Teacher Insights and Performance Assessments: Tracing High Academic Potential in Early Greek Education
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| Title: | Teacher Insights and Performance Assessments: Tracing High Academic Potential in Early Greek Education |
|---|---|
| Language: | English |
| Authors: | Eleni Rachanioti (ORCID |
| Source: | Journal of Advanced Academics. 2026 37(2):191-219. |
| Availability: | SAGE Publications. 2455 Teller Road, Thousand Oaks, CA 91320. Tel: 800-818-7243; Tel: 805-499-9774; Fax: 800-583-2665; e-mail: journals@sagepub.com; Web site: https://sagepub.com |
| Peer Reviewed: | Y |
| Page Count: | 29 |
| Publication Date: | 2026 |
| Document Type: | Journal Articles Reports - Research |
| Education Level: | Early Childhood Education Elementary Education Kindergarten Primary Education |
| Descriptors: | Foreign Countries, Academically Gifted, Preschool Children, Kindergarten, Performance Based Assessment, Rating Scales, Test Reliability, Intelligence Tests, Academic Ability, Verbal Ability, Nonverbal Ability, Numeracy, Academic Aptitude, Psychometrics, Creativity, Motivation |
| Geographic Terms: | Greece |
| Assessment and Survey Identifiers: | Raven Progressive Matrices |
| DOI: | 10.1177/1932202X251413042 |
| ISSN: | 1932-202X 2162-9536 |
| Abstract: | The aim of this study was to examine the reliability of the Gifted Rating Scales-Preschool/Kindergarten form (GRS-P) and its relationship with performance assessments in a sample of Greek preschool children. In the initial screening, 60 high-potential children were nominated by their teachers using the GRS-P. In a second phase, these children were assessed for nonverbal intelligence, verbal skills, and early numeracy, with 50 children eventually being identified after excluding those who did not meet criteria. Findings revealed high reliability and internal consistency across all GRS-P subscales. Significant positive correlations were found between the GRS-P Intellectual and Academic Ability subscales and nonverbal intelligence, while verbal ability positively correlated with the GRS-P Academic subscale. Additionally, Motivation subscale correlated significantly with nonverbal intelligence and showed a nonsignificant relationship with Academic Ability scale and Early Numeracy. The study's findings highlight implications for educational policy supporting high-ability preschoolers in both Greek and international contexts. |
| Abstractor: | As Provided |
| Entry Date: | 2026 |
| Accession Number: | EJ1504367 |
| Database: | ERIC |
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| FullText | Links: – Type: pdflink Url: https://content.ebscohost.com/cds/retrieve?content=AQICAHj0k_4E0hTGH8RJwT4gCJyBsGNe_WN95AvKlDbXJGqwxwFxmboik3tgrlLgfROVpgmfAAAA4zCB4AYJKoZIhvcNAQcGoIHSMIHPAgEAMIHJBgkqhkiG9w0BBwEwHgYJYIZIAWUDBAEuMBEEDClWq9A6gMTzfqJH4AIBEICBm2lw0IGda8mlY75nYZZYdyWm6HT-GTvGFhftT-CoXzphVaDmTP6sj0ioMfXZDtEJrXivzM6nXIZyFgVtJ7bLatkEGN3CDx6lNGtQazEWjjknn92fGVuIxlUDxDdeMAOUdoxPhVZuVic-9NTZbe-QO5MXwZAAp8Qo4JKpdx66Ci6eERuJt4REE9WXLYP5uQ-bIP13REKz19WGMOrz Text: Availability: 1 Value: <anid>AN0193364114;[261p]01may.26;2026May04.05:11;v2.2.500</anid> <title id="AN0193364114-1">Teacher Insights and Performance Assessments: Tracing High Academic Potential in Early Greek Education </title> <p>The aim of this study was to examine the reliability of the Gifted Rating Scales-Preschool/Kindergarten form (GRS-P) and its relationship with performance assessments in a sample of Greek preschool children. In the initial screening, 60 high-potential children were nominated by their teachers using the GRS-P. In a second phase, these children were assessed for nonverbal intelligence, verbal skills, and early numeracy, with 50 children eventually being identified after excluding those who did not meet criteria. Findings revealed high reliability and internal consistency across all GRS-P subscales. Significant positive correlations were found between the GRS-P Intellectual and Academic Ability subscales and nonverbal intelligence, while verbal ability positively correlated with the GRS-P Academic subscale. Additionally, Motivation subscale correlated significantly with nonverbal intelligence and showed a nonsignificant relationship with Academic Ability scale and Early Numeracy. The study's findings highlight implications for educational policy supporting high-ability preschoolers in both Greek and international contexts.</p> <p>Keywords: teachers' nominations; early childhood; high academic potential; performance assessements; reliability</p> <hd id="AN0193364114-2">Introduction</hd> <p>The identification of high-ability/gifted children has been a controversial issue in the field ([<reflink idref="bib1" id="ref1">1</reflink>]; [<reflink idref="bib80" id="ref2">80</reflink>]). Giftedness has been described through numerous terms and models, ranging from IQ-based definitions to multifactorial approaches considering broader traits and abilities ([<reflink idref="bib14" id="ref3">14</reflink>]; [<reflink idref="bib45" id="ref4">45</reflink>]; [<reflink idref="bib79" id="ref5">79</reflink>], [<reflink idref="bib80" id="ref6">80</reflink>]; [<reflink idref="bib87" id="ref7">87</reflink>]; [<reflink idref="bib106" id="ref8">106</reflink>]). This reflects a continuum from conservative, IQ-focused views to more inclusive perspectives aligned with contemporary practices ([<reflink idref="bib92" id="ref9">92</reflink>]). Recent conceptions emphasize dynamic person–environment interactions over fixed traits ([<reflink idref="bib92" id="ref10">92</reflink>]; [<reflink idref="bib108" id="ref11">108</reflink>]), with definitional variability continuing to fuel debate ([<reflink idref="bib13" id="ref12">13</reflink>]).</p> <p>Gifted identification methods are generally divided into performance-based (e.g., intelligence and achievement tests) and nonperformance-based approaches (e.g., teacher/parent nominations, rating scales, self- and peer-ratings) ([<reflink idref="bib43" id="ref13">43</reflink>]; [<reflink idref="bib126" id="ref14">126</reflink>]). Contemporary guidelines recommend using multiple evidence sources and allowing flexibility across both types of methods ([<reflink idref="bib19" id="ref15">19</reflink>]; [<reflink idref="bib71" id="ref16">71</reflink>]; [<reflink idref="bib106" id="ref17">106</reflink>]).</p> <p>In clinical contexts, high IQ remains the main criterion for identifying giftedness ([<reflink idref="bib81" id="ref18">81</reflink>]) and serves as a baseline for recognizing high ability students ([<reflink idref="bib24" id="ref19">24</reflink>]; [<reflink idref="bib94" id="ref20">94</reflink>]). Gifted individuals are typically defined as those in the top 3% to 5% in intelligence, academics, the arts, and leadership. This means that inherently, intelligence is used as the measurement tool for identifying gifted students ([<reflink idref="bib59" id="ref21">59</reflink>]). Using an IQ cutoff of 130 excludes those with scores like 120 or 125, despite the arbitrary nature of such thresholds (Pfeiffer, 2015b). Since there is no clear boundary between gifted and nongifted, some propose broader criteria, including the top 10% to 15% ([<reflink idref="bib81" id="ref22">81</reflink>]; [<reflink idref="bib128" id="ref23">128</reflink>]), aligning with NAGC's "top 10% or rarer" definition ([<reflink idref="bib69" id="ref24">69</reflink>]). Consequently, IQ cut scores of 120, 125, or 130 are widely used in practice ([<reflink idref="bib80" id="ref25">80</reflink>]; [<reflink idref="bib96" id="ref26">96</reflink>]; [<reflink idref="bib104" id="ref27">104</reflink>]).</p> <hd id="AN0193364114-3">High Academic Potential in the Preschool Educational Context and Formal Identification</hd> <p>Giftedness is typically associated with high academic achievement and above-average potential ([<reflink idref="bib28" id="ref28">28</reflink>]; [<reflink idref="bib65" id="ref29">65</reflink>]; [<reflink idref="bib78" id="ref30">78</reflink>]), with general intelligence considered the strongest predictor of academic performance ([<reflink idref="bib17" id="ref31">17</reflink>]; [<reflink idref="bib122" id="ref32">122</reflink>]; [<reflink idref="bib130" id="ref33">130</reflink>]). As a result, intelligence remains the primary defining criterion in giftedness research ([<reflink idref="bib7" id="ref34">7</reflink>]; [<reflink idref="bib81" id="ref35">81</reflink>]), given its reliable measurement compared to less robust constructs like creativity or motivation ([<reflink idref="bib22" id="ref36">22</reflink>]).</p> <p>Preschool children with high academic potential often show accelerated cognitive development, advanced vocabulary as well as numeracy skills ([<reflink idref="bib50" id="ref37">50</reflink>]; [<reflink idref="bib51" id="ref38">51</reflink>]; [<reflink idref="bib88" id="ref39">88</reflink>]; [<reflink idref="bib112" id="ref40">112</reflink>]). However, early identification remains controversial due to definitional disagreements, limited reliable screening tools and instability of test scores in early years ([<reflink idref="bib10" id="ref41">10</reflink>]; [<reflink idref="bib32" id="ref42">32</reflink>]; [<reflink idref="bib33" id="ref43">33</reflink>]; [<reflink idref="bib42" id="ref44">42</reflink>]; [<reflink idref="bib72" id="ref45">72</reflink>]; [<reflink idref="bib85" id="ref46">85</reflink>]; [<reflink idref="bib121" id="ref47">121</reflink>]). Stability improves after age four, with measures predicting later achievement ([<reflink idref="bib15" id="ref48">15</reflink>]) and test authors agree that giftedness can be identified before age five or six ([<reflink idref="bib118" id="ref49">118</reflink>]).