practical needs of teachers, could be an effective tool for increasing teachers’ self-assessment, since the teachers who feel they have access to useful resources tend to have higher self-assessment [76,77].
When generalizing the results of the presented study, it is necessary to take into account that the research took place in the Slovak Republic and the fact that the return rate of the questionnaire was approximately 72%. The biggest limitation of this research can be considered the absence of additional qualitative analysis that would maximize the validity of the research. Additional qualitative data from observations and interviews with pre-primary teachers would make possible the examination of the hidden factors influencing teachers’ self-efficacy and educational needs. On the other hand, such an analysis was not in the scope of the presented research.

6. Conclusions

The aim of this study was to determine the relationship between the educational needs and length of practice of pre-primary teachers through a questionnaire survey. At the same time, we identified whether the educational needs of teachers corresponded to the self-assessment of their own teaching competencies. Based on described research, we identified that pre-primary teachers perceive themselves the least competent in diagnostic skills. For teachers with less than five years of experience, this can be related to the content of their university education. The vast majority passed courses aimed at increasing their subject matter and didactic competencies. As our research also confirmed that diagnostic competencies increase during pedagogical practice, we recommend that students should pay more attention to the development of their diagnostic competencies within the pedagogical practice. This would allow for a reduction in the relatively significant lag of beginning teachers in diagnostic competencies compared to content-related competencies. The problems with pedagogical practices affected by the COVID-19 pandemic require the search for alternative options for the development of teachers’ diagnostic competencies. The lack of personal contact between teachers and students make it difficult to correctly identify students’ needs, therefore, it is necessary to create effective tools that would help teachers of all ages to correctly identify a pupil’s personality and then set their education regarding the goals of sustainable development. Future teachers could learn to use these tools and provide quality education even if there were a further need for a transition to online education.

Author Contributions

Conceptualization, A.T.; methodology, D.G.; formal analysis, J.M.; data curation, E.P. and K.P.; funding acquisition, D.K. All authors have read and agreed to the published version of the manuscript.

Funding

This work was supported by the Slovak Research and Development Agency under the contract No. APVV-14-0446. This work was also supported by the Scientific Grant Agency of the Ministry of Education, Science, Research and Sport of the Slovak Republic and the Slovak Academy of Sciences under contract No. VEGA 1/0815/18, and by the Cultural and Educational Grant Agency under the contract No. 015UKF-4/2021.

Institutional Review Board Statement

Not applicable.

Informed Consent Statement

Not applicable.

Data Availability Statement

Not applicable.

Conflicts of Interest

The authors declare no conflict of interest.

Appendix A

Appendix A.1. Questionnaire Part A

Respondent code: _________________________
Length of pedagogical practice (in years): _______
Table
Table A1. The table shows the pedagogical activities of pre-primary teachers. Mark on the scale from 1 to 4 (1—weak belief; 2—mild belief; 3—strong belief; 4—very strong belief) the degree of your competence to perform the given pedagogical activity.
Table A1. The table shows the pedagogical activities of pre-primary teachers. Mark on the scale from 1 to 4 (1—weak belief; 2—mild belief; 3—strong belief; 4—very strong belief) the degree of your competence to perform the given pedagogical activity.
Teacher’s Pedagogical ActivitySelf-Assessment
1.Identification of the child’s developmental and individual characteristics1234
2.Identification of psychological and social factors of the child’s learning1234
3.Identification of the socio-cultural context of the child’s development1234
4.Differentiation of activities and tasks according to children’s level1234
5.Maintaining children’s motivation during the learning process1234
6.Informing children about the specific goals of educational activities1234
7.Using pedagogies that respect the individuality of the child1234
8.Using teaching aids respecting the focus of educational activities1234
9.Providing specific feedback to children1234
10.Planning educational activities with respect for individual differences among children1234
11.Evaluating the progress and results of educational activities and learning of the child1234
12.Planning one’s own professional growth and self-development1234
13.Implementation of own professional growth and self-development1234
14.Creating a positive learning atmosphere1234
15.Reflecting own pedagogical skills1234

