Examining the Correspondence between Self-Regulated Learning and Academic Achievement: A Case Study Analysis

Four high school students received 11 weeks of a self-regulated learning (SRL) intervention, called the Self-Regulation Empowerment Program (SREP), to improve their classroom-based biology exam scores, SRL, andmotivated behaviors.ismixed model case study examined the correspondence between shis in students’ strategic, regulated behaviors with their performance on classroom-based biology tests. e authors used traditional SRL assessment tools in a pretest-posttest fashion (e.g., selfreport �uestionnaires, teaching rating scales) and gathered SRL data during the intervention using �eld note observations and contextualized structured interviews. is multidimensional assessment approach was used to establish convergence among the assessment tools and to facilitate interpretation of trends in students’ biology test performance relative to their SRL processes. Key themes in this study included the following: (a) the close correspondence between changes in students SRL, biology exam performance, and SREP attendance; (b) individual variability in student performance, SRL behaviors, and beliefs in response to SREP; and (c) the importance of using a multi-dimensional assessment approach in SRL intervention research. Furthermore, this study provided additional support for the potential effectiveness of SREP in academic contexts.


Introduction
e importance and positive impact of self-regulation learning (SRL) processes on the academic achievement of students have been consistently demonstrated over the past couple of decades across a multitude of research methodologies and contexts [1][2][3][4][5][6].Of particular relevance to educators, however, is research evaluating the impact of SRL intervention programs on the basic academic skills, such as reading, math, and writing [2,3,5].is line of research is important because it underscores the potential utility of infusing SRL principles into academic intervention programs or authentic classroom instructional contexts.Another emergent applied SRL issue involves the discrepancy between the perceptions of teachers and school-based professionals regarding the importance and utility of SRL and the extent to which they directly infuse this concept into their professional activities [7][8][9].In a series of recent surveys, for example, teachers and school psychologists identi�ed SRL as a critical determinant of student success [7][8][9].Interstingly, these school-based personnel also expressed poor personal knowledge in motivation and SRL processes, a lack of experience incorporating these principles into their teaching or professional activities, and a strong desire to receive professional development training regarding implementing SRL assessment tools and interventions.Such individuals may bene�t from research that closely examines how SRL interventions afford opportunities for students to become more empowered and regulated learners in speci�c contexts and how shis in students' regulatory and motivation processes are oen linked to these intervention practices.
In recent years there has also been increased interest in studying the impact of SRL interventions with adolescent populations and in content area domains, such as science [10][11][12][13][14]. Sinatra and Taasoobshirazi [14] have argued that SRL is closely intertwined with science education because many activities within this domain, such as inquiry, conceptual change, and problem solving, oen necessitate the use of metacognitive and strategic skills, two key components of self-regulated learning.On a more general level, the link between science education and SRL in the United States is bolstered when considering the recent emphasis placed on teaching students to become self-directed learners in literacy and speci�c content areas (e.g., science and social studies) [15] and the fact that secondary school students continue to lag internationally in science achievement [16].Although some progress has been made in infusing SRL principles into science education or tutoring programs to enhance science achievement [12,17,18], there remains a paucity of available interventions speci�cally designed to help high school students become more successful in navigating increasingly complex science courses.
�eveloping SRL interventions speci�cally targeting high school students is important for a variety of reasons.At the high school level, classroom-based exams oen represent a key performance outcome and an integral component of students' report card grades.us, the skills necessary for effectively studying for exams represent a critical academic skill that needs to be taught, practiced, and re�ned, particularly for students who struggle academically.Although there is much information in the literature about effective test preparation skills and effective learning strategies [19][20][21], there remains a dearth of comprehensive, applied intervention programs devoted to helping students effectively manage and overcome authentic learning challenges as they naturally arise over extended periods of time (e.g., several months).In secondary school contexts, students are oen faced with many challenges or demands as they prepare for exams, most notably the need to organize and integrate large volumes of information presented within class lessons, homework assignments, and/or readings from relevant texts and resources [22].Given that these activities oen occur outside the supervision of teachers and necessitate the use of efficient regulatory strategies and processes, attention devoted to how students regulate and use such strategies as they prepare for exams is critical.e primary focus of this paper is to investigate, through four case studies, the correspondence between shis in high school students' strategic and regulated behaviors during test preparation and their overall test performance and attendance to an SRL intervention program, called the Self-Regulation Empowerment Program.