</p> <p>Identification of gifted children involves both formal and informal methods, with potential developing at different rates depending on the individual ([<reflink idref="bib47" id="ref50">47</reflink>]). Early identification enables alignment of strengths and interests with meaningful learning opportunities in inclusive settings ([<reflink idref="bib48" id="ref51">48</reflink>]). An international scoping review highlighted themes such as conceptualizing giftedness, equitable opportunities, identification strategies, stakeholder collaboration and teacher training as central to effective inclusion ([<reflink idref="bib68" id="ref52">68</reflink>]). The NAGC Pre-K–Grade 12 Standards emphasize recognizing students' diverse abilities through varied assessments and supportive environments that foster social, emotional, and psychosocial growth ([<reflink idref="bib23" id="ref53">23</reflink>]; [<reflink idref="bib48" id="ref54">48</reflink>]).</p> <p>Giftedness has evolved from intelligence-based definitions to multidimensional, contextual conceptions that include creativity, motivation, effort and social skills alongside cognitive ability ([<reflink idref="bib93" id="ref55">93</reflink>]; [<reflink idref="bib106" id="ref56">106</reflink>]; [<reflink idref="bib109" id="ref57">109</reflink>]; [<reflink idref="bib114" id="ref58">114</reflink>]; [<reflink idref="bib125" id="ref59">125</reflink>]; [<reflink idref="bib126" id="ref60">126</reflink>]). Contemporary theorists emphasize broader criteria beyond IQ, highlighting achievement, motivation and domain-specific engagement ([<reflink idref="bib38" id="ref61">38</reflink>]; [<reflink idref="bib95" id="ref62">95</reflink>]; [<reflink idref="bib110" id="ref63">110</reflink>]; [<reflink idref="bib111" id="ref64">111</reflink>]). However, the evolving definition of giftedness has shaped assessment practices, moving from intelligence and achievement tests ([<reflink idref="bib80" id="ref65">80</reflink>]; [<reflink idref="bib126" id="ref66">126</reflink>]) to broader methods such as teacher and parent rating scales, peer assessments, and student portfolios ([<reflink idref="bib1" id="ref67">1</reflink>]; [<reflink idref="bib19" id="ref68">19</reflink>]; [<reflink idref="bib106" id="ref69">106</reflink>]). Researchers recommend staged identification, beginning with teacher assessments as brief screening tools and followed by standardized testing for more precise evaluation ([<reflink idref="bib2" id="ref70">2</reflink>]; [<reflink idref="bib94" id="ref71">94</reflink>]).</p> <p>With respect to teacher rating scales, these instruments provide structured insights into diverse characteristics of giftedness not captured by cognitive tests, making them valuable tools for identification ([<reflink idref="bib8" id="ref72">8</reflink>]; [<reflink idref="bib56" id="ref73">56</reflink>]; [<reflink idref="bib84" id="ref74">84</reflink>]). Commonly used instruments include the SRBCSS ([<reflink idref="bib97" id="ref75">97</reflink>]), GRS ([<reflink idref="bib83" id="ref76">83</reflink>]), GATES ([<reflink idref="bib30" id="ref77">30</reflink>]), SIGS ([<reflink idref="bib101" id="ref78">101</reflink>]), and HOPE Scale ([<reflink idref="bib29" id="ref79">29</reflink>]).</p> <p>Two prevailing perspectives dominate the use of teacher ratings in identifying giftedness: while some highlight teachers' nuanced insights into student abilities ([<reflink idref="bib120" id="ref80">120</reflink>]), others stress risks of bias that may lead to disproportionality ([<reflink idref="bib26" id="ref81">26</reflink>]; [<reflink idref="bib34" id="ref82">34</reflink>]; [<reflink idref="bib57" id="ref83">57</reflink>]). Teacher conceptions, biases, and factors such as behavior, gender, prior achievement, and special education status influence ratings ([<reflink idref="bib36" id="ref84">36</reflink>]; [<reflink idref="bib64" id="ref85">64</reflink>]). In addition, the "halo effect" bias may also impact how teachers assess students ([<reflink idref="bib100" id="ref86">100</reflink>]). [<reflink idref="bib25" id="ref87">25</reflink>] proposed three possible explanations for this phenomenon: one, teachers may form an overall general impression of a student that colors all ratings; two, a single prominent trait may disproportionately influence evaluations across various attributes; and three, teachers might struggle to clearly distinguish between different traits conceptually. Research has often shown that the correlations between different characteristics rated by teachers have been frequently found to be higher than the correlations between corresponding student data such as tests ([<reflink idref="bib54" id="ref88">54</reflink>]; [<reflink idref="bib116" id="ref89">116</reflink>]). Variability in how teachers conceptualize giftedness and apply rating scales further leads to inconsistencies across raters, as scores reflect both student characteristics and teacher-related factors, making them inherently nonindependent ([<reflink idref="bib62" id="ref90">62</reflink>]). Reliability is also complicated by inter-rater variability and potential bias in equitable identification. Teacher effectiveness may also influence scores, since students of more effective educators often show higher achievement and cognitive development ([<reflink idref="bib62" id="ref91">62</reflink>]). To address these issues, teacher training and frequent professional development are needed to standardize scale use and reduce between-teacher variance, which contributes to inequity and underrepresentation in gifted education ([<reflink idref="bib62" id="ref92">62</reflink>]; [<reflink idref="bib97" id="ref93">97</reflink>]).</p> <p>With regard to the effectiveness of teacher rating scales, research suggests that when teachers possess a well-defined understanding of giftedness and its behavioral manifestations, their evaluations are more accurate and inclusive ([<reflink idref="bib18" id="ref94">18</reflink>]; [<reflink idref="bib20" id="ref95">20</reflink>]; [<reflink idref="bib37" id="ref96">37</reflink>]; [<reflink idref="bib53" id="ref97">53</reflink>]; [<reflink idref="bib60" id="ref98">60</reflink>]; [<reflink idref="bib65" id="ref99">65</reflink>]). Accordingly, educators working with gifted learners need training in recognizing the characteristics of giftedness, supported by continuous, research-based professional development ([<reflink idref="bib53" id="ref100">53</reflink>]; [<reflink idref="bib97" id="ref101">97</reflink>]). Such development should include diversity-responsive and inclusive practices, access to sufficient resources, engagement in professional learning communities, application of research on psychosocial growth, development of culturally relevant curricula, critical examination of personal and historical biases, and commitment to ethical principles that advance equity and access ([<reflink idref="bib48" id="ref102">48</reflink>]). With this preparation, teachers can better nurture students' strengths, interests, and developmental differences by creating instructional practices and environments that showcase varied abilities. Moreover, by integrating formative and summative assessments that are aligned with students' interests, educators can create learning opportunities that foster the social, emotional, and psychosocial competencies essential for the development of giftedness ([<reflink idref="bib23" id="ref103">23</reflink>]).</p> <hd id="AN0193364114-4">The Theoretical Framework of the Study</hd> <p>Pfeiffer's tripartite model (2015), which is a composition of traditional psychometric, developmental, transformational, and ecological models, was used to frame the current study. It offers three different, but complementary ways to conceptualize, identify and program for children with high ability or extraordinary potential. The first uses IQ or cognitive ability tests to identify students significantly above average, based on either general intelligence or multidimensional models like the popular C-H-C model of cognitive abilities ([<reflink idref="bib80" id="ref104">80</reflink>]). The second focuses on outstanding accomplishments, including academic excellence and creativity, emphasizing the need for enriched educational programs for consistently high achievers ([<reflink idref="bib76" id="ref105">76</reflink>]). The third considers unrealized potential in children who haven't had the opportunity to develop their abilities. These students may not excel on standardized tests or meet typical IQ thresholds for giftedness, often scoring between 110–115. These categories are not mutually exclusive ([<reflink idref="bib79" id="ref106">79</reflink>]).</p> <p>Typically, these children have IQs in the 120–130 range or higher and rank among the top performers in their class ([<reflink idref="bib76" id="ref107">76</reflink>]). This study adopts a developmental, inclusionary approach aligned with Pfeiffer's model, defining "high ability" as the top 10% of preschoolers with the potential to excel beyond their peers ([<reflink idref="bib80" id="ref108">80</reflink>], [<reflink idref="bib81" id="ref109">81</reflink>]; [<reflink idref="bib124" id="ref110">124</reflink>]; [<reflink idref="bib128" id="ref111">128</reflink>]). Adopting a developmental view and an inclusionary approach, the term "high ability" with an emphasis on general intelligence and high academic potential is embraced in this study, aligned with Pfeiffer's tripartite model, to describe the top 10% of the preschool children population with a potential to perform or achieve beyond age-peers ([<reflink idref="bib80" id="ref112">80</reflink>], [<reflink idref="bib81" id="ref113">81</reflink>]; [<reflink idref="bib124" id="ref114">124</reflink>]; [<reflink idref="bib128" id="ref115">128</reflink>]). The terms "high ability" and "gifted" are used sometimes interchangeably in this study, which is common in the field of giftedness.</p> <hd id="AN0193364114-5">The Objectives of the Study</hd> <p>The structure and operation of the Greek educational system lack the administrative, instructional, and pedagogical frameworks necessary for the effective identification and support of gifted students in all dimensions of their development—cognitive, social, psychological, and emotional ([<reflink idref="bib98" id="ref116">98</reflink>]). Moreover, the lack of formal gifted identification programs and organized enrichment initiatives underscores the pressing necessity to implement effective methods for assessing gifted students. Considering that the Gifted Rating Scales-Preschool/Kindergarten form (GRS-P) were originally developed within a different educational and cultural setting, it becomes inevitable to critically assess their relevance and applicability within the Greek context.