Appendix A.2. Questionnaire Part B

Respondent code: _________________________
Length of pedagogical practice (in years): _______
Table
Table A2. The table shows the pedagogical activities of pre-primary teachers. On a scale from 1 to 4 (1—weak belief; 2—mild belief; 3—strong belief; 4—very strong belief), indicate the degree of your belief in the need for your further education in the field.
Table A2. The table shows the pedagogical activities of pre-primary teachers. On a scale from 1 to 4 (1—weak belief; 2—mild belief; 3—strong belief; 4—very strong belief), indicate the degree of your belief in the need for your further education in the field.
Teacher’s Pedagogical ActivityEducational Need
1.Identification of the child’s developmental and individual characteristics1234
2.Identification of psychological and social factors of the child’s learning1234
3.Identification of the socio-cultural context of the child’s development1234
4.Differentiation of activities and tasks according to children’s level1234
5.Maintaining children’s motivation during the learning process1234
6.Informing children about the specific goals of educational activities1234
7.Using pedagogies that respect the individuality of the child1234
8.Using teaching aids respecting the focus of educational activities1234
9.Providing specific feedback to children1234
10.Planning educational activities with respect for individual differences among children1234
11.Evaluating the progress and results of educational activities and learning of the child1234
12.Planning one’s own professional growth and self-development1234
13.Implementation of own professional growth and self-development1234
14.Creating a positive learning atmosphere1234
15.Reflecting own pedagogical skills1234