</p> <p>Therefore the objectives of our study were: (a) to examine the reliability of the Greek version of the GRS-P and (b) to investigate the relationship between teachers' nominations and traditional performance tests.</p> <hd id="AN0193364114-6">Method</hd> <p></p> <hd id="AN0193364114-7">Participants</hd> <p>A total of 36 Greek preschool teachers participated in the study. Specifically, 34 (94.4%) were women and 2 (5.5%) did not declare their gender. Regarding the length of time, they had known the student, whose gifted characteristics were going to evaluate, 20 (55.5%) reported they knew the student more than a year, while 16 (44.5%) from 4 to 6 months. Regarding their teaching experience, 52.8% of the teachers (<emph>N</emph> = 19) had 16 to 20 years of experience, while 30.6% (<emph>N</emph> = 11) had 26 to 30 years of experience. The remaining 16.6% (<emph>N</emph> = 6) fell into the category of 6 to 10 years of experience. 50 preschool children between 5 and 6 years of age (<emph>M</emph> = 62.50 months<emph>, SD</emph><emph>=</emph> 2.65) were identified. The gender ratio in the group was approximately 1:1 (24 male: 26 female). The majority of parents had attained a university-level education (80% of mothers and 60% of fathers). With respect to occupational status, fathers were most frequently employed in the private sector (48%) or self-employed (38%), whereas mothers were predominantly employed in the private sector (38%), followed by self-employment (28%) or unemployment (16%). Socioeconomic classification indicated that most families (86%) belonged to the middle class, while a small proportion were categorized as low (<emph>n</emph> = 4) or upper class (<emph>n</emph> = 3). Since the GRS-P is not weighted in the Greek population, we used raw scores. The mean raw scores in all subscales of GRS-P were above the 84th percentile (Intellectual Ability: <emph>M</emph> = 94.20, <emph>SD</emph><emph>=</emph> 7.10, Academic Ability: <emph>M</emph> = 91.16, <emph>SD</emph><emph>=</emph> 6.87, Creativity: <emph>M</emph> = 80.78, <emph>SD</emph><emph>=</emph> 10.21, Artistic Talent: <emph>M</emph> = 80.84, <emph>SD</emph><emph>=</emph> 18.63<emph>)</emph> indicating high probability of being gifted (GRS-P; [<reflink idref="bib83" id="ref117">83</reflink>]). The mean raw score of Motivation was <emph>M</emph> = 86.76, <emph>SD</emph><emph>=</emph> 15.77 above the 84th percentile, indicating an above average-high probability of being highly motivated as well (Table 1). Motivation is a key factor in the expression of giftedness ([<reflink idref="bib77" id="ref118">77</reflink>]; [<reflink idref="bib91" id="ref119">91</reflink>]). According to the authors' guidelines for the GRS-P, the Motivation score is not used as an eligibility criterion for identifying giftedness, as motivation is not considered a type of giftedness. Instead, the GRS-P Motivation scale measures a student's drive or persistence, desire to succeed, and willingness to work hard (GRS-P; [<reflink idref="bib83" id="ref120">83</reflink>]).</p> <p>Table 1. Characteristics of the Identified High Ability Preschool Children.</p> <p>Graph</p> <p> <ephtml> &lt;table&gt;&lt;colgroup&gt;&lt;col align="left" /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;/colgroup&gt;&lt;thead&gt;&lt;tr&gt;&lt;th align="left" /&gt;&lt;th align="left"&gt;&lt;italic&gt;N&lt;/italic&gt;&lt;/th&gt;&lt;th align="left"&gt;Minimum&lt;/th&gt;&lt;th align="left"&gt;Maximum&lt;/th&gt;&lt;th align="left"&gt;Mean&lt;/th&gt;&lt;th align="left"&gt;Std. Deviation&lt;/th&gt;&lt;/tr&gt;&lt;/thead&gt;&lt;tbody&gt;&lt;tr&gt;&lt;td&gt;Age (months)&lt;/td&gt;&lt;td&gt; 50&lt;/td&gt;&lt;td&gt;58&lt;/td&gt;&lt;td&gt;68&lt;/td&gt;&lt;td&gt;62,50&lt;/td&gt;&lt;td&gt;2,65&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Intellectual Ability&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;81&lt;/td&gt;&lt;td&gt;108&lt;/td&gt;&lt;td&gt;94.20&lt;/td&gt;&lt;td&gt;7.10&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Academic Ability&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;77&lt;/td&gt;&lt;td&gt;107&lt;/td&gt;&lt;td&gt;91.16&lt;/td&gt;&lt;td&gt;6.87&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Creativity&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;59&lt;/td&gt;&lt;td&gt;103&lt;/td&gt;&lt;td&gt;80.78&lt;/td&gt;&lt;td&gt;10.21&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Artistic Talent&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;20&lt;/td&gt;&lt;td&gt;106&lt;/td&gt;&lt;td&gt;80.84&lt;/td&gt;&lt;td&gt;18.63&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Motivation&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;39&lt;/td&gt;&lt;td&gt;106&lt;/td&gt;&lt;td&gt;86.76&lt;/td&gt;&lt;td&gt;15.77&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;CPM&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;20&lt;/td&gt;&lt;td&gt;28&lt;/td&gt;&lt;td&gt;24.24&lt;/td&gt;&lt;td&gt;2.11&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;CVS&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;57&lt;/td&gt;&lt;td&gt;97&lt;/td&gt;&lt;td&gt;71.34&lt;/td&gt;&lt;td&gt;8.32&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;E. Math. Competence&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;16&lt;/td&gt;&lt;td&gt;39&lt;/td&gt;&lt;td&gt;31.42&lt;/td&gt;&lt;td&gt;4.22&lt;/td&gt;&lt;/tr&gt;&lt;/tbody&gt;&lt;/table&gt; </ephtml> </p> <p>1 <emph>Note. N</emph> = 50. Descriptive statistics are presented for age (in months), GRS-P subscales, CPM, CVS and Early Mathematical Competence.</p> <p>Children's raw scores were used in both Colored Progressive Matrices (CPM) and Crichton Vocabulary Scales (CVS) to gauge their actual abilities, not those relative to the norming sample and avoid ceiling effects based on <emph>t</emph>-scores. Besides, the tests were not designed to address high ability children ([<reflink idref="bib3" id="ref121">3</reflink>]; [<reflink idref="bib4" id="ref122">4</reflink>]).</p> <p>Mean raw scores were at or above the 91st percentile equivalent with a standardized score of IQ ≥ 120 in CPM and CVS measures in the Greek population (CPM: <emph>M</emph> = 24.24, <emph>SD</emph><emph>=</emph> 2.11 and CVS: <emph>M</emph> = 71.34, <emph>SD</emph><emph>=</emph> 8.32), since it was one of the eligibility criteria for the participants to be identified with high ability. In addition, the mean raw score at the Utrecht ENT ([<reflink idref="bib6" id="ref123">6</reflink>]; [<reflink idref="bib119" id="ref124">119</reflink>]) was at or above the 91st percentile as it corresponded to Level A (<emph>M</emph> = 31.42, <emph>SD</emph><emph>=</emph> 4.22), since it was again one of the eligibility criteria for the participant to be identified as highly able (see Table 1).</p> <p>The presence of large ranges and standard deviations, particularly in the GRS-P Artistic Talent, Motivation, and Creativity scales suggests that the group is not homogeneous, implying variability. Indeed, the population of high-ability children is not homogeneous but a diverse group with varying abilities and potentials in one or many domains ([<reflink idref="bib11" id="ref125">11</reflink>]; [<reflink idref="bib41" id="ref126">41</reflink>]; [<reflink idref="bib44" id="ref127">44</reflink>]).</p> <p>In contrast, CPM, CVS, Early Mathematical Competence Test, GRS-P Intellectual Ability and GRS-P Academic Ability show tighter distributions with narrower ranges and lower standard deviations, implying more consistency. Owing to the wide range of scores and the potential influence of outliers—particularly at the lower end of certain scales—the data were transformed into <emph>z</emph>-scores ([<reflink idref="bib5" id="ref128">5</reflink>]) to facilitate direct comparisons across measures with differing scales and distributions (Table 2).</p> <p>Table 2. Characteristics of the Identified High Ability Preschool Children (Z -Scores).</p> <p>Graph</p> <p> <ephtml> &lt;table&gt;&lt;colgroup&gt;&lt;col align="left" /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;/colgroup&gt;&lt;thead&gt;&lt;tr&gt;&lt;th align="left" /&gt;&lt;th align="left"&gt;&lt;italic&gt;N&lt;/italic&gt;&lt;/th&gt;&lt;th align="left"&gt;Minimum&lt;/th&gt;&lt;th align="left"&gt;Maximum&lt;/th&gt;&lt;th align="left"&gt;Mean&lt;/th&gt;&lt;th align="left"&gt;Std. Deviation&lt;/th&gt;&lt;/tr&gt;&lt;/thead&gt;&lt;tbody&gt;&lt;tr&gt;&lt;td&gt;Age (months)&lt;/td&gt;&lt;td&gt; 50&lt;/td&gt;&lt;td&gt;58&lt;/td&gt;&lt;td&gt;68&lt;/td&gt;&lt;td&gt;62.50&lt;/td&gt;&lt;td&gt;2.65&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Intellectual Ability&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;&amp;#8722;1.85&lt;/td&gt;&lt;td&gt;1.94&lt;/td&gt;&lt;td&gt;&amp;#8722;.0004&lt;/td&gt;&lt;td&gt;.98&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Academic Ability&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;&amp;#8722;2.06&lt;/td&gt;&lt;td&gt;2.30&lt;/td&gt;&lt;td&gt;&amp;#8722;.0004&lt;/td&gt;&lt;td&gt;.99&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Creativity&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;&amp;#8722;2.13&lt;/td&gt;&lt;td&gt;2.17&lt;/td&gt;&lt;td&gt;.0006&lt;/td&gt;&lt;td&gt;.99&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Artistic Talent&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;&amp;#8722;3.26&lt;/td&gt;&lt;td&gt;1.35&lt;/td&gt;&lt;td&gt;&amp;#8722;.0006&lt;/td&gt;&lt;td&gt;.98&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS -P Motivation&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;&amp;#8722;3.02&lt;/td&gt;&lt;td&gt;1.21&lt;/td&gt;&lt;td&gt;&amp;#8722;.0012&lt;/td&gt;&lt;td&gt;.98&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;CPM&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;&amp;#8722;2.00&lt;/td&gt;&lt;td&gt;1.77&lt;/td&gt;&lt;td&gt;.0000&lt;/td&gt;&lt;td&gt;.98&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;CVS&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;&amp;#8722;1.72&lt;/td&gt;&lt;td&gt;3.08&lt;/td&gt;&lt;td&gt;&amp;#8722;.0030&lt;/td&gt;&lt;td&gt;.99&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;E. Math. Competence&lt;/td&gt;&lt;td&gt;50&lt;/td&gt;&lt;td&gt;&amp;#8722;3.64&lt;/td&gt;&lt;td&gt;1.79&lt;/td&gt;&lt;td&gt;.0006&lt;/td&gt;&lt;td&gt;.98&lt;/td&gt;&lt;/tr&gt;&lt;/tbody&gt;&lt;/table&gt; </ephtml> </p> <p>2 <emph>Note. N</emph> = 50. Descriptive statistics are presented for age (in months), GRS-P subscales, CPM, CVS, and Early Mathematical Competence (<emph>Z</emph>-scores).</p> <hd id="AN0193364114-8">Measures</hd> <p></p> <hd id="AN0193364114-9">Gifted Rating Scales-Preschool/Kindergarten Form</hd> <p>The GRS-P, standardized with the WPPSI-III ([<reflink idref="bib123" id="ref129">123</reflink>]), is designed for children aged 4:0 to 6:11 and aligns with [<reflink idref="bib80" id="ref130">80</reflink>] tripartite model of giftedness ([<reflink idref="bib83" id="ref131">83</reflink>]). It comprises five scales—Intellectual Ability, Academic Ability, Creativity, Artistic Talent, and Motivation—each containing 12 teacher-rated items on a 9-point scale. Raw scores are converted to age-based <emph>t</emph>-scores, with higher scores indicating greater likelihood of giftedness. Specifically, a <emph>t</emph>-score below 55 (&lt;69th percentile) suggests a low probability of giftedness, a score between 55 and 59 (69th–83rd percentile) indicates a moderate probability, a score between 60 and 69 (84th–97th percentile) reflects a high probability and a score of 70 or above (98th percentile and above) indicates a very high probability. Research has established the reliability and validity of the GRS-P ([<reflink idref="bib8" id="ref132">8</reflink>]; [<reflink idref="bib49" id="ref133">49</reflink>]; [<reflink idref="bib105" id="ref134">105</reflink>]). The Greek version was adapted by [<reflink idref="bib115" id="ref135">115</reflink>] and validated in two samples by [<reflink idref="bib107" id="ref136">107</reflink>], demonstrating excellent internal consistency and sound factorial, convergent, and discriminant validity. Permission for use and reproduction was granted by Multi-Health Systems Inc., Toronto, Canada.</p> <hd id="AN0193364114-10">Raven's Educational</hd> <p>The Greek standardized version of Raven's Educational ([<reflink idref="bib102" id="ref137">102</reflink>]) was used to assess the nonverbal and verbal ability of high-ability preschool children. It is based on the English version of [<reflink idref="bib90" id="ref138">90</reflink>] and assesses nonverbal aspects of general cognitive ability, while vocabulary test measures aspects of general cognitive ability in a verbal context. It consists of the CPM [<emph>α</emph> =.90] and the CVS [<emph>α</emph> =.98], both of which can be used separately. The administration of the two scales is individual and they are intended for children up to 11 years old. Cronbach's alpha coefficient was calculated to assess reliability of CPM and CVS in our sample. Overall, Cronbach alpha for the CPM was.87 and for the CVS was.85. The mean CPM raw score was <emph>M</emph> = 24.24, <emph>SD</emph><emph>=</emph> 2.11, with scores spanning from a minimum of 20 to a maximum of 28, corresponding to standardized scores ranging from 120 to 140. Regarding CVS, the mean raw score was <emph>M</emph> = 71,34, <emph>SD</emph><emph>=</emph> 8,32, with scores spanning from a minimum of 57 to a maximum of 97, corresponding to standardized scores ranging from 120 to 140. Permission was granted by the publisher.</p> <hd id="AN0193364114-11">Utrecht Early Mathematical Competence Test [Early NumeracyTest]</hd> <p>The early numeracy of high ability preschool children was assessed with the standardized psychometric Criterion of Early Mathematical Competence of Utrecht (Utrecht Early Mathematical Competence Test), for children 4.00–7.05 ([<reflink idref="bib6" id="ref139">6</reflink>]; [<reflink idref="bib119" id="ref140">119</reflink>]). It is an untimed, individually administered 40-item assessment of young children's math skills, covering eight domains: concepts of comparison, classification, one-to-one correspondence, seriation, use of number words, structured counting, resultative counting, and general understanding of numbers. The mean Cronbach's alpha for the Utrecht Early Mathematical Competence Test was.87 in our sample. The mean raw score was <emph>M</emph> = 31.42, <emph>SD</emph><emph>=</emph> 4.22, with scores spanning from a minimum of 16 to a maximum of 39.</p> <hd id="AN0193364114-12">Procedure</hd> <p>The study was conducted in eight public and seven private schools in the urban area of Thessaloniki in Central Macedonia, Greece during February and March 2023. Four hundred and forty-five (<reflink idref="bib445" id="ref141">445</reflink>) children attended public schools and 355 children attended private schools, forming a pool of 800 children, ranging between 5 and 6 years. A total of 36 teachers participated in the nomination process.</p> <p>A multi-criteria evaluation in phases was applied ([<reflink idref="bib2" id="ref142">2</reflink>]; [<reflink idref="bib12" id="ref143">12</reflink>]; [<reflink idref="bib94" id="ref144">94</reflink>]). Best practices for assessment of high intellectual and academic potential or potential to excel in young children recommend the use of developmentally appropriate assessment instruments as screeners before further assessment is implemented ([<reflink idref="bib21" id="ref145">21</reflink>]; [<reflink idref="bib67" id="ref146">67</reflink>]).</p> <p>Hence, in the 1st screening phase, teachers' nominations were used as screening tools. Initially, the Principals and the teaching staff of all 15 schools gave their written informed consent and this was ensured by providing them with clear written and verbal information about the research and the planned use of data. Next, a letter introducing the purpose of the study and a written consent form were sent to parents, while confidentiality and protection of data were also ensured for its archiving. Following written parental consent, teachers were invited to complete the Greek version of the GRS-P([<reflink idref="bib83" id="ref147">83</reflink>]; [<reflink idref="bib107" id="ref148">107</reflink>]; [<reflink idref="bib115" id="ref149">115</reflink>]) for children who were thought to display a potential for high ability.</p> <p>In the second screening phase, further assessment was implemented. The 60 children underwent performance assessments evaluating their nonverbal intelligence (Raven's CPM: [<reflink idref="bib90" id="ref150">90</reflink>]; [<reflink idref="bib102" id="ref151">102</reflink>]), their ability in the verbal domain (Raven's CVS: [<reflink idref="bib90" id="ref152">90</reflink>]; [<reflink idref="bib102" id="ref153">102</reflink>]) and their early numeracy (Utrecht Early Numeracy Test [ENT] : [<reflink idref="bib6" id="ref154">6</reflink>]; [<reflink idref="bib119" id="ref155">119</reflink>]), thus assessing their academic potential. Two of the authors, both certified in administering the measures, conducted the assessments.</p> <p>The aforementioned measures were used as the criteria for validation of the teachers' nominations. Fluid intelligence reflects the most commonly accepted component of giftedness among the various giftedness conceptions ([<reflink idref="bib75" id="ref156">75</reflink>]; [<reflink idref="bib113" id="ref157">113</reflink>]), especially in early childhood ([<reflink idref="bib9" id="ref158">9</reflink>]; [<reflink idref="bib103" id="ref159">103</reflink>]). The CVS and the ENT represent salient measures of academic potential and are relevant indicators as well for early giftedness ([<reflink idref="bib127" id="ref160">127</reflink>]). Besides, all the distinguished test authors who participated in [<reflink idref="bib118" id="ref161">118</reflink>] study- examining their perspectives on giftedness—stated that giftedness can be identified before the age of 5 or 6 and they provided explanations supporting this view. Five notable themes emerged from the authors' open-ended responses: (a) strong verbal, communication and language skills are measurable in young high-ability learners; (b) the reliability of early childhood assessment is respected; (c) creativity and conative traits are important considerations in early childhood; (d) the authors' theoretical perspectives and personal experiences support early identification of high-ability children; and (e) early identification depends on how giftedness is defined. Based on the aforementioned findings and considering the absence of ability tests for preschool children in Greece, we proceeded with administering the available measures that were developmentally appropriate for this age group.</p> <p>Children were assessed individually in a quiet area near their classroom across three sessions within a one-week period, with each session lasting approximately 45 to 60 minutes. Eligibility criterion was a total score at or above the 91st percentile on all three aforementioned measures, corresponding to standardized scores ranging from 120 to 140. According to Pfeiffer's tripartite model (2015), children whose IQ scores may fall in the 120 to 130 range, tend to excel in the classroom and thrive on learning and academic challenges. For the ENT measure, the same cut-off point was applied, as it corresponded to Level A, indicating that these children would exhibit very good mathematical competence. Ten (<reflink idref="bib10" id="ref162">10</reflink>) children were excluded because they did not meet the criteria set on the performance assessments and eventually 50 children were identified (see Figure 1).</p> <p>DIAGRAM: Figure 1. Flow diagram of the identification process.