References

  1. Bertschy, F.; Künzli, C.; Lehmann, M. Teachers’ competencies for the implementation of educational offers in the field of education for sustainable development. Sustainability 2013, 5, 5067–5080. [Google Scholar] [CrossRef] [Green Version]
  2. Agbedahin, A.V. Sustainable development, Education for Sustainable Development, and the 2030 Agenda for Sustainable Development: Emergence, efficacy, eminence, and future. Sustain. Dev. 2019, 27, 669–680. [Google Scholar] [CrossRef]
  3. United Nations Educational, Scientific and Cultural Organization. From Rio to Johannesburg: Lessons Learnt from a Decade of Commitment; UNESCO: Johannesburg, South Africa, 2002. [Google Scholar]
  4. United Nations Educational, Scientific and Cultural Organization. (2005, October). United Nations Decade of Education for Sustainable Development (2005–2014): International Implementation Scheme. Available online: http://unesdoc.unesco.org/images/0014/001486/148654e.pdf (accessed on 12 January 2012).
  5. United Nations Educational, Scientific and Cultural Organization. Shaping the Future We Want: UN Decade of Education for Sustainable Development (2005–2014) Final Report; UNESCO: Paris, France, 2014. [Google Scholar]
  6. Summers, M.; Corney, G.; Childs, A. Student teachers’ conceptions of sustainable development: The starting-points of geographers and scientists. Educ. Res. 2004, 46, 163–182. [Google Scholar] [CrossRef]
  7. David, C.K. Zukunft Mitgestalten: Bildung Für Eine Nachhaltige Entwicklung-Didaktisches Konzept und Umsetzung in Der Grundschule; Haupt Verlag AG: Bern, Switzerland, 2007; Volume 4. [Google Scholar]
  8. UNEP. Greening Universities Toolkit: Transforming Universities into Green and Sustainable Campuses; United Nations Environment Programme: Nairobi, Kenya, 2013. [Google Scholar]
  9. Klassen, F.H.; Collier, J.L. Innovations Now! International Perspectives on Innovation in Teacher Education. 1972. Available online: https://eric.ed.gov/?id=ED194513 (accessed on 26 November 2021).
  10. United Nations. Transforming Our World: The 2030 Agenda for Sustainable Development. A/RES/70/1. 2015. Available online: https://sustainabledevelopment.un.org/post2015/transformingourworld/publication (accessed on 2 November 2019).
  11. Valovičová, Ľ.; Trníková, J.; Sollárová, E.; Katrušín, B. Stimulation and Development of Intellectual Abilities in Preschool-Age Children. Educ. Sci. 2020, 10, 43. [Google Scholar] [CrossRef] [Green Version]
  12. Goodrum, D.; Hackling, M.; Rennie, L. The Status and Quality of Teaching and Learning of Science in Australian Schools: A Research Report; Department of Education, Training and Youth Affairs Department of Education, Training and Youth Affairs: Canberra, Australia, 2001.
  13. Hattie, J.A.C. Visible Learning: A Synthesis of over 800 Meta-Analyses Relating to Achievement; Routledge: London, UK, 2018. [Google Scholar]
  14. McKinsey & Company. How the World´s Best Performing School Systems Come Out on Top. London. 2007. Available online: http://mckinseyonsociety.com/downloads/reports/Education/Worlds_School_Systems_Final.pdf (accessed on 16 September 2013).
  15. Gonda, D.; Tirpakova, A. A new teaching method aimed at eliminating the causes of students’ unsuccessful algorithmic problem solving with parameter. Probl. Educ. 21st Century 2018, 76, 499. [Google Scholar] [CrossRef]
  16. Darling-Hammond, L. Teacher quality and student achievement. Educ. Policy Anal. Arch. 2000, 8, 1. [Google Scholar] [CrossRef] [Green Version]
  17. Carroll, J.B. A model of school learning. Teach. Coll. Record. 1963, 64, 723. [Google Scholar]
  18. Bloom, B.S. Mastery learning. In Mastery Learning: Theory and Practice; Block, J.H., Ed.; Holt, Rinehart & Winston: New York, USA, 1971; pp. 47–63. [Google Scholar]
  19. Oser, F. Standards in der Lehrerbildung. Teil 1: Berufliche Kompetenzen, die hohen Qualitätsmerkmalen entsprechen. Beiträge Zur Lehr.-Und Lehr. 1997, 15, 26–37. [Google Scholar]
  20. Hyland, T. Behaviourism and the meaning of competence. In The Challenge of Competence; Hodkinson, P., Issitt, M., Eds.; Cassell: London, UK, 1995; pp. 44–57. [Google Scholar]