</p> <hd id="AN0193364114-13">Data Analysis</hd> <p>Children's raw scores were used in our analyses to gauge their actual abilities, not those relative to the norming sample and avoid ceiling effects based on <emph>t</emph>-scores ([<reflink idref="bib3" id="ref163">3</reflink>]; [<reflink idref="bib4" id="ref164">4</reflink>]). Data obtained were analyzed by SPSS software version 29. Given the variability in score ranges and the possible influence of lower-end outliers, the data were converted to <emph>z</emph>-scores ([<reflink idref="bib5" id="ref165">5</reflink>]) to ensure comparability across measures with distinct scales and distributions. Internal consistency reliability of the GRS-P scales was assessed using Cronbach's alpha. Intraclass correlation coefficients for all GRS-P scales were calculated using a two-way mixed-effects model with a consistency definition ([<reflink idref="bib55" id="ref166">55</reflink>]). Pearson's correlation coefficient (<emph>r</emph>) was used to examine the correlations within the GRS-P subscales and the correlations between GRS-P subscales with scores on CPM, CVS, and ENT, based on the procedure outlined by [<reflink idref="bib83" id="ref167">83</reflink>] in the Manual of the GRS.</p> <hd id="AN0193364114-14">Results</hd> <p></p> <hd id="AN0193364114-15">The Reliability of the Greek Version of the GRS-P</hd> <p>The reliability of all GRS-P scales was examined. Since the GRS-P is not weighted in the Greek population, we used raw scores. The Cronbach's Alpha reliability index was calculated and showed high reliability for all subscales (Table 3).</p> <p>Table 3. Reliability of all GRS-P Subscales.</p> <p>Graph</p> <p> <ephtml> &lt;table&gt;&lt;colgroup&gt;&lt;col align="left" /&gt;&lt;col align="char" char="." /&gt;&lt;/colgroup&gt;&lt;thead&gt;&lt;tr&gt;&lt;th align="left"&gt;Subscale&lt;/th&gt;&lt;th align="left"&gt;Cronbach's Alpha&lt;/th&gt;&lt;/tr&gt;&lt;/thead&gt;&lt;tbody&gt;&lt;tr&gt;&lt;td&gt;GRS-P Intellectual&lt;/td&gt;&lt;td&gt;.91&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Academic&lt;/td&gt;&lt;td&gt;.82&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Artistic talent&lt;/td&gt;&lt;td&gt;.98&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Creativity&lt;/td&gt;&lt;td&gt;.91&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Motivation&lt;/td&gt;&lt;td&gt;.95&lt;/td&gt;&lt;/tr&gt;&lt;/tbody&gt;&lt;/table&gt; </ephtml> </p> <p>3 <emph>Note.</emph> Cronbach's alpha (<emph>α</emph>) coefficients indicate the internal consistency reliability for each GRS-P subscale.</p> <p>All subscales show high internal consistency, with Cronbach's alpha values above.80, indicating that each scale reliably measures its respective construct.</p> <p>Furthermore, the statistical analysis demonstrated that the tool exhibits strong internal consistency, with all GRS-P subscales (Intellectual, Academic, Creativity, Artistic Talent, and Motivation) showing statistically significant inter-item correlations (Person's coefficient). Intraclass correlation coefficients (<emph>ICCs</emph>) were calculated using a two-way mixed-effects model with a consistency definition. "Single Measures" <emph>ICCs</emph> assessed the reliability of individual ratings, while "Average Measures" <emph>ICCs</emph> reflected reliability across multiple raters. The model assumed no rater-individual interaction and excluded rater differences from the error term, focusing on consistent ranking rather than identical scoring (Table 4).</p> <p>Table 4. Intraclass Correlation Coefficients for all GRS-P Scales.</p> <p>Graph</p> <p> <ephtml> &lt;table&gt;&lt;colgroup&gt;&lt;col align="left" /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;/colgroup&gt;&lt;thead&gt;&lt;tr&gt;&lt;th align="left"&gt;GRS-P Subscale&lt;/th&gt;&lt;th align="left"&gt;Single Measures &lt;italic&gt;ICC&lt;/italic&gt;&lt;/th&gt;&lt;th align="left"&gt;Single Measures CI Lower&lt;/th&gt;&lt;th align="left"&gt;Single Measures CI Upper&lt;/th&gt;&lt;th align="left"&gt;Average Measures &lt;italic&gt;ICC&lt;/italic&gt;&lt;/th&gt;&lt;th align="left"&gt;Average Measures CI Lower&lt;/th&gt;&lt;th align="left"&gt;Average Measures CI Upper&lt;/th&gt;&lt;th align="left"&gt;F Value&lt;/th&gt;&lt;th align="left"&gt;df1&lt;/th&gt;&lt;th align="left"&gt;df2&lt;/th&gt;&lt;th align="left"&gt;Sig&lt;/th&gt;&lt;/tr&gt;&lt;/thead&gt;&lt;tbody&gt;&lt;tr&gt;&lt;td&gt;Intellectual&lt;/td&gt;&lt;td&gt;.468a&lt;/td&gt;&lt;td&gt;.365&lt;/td&gt;&lt;td&gt;.589&lt;/td&gt;&lt;td&gt;.914c&lt;/td&gt;&lt;td&gt;.874&lt;/td&gt;&lt;td&gt;.945&lt;/td&gt;&lt;td&gt;11.574&lt;/td&gt;&lt;td&gt;49&lt;/td&gt;&lt;td&gt;539&lt;/td&gt;&lt;td&gt;.000&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;Academic&lt;/td&gt;&lt;td&gt;.277a&lt;/td&gt;&lt;td&gt;.190&lt;/td&gt;&lt;td&gt;.394&lt;/td&gt;&lt;td&gt;.821c&lt;/td&gt;&lt;td&gt;.738&lt;/td&gt;&lt;td&gt;.886&lt;/td&gt;&lt;td&gt;5.588&lt;/td&gt;&lt;td&gt;49&lt;/td&gt;&lt;td&gt;539&lt;/td&gt;&lt;td&gt;.000&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;Creativity&lt;/td&gt;&lt;td&gt;.484a&lt;/td&gt;&lt;td&gt;.381&lt;/td&gt;&lt;td&gt;.604&lt;/td&gt;&lt;td&gt;.918c&lt;/td&gt;&lt;td&gt;.881&lt;/td&gt;&lt;td&gt;.948&lt;/td&gt;&lt;td&gt;12.268&lt;/td&gt;&lt;td&gt;49&lt;/td&gt;&lt;td&gt;539&lt;/td&gt;&lt;td&gt;.000&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;Artistic Talent&lt;/td&gt;&lt;td&gt;.809a&lt;/td&gt;&lt;td&gt;.741&lt;/td&gt;&lt;td&gt;.870&lt;/td&gt;&lt;td&gt;.981c&lt;/td&gt;&lt;td&gt;.972&lt;/td&gt;&lt;td&gt;.988&lt;/td&gt;&lt;td&gt;51.730&lt;/td&gt;&lt;td&gt;49&lt;/td&gt;&lt;td&gt;539&lt;/td&gt;&lt;td&gt;.000&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;Motivation&lt;/td&gt;&lt;td&gt;.630a&lt;/td&gt;&lt;td&gt;.532&lt;/td&gt;&lt;td&gt;.732&lt;/td&gt;&lt;td&gt;.953c&lt;/td&gt;&lt;td&gt;.932&lt;/td&gt;&lt;td&gt;.970&lt;/td&gt;&lt;td&gt;21.431&lt;/td&gt;&lt;td&gt;49&lt;/td&gt;&lt;td&gt;539&lt;/td&gt;&lt;td&gt;.000&lt;/td&gt;&lt;/tr&gt;&lt;/tbody&gt;&lt;/table&gt; </ephtml> </p> <p>4 <emph>Note.</emph> Intraclass correlation coefficients (<emph>ICCs</emph>) represent the consistency of ratings across raters for each GRS-P subscale. a = single measures; c = average measures; CI = confidence interval.</p> <p>The reliability analysis showed that all GRS-P subscales demonstrate statistically significant consistency among raters. Single-rater reliability varies, with Academic showing the lowest (<emph>ICC</emph> =.277) and Artistic Talent the highest (<emph>ICC</emph> =.809). When ratings are averaged, reliability improves substantially across all subscales, with <emph>ICCs</emph> ranging from.821 to.981, indicating strong agreement.</p> <p>Furthermore, the statistical analysis showed that all GRS-P subscales showed statistically significant correlations (Person's coefficient) (Table 5).</p> <p>Table 5. Correlations Within the GRS-P Subscales (Pearson's Coefficient).</p> <p>Graph</p> <p> <ephtml> &lt;table&gt;&lt;colgroup&gt;&lt;col align="left" /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;/colgroup&gt;&lt;thead&gt;&lt;tr&gt;&lt;th align="left"&gt;GRS-P Subscales&lt;/th&gt;&lt;th align="left"&gt;1&lt;/th&gt;&lt;th align="left"&gt;2&lt;/th&gt;&lt;th align="left"&gt;3&lt;/th&gt;&lt;th align="left"&gt;4&lt;/th&gt;&lt;th align="left"&gt;5&lt;/th&gt;&lt;/tr&gt;&lt;/thead&gt;&lt;tbody&gt;&lt;tr&gt;&lt;td&gt;GRS-P Intellectual&lt;/td&gt;&lt;td&gt;1&lt;/td&gt;&lt;td /&gt;&lt;td /&gt;&lt;td /&gt;&lt;td /&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-PAcademic&lt;/td&gt;&lt;td&gt;.60&amp;#42;&amp;#42;&lt;/td&gt;&lt;td&gt;1&lt;/td&gt;&lt;td /&gt;&lt;td /&gt;&lt;td /&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Creativity&lt;/td&gt;&lt;td&gt;.55&amp;#42;&amp;#42;&lt;/td&gt;&lt;td&gt;.30&amp;#42;&lt;/td&gt;&lt;td&gt;1&lt;/td&gt;&lt;td /&gt;&lt;td /&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Artistic talent&lt;/td&gt;&lt;td&gt;.36&amp;#42;&lt;/td&gt;&lt;td&gt;.34&amp;#42;&lt;/td&gt;&lt;td&gt;.39&amp;#42;&amp;#42;&lt;/td&gt;&lt;td&gt;1&lt;/td&gt;&lt;td /&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;GRS-P Motivation&lt;/td&gt;&lt;td&gt;.30&amp;#42;&lt;/td&gt;&lt;td&gt;.40&amp;#42;&amp;#42;&lt;/td&gt;&lt;td&gt;.30&amp;#42;&lt;/td&gt;&lt;td&gt;.59&amp;#42;&amp;#42;&lt;/td&gt;&lt;td&gt;1&lt;/td&gt;&lt;/tr&gt;&lt;/tbody&gt;&lt;/table&gt; </ephtml> </p> <ulist> <item>5 <emph>Note.</emph> **Correlation is statistically significant at the.01 level (2-tailed).</item> <item>6 *Correlation is significant at the.05 level (2-tailed).</item> </ulist> <p>All GRS-P subscales are positively correlated, reaching statistical significance. This indicates that higher ratings in one domain of giftedness are generally associated with higher ratings in others. The strongest correlations were observed between GRS-P Intellectual and Academic (<emph>r</emph> =.60, <emph>p</emph> &lt;.01) and GRS-P Motivation and Artistic Talent (<emph>r</emph> =.59, <emph>p</emph> &lt;.01), suggesting particularly strong connections in these areas. GRS-P Intellectual scale was significantly related to all other subscales, with the strongest association found with the GRS-P Academic scale. Similarly, GRS-P Academic scale showed significant correlations with Creativity, Artistic Talent, and Motivation scales.</p> <hd id="AN0193364114-16">The Relationship Between Teachers' Nominations and Traditional Performance Tests</hd> <p>Pearson correlation coefficients were calculated to examine the relationships between GRS-P subscales and CPM, CVS, and ENT. The results are presented in Table 6.</p> <p>Table 6. Correlations Between the GRS-P Subscales and the Performance Tests.</p> <p>Graph</p> <p> <ephtml> &lt;table&gt;&lt;colgroup&gt;&lt;col align="left" /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;col align="char" char="." /&gt;&lt;/colgroup&gt;&lt;thead&gt;&lt;tr&gt;&lt;th align="left"&gt;GRS-P Scale&lt;/th&gt;&lt;th align="left"&gt;CPM&lt;/th&gt;&lt;th align="left"&gt;CVS&lt;/th&gt;&lt;th align="left"&gt;ENT&lt;/th&gt;&lt;/tr&gt;&lt;/thead&gt;&lt;tbody&gt;&lt;tr&gt;&lt;td&gt;Intellectual Ability&lt;/td&gt;&lt;td&gt;.43&amp;#42;&amp;#42;&lt;/td&gt;&lt;td&gt;.11&lt;/td&gt;&lt;td&gt;.08&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;Academic Ability&lt;/td&gt;&lt;td&gt;.53&amp;#42;&amp;#42;&lt;/td&gt;&lt;td&gt;.33&amp;#42;&lt;/td&gt;&lt;td&gt;.27&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;Creativity&lt;/td&gt;&lt;td&gt;.01&lt;/td&gt;&lt;td&gt;&amp;#8722;.12&lt;/td&gt;&lt;td&gt;&amp;#8722;.09&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;Artistic Talent&lt;/td&gt;&lt;td&gt;.18&lt;/td&gt;&lt;td&gt;&amp;#8722;.06&lt;/td&gt;&lt;td&gt;&amp;#8722;.20&lt;/td&gt;&lt;/tr&gt;&lt;tr&gt;&lt;td&gt;Motivation&lt;/td&gt;&lt;td&gt;.32&amp;#42;&lt;/td&gt;&lt;td&gt;.07&lt;/td&gt;&lt;td&gt;.25&lt;/td&gt;&lt;/tr&gt;&lt;/tbody&gt;&lt;/table&gt; </ephtml> </p> <ulist> <item>7 <emph>Note.</emph> **Correlation is statistically significant at the.01 level (2-tailed).</item> <item>8 *Correlation is statistically significant at the.05 level (2-tailed).</item> </ulist> <p>Significant positive correlations were found between Intellectual Ability and CPM (<emph>r</emph> =.43, <emph>p</emph> &lt;.01), and between Academic Ability and CPM (<emph>r</emph> =.53, <emph>p</emph> &lt;.01). Academic Ability also showed a significant, moderate correlation with CVS (<emph>r</emph> =.33, <emph>p</emph> &lt;.05) and a small, nonsignificant correlation with ENT (<emph>r</emph> =.27, p &gt;.05). Motivation correlated significantly with CPM (<emph>r</emph> =.32, <emph>p</emph> &lt;.05) and showed a nonsignificant positive relationship with ENT (<emph>r</emph> =.25, <emph>p</emph> &gt;.05). No significant correlations were observed between Creativity or Artistic Talent and any of the performance measures.</p> <hd id="AN0193364114-17">Discussion</hd> <p>The objectives of the present study were to examine the reliability of the Greek version of the GRS-P and the relationship between teachers' nominations and traditional performance tests that measure cognitive abilities and aspects of intelligence.</p> <hd id="AN0193364114-18">Reliability of the Greek Version of the GRS-P</hd> <p>Results revealed strong reliability across all GRS-P subscales and high internal consistency, with each item within the subscales (GRS Intellectual, GRS Academic, GRS Creativity, GRS Artistic Talent, and GRS Motivation) showing statistically significant correlations (Pearson's coefficient). Specifically, internal consistency reliability indices for the five scales of the Greek version of the GRS-P were excellent, ranging from.82 to.98. These values are consistent with those reported by [<reflink idref="bib107" id="ref168">107</reflink>] in a Greek sample of preschool children, as well as with results found in studies from the United States by [<reflink idref="bib83" id="ref169">83</reflink>] and in adaptations for Turkish and Chinese samples by [<reflink idref="bib49" id="ref170">49</reflink>] and [<reflink idref="bib105" id="ref171">105</reflink>], respectively.</p> <p>However, single-rater reliability varied across subscales, with the Academic subscale showing the lowest reliability (<emph>ICC</emph> =.277), suggesting raters are relatively inconsistent in their evaluations of academic traits. This inconsistency may stem from reliance on indirect or behaviorally inferred indicators, subjective interpretation, or insufficient rater training. In contrast, the Artistic Talent subscale demonstrates the highest single-rater reliability (<emph>ICC</emph> =.809), reflecting much stronger agreement between raters. This higher reliability is likely due to the greater visibility and tangibility of artistic abilities (e.g., observable artifacts), as well as increased variability in artistic performances, which may facilitate easier discrimination and promote consensus. Nonetheless, when the scores from multiple raters are averaged, the reliability for each subscale increases substantially (<emph>ICCs</emph> ranging from.821 to.981). This pattern is expected and reflects a fundamental principle of reliability theory: averaging ratings across multiple raters reduces the impact of individual rater bias or error, resulting in more stable and reliable composite scores ([<reflink idref="bib35" id="ref172">35</reflink>]; [<reflink idref="bib63" id="ref173">63</reflink>]).</p> <p>Additionally, the correlations within the GRS-P subscales ranged from weak to strong positive correlations with GRS-P Intellectuall having the strongest correlation with GRS-P Academic (<emph>r</emph> =.60, <emph>p</emph> &lt;.01). This correlation may suggest that the GRS-P primarily reflects a general cognitive ability and not a multidimensional conceptualization of giftedness ([<reflink idref="bib8" id="ref174">8</reflink>]; [<reflink idref="bib107" id="ref175">107</reflink>]). Our findings are consistent with those of recent studies sharing a similar focus, which suggest that teacher judgments—whether related to students' cognitive abilities or academic performance—are largely influenced by students' academic skills ([<reflink idref="bib7" id="ref176">7</reflink>]; [<reflink idref="bib117" id="ref177">117</reflink>]). Additionally, our findings correspond with previous research that has assessed the reliability and validity of the GRS-P ([<reflink idref="bib8" id="ref178">8</reflink>]; [<reflink idref="bib49" id="ref179">49</reflink>]; [<reflink idref="bib83" id="ref180">83</reflink>]; [<reflink idref="bib105" id="ref181">105</reflink>]; [<reflink idref="bib107" id="ref182">107</reflink>]).</p> <hd id="AN0193364114-19">The Relationship Between Teachers' Nominations and Traditional Performance Tests</hd> <p>Correlations between GRS-P Intellectual Ability and GRS-P Academic Ability subscales with CPM were positive and significant (<emph>r</emph> =.43, <emph>p</emph> &lt;.01 and <emph>r</emph> =.52, <emph>p</emph> &lt;.01 respectively). In addition, CVS yielded a positive correlation with GRS-P Academic subscale (<emph>r</emph> =.33 <emph>p</emph> &lt;.05). These findings provide evidence to support the criterion-related validity of the Greek-translated GRS-P, by comparing the scores on the Intellectual Abilty and Academic Ability subscales with measures of nonverbal intellectual ability (CPM) and ability in the verbal domain (CVS). Indeed, an examination of the American standardization sample using evaluative efficiency statistics provided support for the identification accuracy of the GRS-P Intellectual Ability and Academic Ability subscales identifying intellectual and academic giftedness ([<reflink idref="bib85" id="ref183">85</reflink>]). Similarly, [<reflink idref="bib105" id="ref184">105</reflink>] found significant correlations between GRS-P subscale scores and children's school performance including language. However, school performance was not assessed by standardized measures in the aforementioned study. Likewise, [<reflink idref="bib49" id="ref185">49</reflink>] also found the highest relation to be between the intellectual ability subscale and the academic competence subscale. Besides, Arabic-, Czech-, Korean-, Chinese-, and Spanish-translated versions of the GRS, though school forms, ([<reflink idref="bib40" id="ref186">40</reflink>]; [<reflink idref="bib46" id="ref187">46</reflink>]; [<reflink idref="bib52" id="ref188">52</reflink>]; [<reflink idref="bib54" id="ref189">54</reflink>]; [<reflink idref="bib99" id="ref190">99</reflink>]) have yielded favorable results regarding academic performance.</p> <p>With regard to advanced early numeracy, no significant correlations were found with the GRS-P subscales. The Academic scale of the GRS-P includes only two specific items related to mathematical competence, which may have limited teachers' ability to accurately identify advanced early numeracy skills. This finding further supports the view that the GRS-P may primarily reflect general cognitive ability rather than a multidimensional conceptualization of giftedness ([<reflink idref="bib8" id="ref191">8</reflink>]; [<reflink idref="bib107" id="ref192">107</reflink>]).</p> <p>In a classroom's setting, high ability is conceptualized by the expression of an above average potential that impacts on the student's learning and school performance ([<reflink idref="bib16" id="ref193">16</reflink>]; [<reflink idref="bib28" id="ref194">28</reflink>]). Besides, teachers assess a wide range of student traits—including cognitive, academic, creative, and social abilities—along with personality factors like motivation and leadership, forming an overall impression of each student ([<reflink idref="bib8" id="ref195">8</reflink>]). These judgments are often shaped by observable factors such as academic performance and classroom behavior, as well as broader attributes like intelligence and creativity ([<reflink idref="bib31" id="ref196">31</reflink>]). These interpretations align with the tripartite model of giftedness, which defines it as high intelligence, notable nonintellectual traits (e.g., creativity, motivation), and potential for excellence. Research consistently shows that teachers' views on giftedness and their identification practices are strongly influenced by cognitive abilities, learning-related traits and personality characteristics ([<reflink idref="bib7" id="ref197">7</reflink>]; [<reflink idref="bib31" id="ref198">31</reflink>]; [<reflink idref="bib58" id="ref199">58</reflink>]). As such, teacher nominations mainly identify gifted students whose strengths align with school-promoted and assessed areas. Such students are often broadly gifted and display strong social competence ([<reflink idref="bib89" id="ref200">89</reflink>]).</p> <p>Nonetheless, careful consideration of Type I and Type II errors is essential when using teacher rating scales as preliminary screening tools for identifying gifted students. In our study, with a prevalence rate of 10%, it was estimated that 80 out of 800 children would demonstrate high-ability potential (IQ ≥ 120). This level of cognitive ability corresponds approximately to a <emph>t</emph>-score of 63 on the GRS-P, aligning with the 90th percentile of the population. Teachers ultimately nominated 60 children, suggesting that some gifted students were not identified, representing a Type II error. In screening for giftedness, there is always a balance between the risks of Type I and Type II errors. For instance, when the GRS-P is used as a screening tool to aid in identifying gifted students, setting a <emph>t</emph>-score cutoff at ≥ 60 minimizes the number of truly gifted students missed. However, this same cutoff may also result in overidentifying some students who, upon more comprehensive assessment, do not meet the criteria for intellectual giftedness based on IQ scores. This pattern was observed in our study when performance assessments were administered ([<reflink idref="bib39" id="ref201">39</reflink>]; [<reflink idref="bib82" id="ref202">82</reflink>]).