  21. United Nations Educational, Scientific and Cultural Organization. Issues and Trends in Education for Sustainable Development; UNESCO: Paris: France, 2018. [Google Scholar]
  22. Helmke, A. Unterrichtsqualität und Lehrerprofessionalität. Diagnose 2009, Evaluation und Verbesserung des Unterrichts, 2. Available online: https://www.fachportal-paedagogik.de/literatur/vollanzeige.html?FId=854686 (accessed on 26 November 2021).
  23. Haertel, G.D.; Walberg, H.J.; Weinstein, T. Psychological models of educational performance: A theoretical synthesis of constructs. Rev. Educ. Res. 1983, 53, 75–91. [Google Scholar] [CrossRef]
  24. Walberg, H.J.; Fraser, B.J.; Welch, W.W. A test of a model of educational productivity among senior high school students. J. Educ. Res. 1986, 79, 133–139. [Google Scholar] [CrossRef]
  25. Fraser, B.J.; Walberg, H.J.; Welch, W.W.; Hattie, J.A. Syntheses of educational productivity research. Int. J. Educ. Res. 1987, 11, 147–252. [Google Scholar] [CrossRef]
  26. Scheerens, J.; Bosker, R. The Foundations of Educational Effectiveness; Pergamon: Oxford, UK, 1997; 347p. [Google Scholar]
  27. Baumert, J.; Kunter, M. Keyword: Professional Competence of Teachers. Z. Für Erzieh. 2006, 9, 469–520. [Google Scholar] [CrossRef]
  28. Seidel, T.; Shavelson, R.J. Teaching effectiveness research in the past decade: The role of theory and research design in disentangling meta-analysis results. Rev. Educ. Res. 2007, 77, 454–499. [Google Scholar] [CrossRef]
  29. Van Merriënboer, J.J.; Kirschner, P.A. Ten Steps to Complex Learning: A Systematic Approach to Four-Component Instructional Design; Routledge: London, UK, 2017. [Google Scholar]
  30. Oser, F.; Oelkers, J. Die Wirksamkeit der Lehrerbildungssysteme: Von der Allrounderbildung zur Ausbildung Professioneller Standards; Verlag Rüegger: Glarus, Switzerland, 2001. [Google Scholar]
  31. Bandura, A. Perceived Self-Efficacy in Cognitive Development and Functioning. Educ. Psychol. 1993, 28, 117–148. [Google Scholar] [CrossRef]
  32. Carr, D. Moral values and the teacher: Beyond the paternal and the permissive. J. Philos. Educ. 1993, 27, 193–207. [Google Scholar] [CrossRef]
  33. Day, C. School reform and transitions in teacher professionalism and identity. Int. J. Educ. Res. 2002, 37, 677–692. [Google Scholar] [CrossRef]
  34. Robina-Ramírez, R.; Sánchez-Hernández, M.I.; Jiménez-Naranjo, H.V.; Díaz-Caro, C. The Challenge of Greening Religious Schools by Improving the Environmental Competencies of Teachers. Front. Psychol. 2020, 11, 520. [Google Scholar] [CrossRef] [PubMed]
  35. Messick, S. The psychology of educational measurement. J. Educ. Meas. 1984, 21, 215–237. [Google Scholar] [CrossRef]
  36. Westera, W. Competences in education: A confusion of tongues. J. Curric. Stud. 2001, 33, 75–88. [Google Scholar] [CrossRef]
  37. Zaragoza, M.C.; Díaz-Gibson, J.; Caparrós, A.F.; Solé, S. L The teacher of the 21st century: Professional competencies in Catalonia today. Educ. Stud. 2021, 47, 217–237. [Google Scholar] [CrossRef]
  38. Blömeke, S.; Gustafsson, J.-E.; Shavelson, R. Beyond dichotomies: Competence viewed as a continuum. Z. Für Psychol. 2015, 223, 3–13. [Google Scholar] [CrossRef]
  39. Kaiser, G.; Blömeke, S.; König, J.; Busse, A.; Döhrmann, M.; Hoth, J. Professional competencies of (prospective) mathematics teachers—Cognitive versus situated approaches. Educ. Stud. Math. 2017, 94, 162–184. [Google Scholar]
  40. König, J.; Blömeke, S.; Klein, P.; Suhl, U.; Busse, A.; Kaiser, G. Is teachers’ general pedagogical knowledge a premise for noticing and interpreting classroom situations? A video-based assessment approach. Teach. Teach. Educ. 2014, 38, 76–88. [Google Scholar] [CrossRef]
  41. Stigler, J.W.; Miller, K.F. Expertise and expert performance in teaching. In The Cambridge Handbook of Expertise and Expert Performance, 2nd ed.; Ericsson, A., Hoffman, R.R., Kozbelt, A., Williams, A.M., Eds.; Cambridge University Press: Cambridge, UK; Volume 24, pp. 431–452.
  42. Boyd, D.J.; Grossman, P.L.; Lankford, H.; Loeb, S.; Wyckoff, J. Teacher preparation and student achievement. Educ. Eval. Policy Anal. 2009, 31, 416–440. [Google Scholar] [CrossRef] [Green Version]
  43. Pieters, J.; Voogt, J. Curriculum, Docent en Innovative (Curriculum, Teacher and Innovation), Research Program of the Department Curriculum Design and Educational Innovation; University of Twente: Enschede, The Netherlands, 2008. [Google Scholar]
  44. Storey, A. The search for teacher standards: A nationwide experiment in the Netherlands. J. Educ. Policy 2006, 21, 215–234. [Google Scholar] [CrossRef]
  45. Walan, S.; Chang Rundgren, S.N. Investigating preschool and primary school teachers self-efficacy and needs in teaching science: A pilot study. CEPS J. 2014, 4, 51–67. [Google Scholar] [CrossRef]
  46. Jank, W.; Meyer, H. Didaktische Modelle; Cornelsen: Berlin, Germany, 2002. [Google Scholar]
  47. Baer, M.; Kocher, M.; Wyss, C.; Guldimann, T.; Larcher, S.; Dörr, G. Lehrerbildung und Praxiserfahrung im ersten Berufsjahr und ihre Wirkung auf die Unterrichtskompetenzen von Studierenden und jungen Lehrpersonen im Berufseinstieg. Z. Für Erzieh. 2011, 14, 85–117. [Google Scholar] [CrossRef]
  48. Verloop, N.; Van Driel, J.; Meijer, P. Teacher knowledge and the knowledge base of teaching. Int. J. Educ. Res. 2001, 35, 441–461. [Google Scholar] [CrossRef]
  49. Zgaga, P. The Prospects of Teacher Education in South-East Europe; University of Ljubljana: Ljubljana, Slovenia, 2006. [Google Scholar]
  50. Desimone, L.M. Improving Impact Studies of Teachers’ Professional Development: Toward Better Conceptualizations and Measures. Educ. Res. 2009, 38, 181–199. [Google Scholar] [CrossRef] [Green Version]
  51. Bandura, A. Self-efficacy: Toward a unifying theory of behavioral change. Psychol. Rev. 1977, 84, 191–215. [Google Scholar] [CrossRef]
  52. Dellinger, A.B.; Bobbett, J.J.; Olivier, D.F.; Ellett, C.D. Measuring teachers’ self-efficacy beliefs: Development and use of the TEBS-Self. Teach. Teach. Educ. 2008, 24, 751–766. [Google Scholar] [CrossRef]
  53. Campbell, D.T.; Fiske, D.W. Convergent and discriminant validation by the multitrait-multimethod matrix. Psychol. Bull. 1959, 56, 81. [Google Scholar] [CrossRef] [Green Version]
  54. Tavakol, M.; Dennick, R. Making sense of Cronbach’s alpha. Int. J. Med. Educ. 2011, 2, 53–55. [Google Scholar] [CrossRef] [PubMed]
  55. Munby, H.H.; Russell, T.; Martin, A.K. Teachers’ knowledge how it developed. In Handbook of Research on Teaching; Richardson, V., Ed.; American Educational Research Association: Washington, DC, USA, 2001; pp. 87–904. [Google Scholar]
  56. Tatto, M.T.; Rodriguez, M.C.; Reckase, M. Early career mathematics teachers: Concepts, methods, and strategies for comparative international research. Teach. Teach. Educ. 2020, 96, 103118. [Google Scholar] [CrossRef]
  57. Markechová, D.; Stehlíková, B.; Tirpáková, A. Štatistické Metódy a ich Aplikácie; FPV UKF: Nitre, Slovakia, 2011; ISBN 978-80-8094-807-8. [Google Scholar]
  58. Wuttke, E.; Seifried, J. Diagnostic competence of (prospective) teachers in vocational education: An analysis of error identification in accounting lessons. In From Diagnostics to Learning Success; Brill Sense: Leiden, The Netherlands, 2013; pp. 225–240. [Google Scholar]
  59. Bruder, S.; Klug, J.; Hertel, S.; Schmitz, B. Measuring, Modeling and Advancement of Teachers’ Advisory Skill and Diagnostic Competence. In Themenheft, Lehrerbildung auf dem Prüfstand. Landau: Empirische Pädagogik; Beck, K., ZlatkinTroischanskaia, O., Eds.; Verlag Empirische Pädagogik: Landau in der Pfalz, Germany, 2010; pp. 173–195. [Google Scholar]
  60. Lorenz, C.; Artelt, C. Domain Specificity and Stability of Diagnostic Competence Among Primary School Teachers in the School Subjects German and Mathematics. Z. Für Pädagogische Psychol. 2009, 23, 211–222. [Google Scholar] [CrossRef]
  61. Türling, J.M.; Seifried, J.; Wuttke, E. Teachers’ Knowledge About Domain Specific Student Errors. In Learning from Errors at School and at Work; Wuttke, E., Seifried, J., Eds.; Barbara Budrich: Opladen, Germany, 2012; pp. 95–110. [Google Scholar]
  62. Watson, S.; Marschall, G. How a trainee mathematics teacher develops teacher self-efficacy. Teach. Dev. 2019, 23, 469–487. [Google Scholar] [CrossRef]