</p> <p>In the present study Greek preschool teachers seem to select children that show promise of high intellectual and academic potential in general ([<reflink idref="bib129" id="ref203">129</reflink>]). It appears that their judgment is most grounded on children's intelligence, which is demonstrated indirectly in their academic achievement ([<reflink idref="bib46" id="ref204">46</reflink>]). A possible explanation for this might be the high correlation among GRS-P Intellectual Ability and Academic Ability subscales identifying intellectual and academic giftedness ([<reflink idref="bib85" id="ref205">85</reflink>]), which was also found in the present study (<emph>r</emph><emph>=</emph>.60). Recent research has indicated that a general factor (latent variable) accounts for most of the variance captured by the five GRS-P ratings (measured variables) ([<reflink idref="bib8" id="ref206">8</reflink>]), which was also supported by the findings of [<reflink idref="bib107" id="ref207">107</reflink>] for the Greek version of GRS-P. Findings from studies with a similar focus, in which the prevailing paradigm is teacher judgment (whether in regard to cognitive abilities or academic performance) have demonstrated that teacher estimations are based primarily on student academic abilities ([<reflink idref="bib7" id="ref208">7</reflink>]; [<reflink idref="bib117" id="ref209">117</reflink>]).</p> <p>At the same time, this judgment affects even other areas, such as artistic abilities or creativity, since in the present study all preschool children, nominated by their teachers, received a score at or above the 84th percentile on all subscales of GRS-P, indicating a high probability of having an artistic talent and being creative as well. A possible explanation of our results is the presence of a "halo effect" in teacher rating scales, which is a cognitive bias in which a teacher's overall impression of a student influences his or her ratings of a particular gifted student's characteristics ([<reflink idref="bib8" id="ref210">8</reflink>]; [<reflink idref="bib100" id="ref211">100</reflink>]).</p> <p>Finally, preschool learning opportunities and family socioeconomic status (SES) significantly influence students' opportunity to learn (OTL) before formal schooling begins, often compromising talent identification processes. Without adjusting for prior educational exposure, assessments may reflect differences in educational opportunity rather than true ability. To ensure equity, identification practices should incorporate group-specific norms ([<reflink idref="bib74" id="ref212">74</reflink>]), local norms, and universal screening to capture talent across SES groups ([<reflink idref="bib73" id="ref213">73</reflink>]). While such disparities are much less pronounced in Greece compared to the United States, a major challenge remains: the accurate identification of gifted students. Moreover, gifted education is virtually absent in the Greek public educational system, highlighting the need for systemic reform.</p> <hd id="AN0193364114-20">Limitations</hd> <p>There are some limitations in this study that need to be addressed. The sample size was rather small and from a single region in Greece, which limits generalizability. Larger, more diverse samples are needed to draw firmer conclusions. Research on giftedness is inherently challenging primarily because giftedness is relatively uncommon, making large, representative sampling difficult and costly. Using large-scale school achievement data, as suggested by [<reflink idref="bib89" id="ref214">89</reflink>], offers a promising method for identifying gifted students in Greece. Additionally, measures of creativity, artistic abilities, and motivation could also be included to enhance the test of discriminant validity.</p> <p>Moreover, although teacher rating scales are widely supported for identifying high-ability students ([<reflink idref="bib18" id="ref215">18</reflink>]; [<reflink idref="bib20" id="ref216">20</reflink>]; [<reflink idref="bib65" id="ref217">65</reflink>]; [<reflink idref="bib37" id="ref218">37</reflink>]; [<reflink idref="bib60" id="ref219">60</reflink>]), there are limitations to this approach in that it relies on the skill of the observer. The insufficient training of teachers in both the identification of gifted preschoolers and the administration of the GRS-P may have influenced the study's outcomes. Moreover, teachers' stereotyped conceptions about high ability/giftedness which are based on expectations for idyllic behavior characteristics and attitudes ([<reflink idref="bib61" id="ref220">61</reflink>]) and a "halo effect" bias might have influenced the teachers' ratings ([<reflink idref="bib8" id="ref221">8</reflink>]; [<reflink idref="bib100" id="ref222">100</reflink>]).</p> <p>Another limitation was the use of the unweighted teachers' rating scales. However, the internal consistency reliability of the Greek Version of GRS-P subscales was excellent in our sample, consistent with the findings of [<reflink idref="bib83" id="ref223">83</reflink>] and [<reflink idref="bib107" id="ref224">107</reflink>].</p> <hd id="AN0193364114-21">Conclusion</hd> <p>Research in the early childhood giftedness field is very limited despite the fact that the early identification of high abilities in preschool children plays a determinant role in the direction their education will take ([<reflink idref="bib70" id="ref225">70</reflink>]).</p> <p>Each child possesses a genetic predisposition for potential abilities, which necessitates cognitive, social, emotional, motor, and various environmental stimulations to be fully realized and developed ([<reflink idref="bib27" id="ref226">27</reflink>]; [<reflink idref="bib66" id="ref227">66</reflink>]). As such, teachers should design comprehensive and cohesive learning plans tailored to students with diverse gifts and talents. These plans should incorporate differentiated instruction across all subject areas, utilize a balanced and effective assessment system, and integrate various technologies. Additionally, instructional practices should incorporate appropriate accommodations for exceptional learners. Learning experiences ought to be designed to nurture students' social, emotional, and psychological development as an integral component of a strengths-based approach to gifted education, by incorporating culturally responsive curricula, diverse instructional strategies—such as critical and creative thinking, metacognitive and cognitive learning, problem-solving, and research-based models—and the use of high-quality resources to effectively support differentiation ([<reflink idref="bib48" id="ref228">48</reflink>]).</p> <p>Apart from the necessary appropriate legislative and institutional framework that favors the flexible curriculum and the differentiated instruction as well as the evaluation of the effectiveness of the programs implemented, the education of high ability children presupposes internationally, but also in the case of Greece, the valid identification and assessment procedures for children who need different instructional approaches, due to their inclinations and cognitive abilities. Although more research is needed to further validate and refine the Greek version of the GRS-P to replicate our current findings, the results of our studies, show that the GRS-P is a useful instrument for measuring cognitive and academic giftedness in the Greek cultural context. In turn, teachers, being aware of the cognitive and academic abilities of gifted children, could provide different learning experiences that go beyond those offered through the general education curriculum ([<reflink idref="bib86" id="ref229">86</reflink>]).</p> <hd id="AN0193364114-22">Acknowledgments</hd> <p>The authors confirm that no artificial intelligence (AI) tools were used in the preparation, writing, or editing of this manuscript.</p> <ref id="AN0193364114-23"> <title> References </title> <blist> <bibl id="bib1" idref="ref1" type="bt">1</bibl> <bibtext> Acar S., Sen S., Cayirdag N. (2016). 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Principals, the teaching staff of all schools and the parents of the children gave their written informed consent.</bibtext> </blist> <blist> <bibtext> The authors received no financial support for the research, authorship, and/or publication of this article.</bibtext> </blist> <blist> <bibtext> The authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.</bibtext> </blist> </ref> <aug> <p>By Eleni Rachanioti; Anastasia Alevriadou; Garyfalia Charitaki and Alexander-Stamatios Antoniou</p> <p>Reported by Author; Author; Author; Author</p> <p></p> <p>Eleni Rachanioti is a postdoctoral researcher (University of Ioannina, Greece). Her academic work focuses on supporting inclusive practices and fostering professional development for educators working with gifted learners. She holds a PhD in Special Education of the University of Western Macedonia, Greece. She has published peer-reviewed articles in international journals and has actively participated in both Greek and international conferences. In addition, she has contributed chapters to international edited volumes, co-authored an undergraduate textbook, and participated as a member of research teams in various research projects. She is also serving as Collaborative Academic Staff at Frederick University in Cyprus, where she teaches distance-learning courses in the MEd Special Education program.