  63. Soini, T.; Pietarinen, J.; Toom, A.; Pyhältö, K. What contributes to first-year student teachers’ sense of professional agency in the classroom? Teach. Teach. 2015, 21, 641–659. [Google Scholar] [CrossRef]
  64. Helmke, A.; Hosenfeld, I.; Schrader, F.-W. Comparative Tests as an Instrument to Improve the Diagnostic Skills of Teachers. In Schulleitung und Schulentwicklung; Arnold, R., Griese, C., Eds.; Schneider: Hohengehren, Germany, 2004; pp. 119–143. [Google Scholar]
  65. Vogt, F.; Rogalla, M. Developing Adaptive Teaching Competency Through Coaching. Teach. Teach. Educ. 2009, 25, 1051–1060. [Google Scholar] [CrossRef] [Green Version]
  66. Hollenweger, J. Teachers’ Ability to Assess Students for Teaching and Supporting Learning. Prospects 2011, 41, 445–457. [Google Scholar] [CrossRef]
  67. Kultusministerkonferenz (KMK). Competencies and Standards for Teacher Training. Beschluss der Kultusministerkonferenz vom 16.12.2004. 2004. Available online: http://www.kmk.org/fileadmin/veroeffentlichungen_beschluesse/2004/2004_12_16-Standards-Lehrerbildung.pdf (accessed on 15 March 2012).
  68. Wilson, P.; Tan, G.-C.I. Singapore teachers’ personal and general efficacy for teaching primary social studies. Int. Res. Geogr. Environ. Educ. 2004, 13, 209–222. [Google Scholar] [CrossRef]
  69. de la Torre Cruz, M.J.; Arias, P.F.C. Comparative analysis of expectancies of efficacy in inservice and prospective teachers. Teach. Teach. Educ. 2007, 23, 641–652. [Google Scholar] [CrossRef]
  70. Artelt, C.; Gräsel, C. Diagnostic Competence of Teachers. Z. Für Pädagogische Psychol. 2009, 23, 157–160. [Google Scholar] [CrossRef]
  71. Schwarz, B.; Wissmach, B.; Kaiser, G. Last Curves not Quite Correct: Diagnostic Competences of the Future Teachers with Regard to Modelling and Graphical Representations. ZDM Math. Educ. 2008, 40, 777–790. [Google Scholar] [CrossRef]
  72. Bauer, J. Learning from Errors at Work. Studies on Nurses’ Engagement in Error Related Learning Activities. Ph.D. Thesis, University of Regensburg, Regensburg, Germany, 2008. Available online: http://epub.uni-regensburg.de/10748/1/diss_veroeff_endversion.pdf (accessed on 19 April 2012).
  73. Bauer, J.; Harteis, C. (Eds.) Human Fallibility—The Ambiguity of Errors for Work and Learning; Springer: Dordrecht, The Netherlands, 2012. [Google Scholar]
  74. Greco, A.M.; Pereda, N.; Guilera, G. Detection and reporting potential child and youth victimization cases from school: The role of knowledge. Child. Youth Serv. Rev. 2020, 119, 105499. [Google Scholar] [CrossRef] [PubMed]
  75. Dawson, V.L.; Zeitz, C.M.; Wright, J.C. Expert-Novice Differences in Person Perception: Evidence of Experts’ Sensitivities to the Organization of Behavior. Soc. Cogn. 1989, 7, 1–30. [Google Scholar] [CrossRef]
  76. Lumpe, A.T.; Czerniak, C.M.; Haney, J.J.; Beltyukova, S. Beliefs about teaching science: The relationship between elementary teachers’ participation in professional development and student achievement. Int. J. Sci. Educ. 2012, 34, 153–166. [Google Scholar] [CrossRef]
  77. Tschannen-Moran, M.; Woolfolk Hoy, A. The differential antecedents of self-efficacy beliefs of novice and experienced teachers. Teach. Teach. Educ. 2007, 23, 944–956. [Google Scholar] [CrossRef]
Education 11 00769 g001 550
Figure 1. Dimensions of professional standards as defined by Oser (adapted from Baer et al., 2011).
Figure 1. Dimensions of professional standards as defined by Oser (adapted from Baer et al., 2011).
Education 11 00769 g001
Education 11 00769 g002 550
Figure 2. Average scores of self-assessment and educational needs of pre-primary teachers in dimensions D1–D4 (Mean ± SD). Note: items marked with * differ statistically significantly at the 0.05 significance level, items marked with *** differ statistically significantly at the 0.001 significance level.
Figure 2. Average scores of self-assessment and educational needs of pre-primary teachers in dimensions D1–D4 (Mean ± SD). Note: items marked with * differ statistically significantly at the 0.05 significance level, items marked with *** differ statistically significantly at the 0.001 significance level.
Education 11 00769 g002
Table
Table 1. Correlation coefficients for similar and different items.