</p> <p>Anastasia Alevriadou is a professor of psychology in special education at the Department of Psychology (Section of Developmental and School Psychology) at the Aristotle University of Thessaloniki-Greece. Postdoctoral Fellow at Johns Hopkins University (1999). She has published more than 150 articles in Greek and international journals, 5 books and 6 chapters in American books on related issues and many conference proceedings. She has also participated in many European and International conferences. She is a member of many Greeks and International Associations of Psychology and Special Education. Fulbright Scholar in psychology/special education in 2019, Nisonger Centre of Developmental Disabilities, OSU, USA. Visiting Professor in USA, Czech Republic and Cyprus.</p> <p>Garyfalia Charitaki is an assistant professor (pending appointment) at the University of Thessaly. The overarching aim of her research project is to support children with Intellectual Disabilities enrolled in kindergarten in terms of early numeracy cognition. She holds a PhD in Special Education of the Faculty of Primary Education, University of Athens. She is also working as a collaborating teaching staff in School of Humanities, of Hellenic Open University in collaboration with University of Thessaly, Department of Special Education (SED), since 2016. She has more than 50 published papers in Greek and International journals.</p> <p>Alexandros-Stamatios Antoniou is a professor of psychology at the University of Athens and has taught many courses in psychology and pedagogy in undergraduate and postgraduate programs of many departments of the University of Athens and other universities such as Child and Adolescent Mental Disorders, Organizational Psychology &amp; Behavior, Psychology of Personality and Social Psychology. He has been a supervisor of more than 200 undergraduate and 200 graduate theses. He has participated in many research projects in Greece and abroad and has given about 400 presentations in Greek and international conferences. His main research interests include: workplace wellness issues (e.g., work stress, burnout, workplace bullying, etc.), organizational issues in the field of Special Education, charisma, values/ethics and leadership in the work environment.</p> </aug> <nolink nlid="nl1" bibid="bib80" firstref="ref2"></nolink> <nolink nlid="nl2" bibid="bib14" firstref="ref3"></nolink> <nolink nlid="nl3" bibid="bib45" firstref="ref4"></nolink> <nolink nlid="nl4" bibid="bib79" firstref="ref5"></nolink> <nolink nlid="nl5" bibid="bib87" firstref="ref7"></nolink> <nolink nlid="nl6" bibid="bib106" firstref="ref8"></nolink> <nolink nlid="nl7" bibid="bib92" firstref="ref9"></nolink> <nolink nlid="nl8" bibid="bib108" firstref="ref11"></nolink> <nolink nlid="nl9" bibid="bib13" firstref="ref12"></nolink> <nolink nlid="nl10" bibid="bib43" firstref="ref13"></nolink> <nolink nlid="nl11" bibid="bib126" firstref="ref14"></nolink> <nolink nlid="nl12" bibid="bib19" firstref="ref15"></nolink> <nolink nlid="nl13" 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| Items | – Name: Title Label: Title Group: Ti Data: Teacher Insights and Performance Assessments: Tracing High Academic Potential in Early Greek Education – Name: Language Label: Language Group: Lang Data: English – Name: Author Label: Authors Group: Au Data: <searchLink fieldCode="AR" term="%22Eleni+Rachanioti%22">Eleni Rachanioti</searchLink> (ORCID <externalLink term="https://orcid.org/0000-0001-9042-6934">0000-0001-9042-6934</externalLink>)<br /><searchLink fieldCode="AR" term="%22Anastasia+Alevriadou%22">Anastasia Alevriadou</searchLink> (ORCID <externalLink term="https://orcid.org/0000-0001-7022-5537">0000-0001-7022-5537</externalLink>)<br /><searchLink fieldCode="AR" term="%22Garyfalia+Charitaki%22">Garyfalia Charitaki</searchLink> (ORCID <externalLink term="https://orcid.org/0000-0002-1593-2041">0000-0002-1593-2041</externalLink>)<br /><searchLink fieldCode="AR" term="%22Alexander-Stamatios+Antoniou%22">Alexander-Stamatios Antoniou</searchLink> (ORCID <externalLink term="https://orcid.org/0000-0001-6225-6085">0000-0001-6225-6085</externalLink>) – Name: TitleSource Label: Source Group: Src Data: <searchLink fieldCode="SO" term="%22Journal+of+Advanced+Academics%22"><i>Journal of Advanced Academics</i></searchLink>. 2026 37(2):191-219. – Name: Avail Label: Availability Group: Avail Data: SAGE Publications. 2455 Teller Road, Thousand Oaks, CA 91320. Tel: 800-818-7243; Tel: 805-499-9774; Fax: 800-583-2665; e-mail: journals@sagepub.com; Web site: https://sagepub.com – Name: PeerReviewed Label: Peer Reviewed Group: SrcInfo Data: Y – Name: Pages Label: Page Count Group: Src Data: 29 – Name: DatePubCY Label: Publication Date Group: Date Data: 2026 – Name: TypeDocument Label: Document Type Group: TypDoc Data: Journal Articles<br />Reports - Research – Name: Audience Label: Education Level Group: Audnce Data: <searchLink fieldCode="EL" term="%22Early+Childhood+Education%22">Early Childhood Education</searchLink><br /><searchLink fieldCode="EL" term="%22Elementary+Education%22">Elementary Education</searchLink><br /><searchLink fieldCode="EL" term="%22Kindergarten%22">Kindergarten</searchLink><br /><searchLink fieldCode="EL" term="%22Primary+Education%22">Primary Education</searchLink> – Name: Subject Label: Descriptors Group: Su Data: <searchLink fieldCode="DE" term="%22Foreign+Countries%22">Foreign Countries</searchLink><br /><searchLink fieldCode="DE" term="%22Academically+Gifted%22">Academically Gifted</searchLink><br /><searchLink fieldCode="DE" term="%22Preschool+Children%22">Preschool Children</searchLink><br /><searchLink fieldCode="DE" term="%22Kindergarten%22">Kindergarten</searchLink><br /><searchLink fieldCode="DE" term="%22Performance+Based+Assessment%22">Performance Based Assessment</searchLink><br /><searchLink fieldCode="DE" term="%22Rating+Scales%22">Rating Scales</searchLink><br /><searchLink fieldCode="DE" term="%22Test+Reliability%22">Test Reliability</searchLink><br /><searchLink fieldCode="DE" term="%22Intelligence+Tests%22">Intelligence Tests</searchLink><br /><searchLink fieldCode="DE" term="%22Academic+Ability%22">Academic Ability</searchLink><br /><searchLink fieldCode="DE" term="%22Verbal+Ability%22">Verbal Ability</searchLink><br /><searchLink fieldCode="DE" term="%22Nonverbal+Ability%22">Nonverbal Ability</searchLink><br /><searchLink fieldCode="DE" term="%22Numeracy%22">Numeracy</searchLink><br /><searchLink fieldCode="DE" term="%22Academic+Aptitude%22">Academic Aptitude</searchLink><br /><searchLink fieldCode="DE" term="%22Psychometrics%22">Psychometrics</searchLink><br /><searchLink fieldCode="DE" term="%22Creativity%22">Creativity</searchLink><br /><searchLink fieldCode="DE" term="%22Motivation%22">Motivation</searchLink> – Name: Subject Label: Geographic Terms Group: Su Data: <searchLink fieldCode="DE" term="%22Greece%22">Greece</searchLink> – Name: SubjectThesaurus Label: Assessment and Survey Identifiers Group: Su Data: <searchLink fieldCode="SU" term="%22Raven+Progressive+Matrices%22">Raven Progressive Matrices</searchLink> – Name: DOI Label: DOI Group: ID Data: 10.1177/1932202X251413042 – Name: ISSN Label: ISSN Group: ISSN Data: 1932-202X<br />2162-9536 – Name: Abstract Label: Abstract Group: Ab Data: The aim of this study was to examine the reliability of the Gifted Rating Scales-Preschool/Kindergarten form (GRS-P) and its relationship with performance assessments in a sample of Greek preschool children. In the initial screening, 60 high-potential children were nominated by their teachers using the GRS-P. In a second phase, these children were assessed for nonverbal intelligence, verbal skills, and early numeracy, with 50 children eventually being identified after excluding those who did not meet criteria. Findings revealed high reliability and internal consistency across all GRS-P subscales. Significant positive correlations were found between the GRS-P Intellectual and Academic Ability subscales and nonverbal intelligence, while verbal ability positively correlated with the GRS-P Academic subscale. Additionally, Motivation subscale correlated significantly with nonverbal intelligence and showed a nonsignificant relationship with Academic Ability scale and Early Numeracy. The study's findings highlight implications for educational policy supporting high-ability preschoolers in both Greek and international contexts. – Name: AbstractInfo Label: Abstractor Group: Ab Data: As Provided – Name: DateEntry Label: Entry Date Group: Date Data: 2026 – Name: AN Label: Accession Number Group: ID Data: EJ1504367 |
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| RecordInfo | BibRecord: BibEntity: Identifiers: – Type: doi Value: 10.1177/1932202X251413042 Languages: – Text: English PhysicalDescription: Pagination: PageCount: 29 StartPage: 191 Subjects: – SubjectFull: Foreign Countries Type: general – SubjectFull: Academically Gifted Type: general – SubjectFull: Preschool Children Type: general – SubjectFull: Kindergarten Type: general – SubjectFull: Performance Based Assessment Type: general – SubjectFull: Rating Scales Type: general – SubjectFull: Test Reliability Type: general – SubjectFull: Intelligence Tests Type: general – SubjectFull: Academic Ability Type: general – SubjectFull: Verbal Ability Type: general – SubjectFull: Nonverbal Ability Type: general – SubjectFull: Numeracy Type: general – SubjectFull: Academic Aptitude Type: general – SubjectFull: Psychometrics Type: general – SubjectFull: Creativity Type: general – SubjectFull: Motivation Type: general – SubjectFull: Greece Type: general – SubjectFull: Raven Progressive Matrices Type: general Titles: – TitleFull: Teacher Insights and Performance Assessments: Tracing High Academic Potential in Early Greek Education Type: main BibRelationships: HasContributorRelationships: – PersonEntity: Name: NameFull: Eleni Rachanioti – PersonEntity: Name: NameFull: Anastasia Alevriadou – PersonEntity: Name: NameFull: Garyfalia Charitaki – PersonEntity: Name: NameFull: Alexander-Stamatios Antoniou IsPartOfRelationships: – BibEntity: Dates: – D: 01 M: 05 Type: published Y: 2026 Identifiers: – Type: issn-print Value: 1932-202X – Type: issn-electronic Value: 2162-9536 Numbering: – Type: volume Value: 37 – Type: issue Value: 2 Titles: – TitleFull: Journal of Advanced Academics Type: main |
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