Table 1. Correlation coefficients for similar and different items.
Dimensions of Professional StandardsConvergent ItemsDiscriminatory Items
Pearson s   R p Pearson s   R p
Self-assessmentContent knowledge0.167<0.001−0.0620.182
Diagnostic knowledge0.233<0.001−0.0110.882
Didactical knowledge0.156<0.0010.0060.218
Classroom management knowledge0.164<0.001−0.0550.309
Table
Table 2. Average score of self-assessment and educational needs of teachers in dimension D1 ‘Content knowledge’ by length of practice.
Table 2. Average score of self-assessment and educational needs of teachers in dimension D1 ‘Content knowledge’ by length of practice.
Length of PracticeNSelf-Assessment Educational Needs
(Years) MSD MSD
0–51252.7940.664a2.8400.664a
6–10712.9010.576ab2.9150.629a
11–15492.9380.465ab2.8200.565ab
16–20672.8650.601ab2.6780.703ab
21 and more2493.0290.588b2.6250.649b
Note: values marked with different letters (a, b) differ significantly based on the results of post-hoc pairwise comparison by Dunn test (p < 0.05).
Table
Table 3. Average score of self-assessment and educational needs of teachers in dimension D2 ‘Diagnostic knowledge’ by length of practice.
Table 3. Average score of self-assessment and educational needs of teachers in dimension D2 ‘Diagnostic knowledge’ by length of practice.
Length of Practice (Years)NSelf-Efficacy (M)Self-Efficacy
(SD)		 Educational Needs
(M)		Educational Needs (SD)
0–51252.4610.545a2.9730.579a
6–10712.7700.509b2.9250.581a
11–15492.7620.545b2.8880.469a
16–20672.6910.527ab2.8170.619a
21 and more 2492.8860.468b2.7970.563a
Note: values marked with different letters (a, b) differ significantly based on the results of post-hoc pairwise comparison by Dunn test (p < 0.05) for self-assessment. The difference between groups was not significant in the case of educational needs.
Table
Table 4. Average score of self-assessment and educational needs of teachers in dimension D3 ‘Didactical knowledge’ by length of practice.
Table 4. Average score of self-assessment and educational needs of teachers in dimension D3 ‘Didactical knowledge’ by length of practice.
Length of Practice (Years)NSelf-Assessment
(M)		Self-Assessment
(SD)		 Educational Needs
(M)		Educational Needs
(SD)
0–51252.7690.543a2.8960.587a
6–10712.9890.473ab2.8830.563ab
11–15493.0150.431ab2.8570.553ab
16–20673.0240.476b2.7520.684ab
21 and more 2493.2280.458c2.6860.605b
Note: values marked with different letters (a, b, c) differ significantly based on the results of post-hoc pairwise comparison by Dunn test (p < 0.05).
Table
Table 5. Average score of self-assessment and educational needs of teachers in dimension D4 ‘Classroom management knowledge ‘according to the length of practice.
Table 5. Average score of self-assessment and educational needs of teachers in dimension D4 ‘Classroom management knowledge ‘according to the length of practice.
Length of Practice
(Years)		NSelf-Assessment
(M)		Self-Assessment
(SD)		 Educational Needs
(M)		Educational Needs
(SD)
0–51252.9320.593a2.8180.621a
6–10713.0600.450a2.8080.581ab
11–15493.0910.444a2.7580.573ab
16–20673.0900.439a2.6730.657ab
21 and more2493.3330.438b2.5900.627a
Note: values marked with different letters (a, b) differ significantly based on the results of post-hoc pairwise comparison by Dunn test (p < 0.05).
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Pupíková, E.; Gonda, D.; Páleníková, K.; Medová, J.; Kolárová, D.; Tirpáková, A. How Kindergarten Teachers Assess Their Own Professional Competencies. Educ. Sci. 2021, 11, 769. https://0-doi-org.brum.beds.ac.uk/10.3390/educsci11120769

AMA Style

Pupíková E, Gonda D, Páleníková K, Medová J, Kolárová D, Tirpáková A. How Kindergarten Teachers Assess Their Own Professional Competencies. Education Sciences. 2021; 11(12):769. https://0-doi-org.brum.beds.ac.uk/10.3390/educsci11120769

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Pupíková, Eva, Dalibor Gonda, Kitti Páleníková, Janka Medová, Dana Kolárová, and Anna Tirpáková. 2021. "How Kindergarten Teachers Assess Their Own Professional Competencies" Education Sciences 11, no. 12: 769. https://0-doi-org.brum.beds.ac.uk/10.3390/educsci11120769

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