�e�nition an� Conceptua�i�ation of Se�f�Regu�ate� Learn� ing (SRL).
Self-regulation has been described as a multidimensional process that integrates a myriad of related yet distinct motivation beliefs and strategic and metacognitive skills [5,[23][24][25].Although researchers from various theoretical backgrounds have developed innovative models of self-regulation, SREP is largely grounded in social-cognitive theory and research [18,25,26].In general, social-cognitive theory emphasizes that in order to understand student learning and behavior it is critical to examine the reciprocal interactions between the social environment and various student-related processes (e.g., beliefs, attitudes).Central to this paradigm is the premise that humans have the capacity to self-regulate and to actively manage their environment, behaviors, and beliefs.Zimmerman [25] explicitly de�nes self-regulation as a process operationalized in terms of a contextualized, cyclical feedback loop.at is, individuals proactively plan and initiate learning attempts and then use self-generated or externally provided feedback to modify and adapt their learning methods to optimize performance.
In general, this cyclical loop has been described as a three-phase process including forethought, performance, and self-re�ection.Forethought phase processes precede efforts to learn or perform and include students' goal setting, strategic planning, and motivational impetus to act.Students are more likely to engage in learning when their self-motivation beliefs are adaptive.Adaptive motivational beliefs include maintaining high self-efficacy during difficult tasks, viewing tasks as enjoyable, and believing that certain behaviors will lead to speci�c outcomes.Collectively, forethought processes are hypothesized to impact performance phase processes that are most prominent during learning.ese latter processes include self-control (e.g., directing one's attention, structuring learning environments, and using regulatory tactics) and self-observation (e.g., tracking the quality of their learning).Self-observation is a general process that includes metacognitive monitoring (e.g., maintaining an awareness of one's thoughts and knowledge) and self-recording (e.g., writing down speci�c aspects of behavior or performance).ese self-observational processes are critical in the cyclical loop because they generate information that students use to re�ect on the quality of their skills or performance levels.In the �nal phase, se�f�re�ection, individuals evaluate whether they reached their goals (i.e., self-evaluation), re�ect on the causal factors of their performance (i.e., attributions), and identify speci�c things that need to be modi�ed or sustained to optimize future performance (i.e., adaptive inferences; [25]).
Many theorists also argue that SRL is a teachable process that can vary across contexts and situations [4,5,27,28].Research has supported this premise by showing that student motivation beliefs and regulatory actions will oen differ across academic domains (e.g., science, math) and across distinct tasks within the same domains or contexts [29][30][31].As will be discussed in subsequent sections, "context speci�city" and "cyclical self-regulation" are two fundamental principles that guide SREP.

Core Characteristics of SREP.
A few applied academic self-regulation training programs have been developed to help students engage in recursive cycles of self-regulatory thought and action [5,19,28,32,33].Although these programs oen differ in their theoretical underpinnings and instructional format, most of them are designed to enhance students' repertoire of task-speci�c learning strategies as well as their skills in managing and regulating their use of these strategies during learning.Collectively, these programs, including SREP, emphasize that instruction and/or tutoring support should be grounded in speci�c course material or curriculum to maximize the effectiveness of the intervention.
SREP, however, possesses several unique features.First, SREP was speci�cally designed to help at-risk students in middle school and high school improve their performance on authentic distal outcomes, such as preparing for monthly unit exams in science.Unlike intervention programs that are of relatively short duration or target a relatively narrow skill set or strategy, SREP seeks to enhance students' knowledge and pro�ciency in dynamically using a myriad of learning strategies.Additionally, SREP is designed to improve students' skill in adapting and re�ning their use of strategies based on course demands or obstacles that are naturally encountered during an academic semester.During this intervention, students also learn how to cope with and manage the quality of their learning and to overcome the individual-speci�c obstacles or challenges that may inhibit effective test preparation.By providing a highly structured environment for students to learn and practice various types of cognitive strategies (e.g., concept maps) and regulatory strategies (e.g., self-reinforcement, time management, help seeking) with feedback from a tutor or self-regulated learning coach (SRC), students can learn to independently use these skills outside the presence of tutors or teachers (e.g., studying alone at home).During sessions, students receive consistent feedback about the use of strategies and their performance on important academic outcomes, such as test scores.
SREP is also unique because it represents one of the few applied, comprehensive self-regulation intervention programs speci�cally designed to target test preparation in science content areas.As indicated by Schraw et al. [13], research in science education has focused on metacognition (i.e., thinking about thinking), but much less is known about how the broader concept of self-regulation can be applied to such contexts [13].Rather than simply improving self-regulation and metacognition, SREP operates on a strong empirical and theoretical foundation from which changes in students' behavior can be understood and explained [24,25].By applying the three-phase model of SRL highlighted previously, SREP affords students the opportunity to engage in recursive cycles of thinking and action while independently learning science course material and preparing for unit exams.at is, students learn to engage in a feedback loop that directly parallels or mirrors the forethought, performance, and self-re�ection phases as described by �immerman ( [25]; see Section 2).

Purposes of Study.
We used individual case studies to investigate the relationship between SREP instruction, observed shis in students' strategic and regulated thoughts and behaviors, and changes in their biology test grades.Unlike most SRL intervention research studies, which are more time-limited in nature and typically evaluate change in terms of pretest-posttest analysis [3,34], this study combines a pretest-posttest framework with qualitative descriptions of shis in students' regulatory processes during the course of the intervention.ese shis included how deeply students engaged in SREP discussions, how oen they attended SREP sessions, and how frequently they reported using key strategies taught during SREP sessions.is methodological approach provides a context to examine trends between shis in students' behaviors and changes in their biology exam scores.Researchers have recognized the need to illustrate how SRL might unfold during an intervention as well as how shis in SRL processes and behaviors of academic strugglers, whether learning disabled or those who simply perform below expectations, are linked to more adaptive academic outcomes [4,18].To capture the complex and multifaceted nature of SRL, researchers have also advocated for using a multidimensional SRL assessment approach [35].Methodologically, a multidimensional approach facilitates convergence of multiple data sources which then can be used to strengthen interpretive statements about changes in students' SRL behaviors during an intervention.
To date, only one study has examined the relationship between SREP instruction and science performance using a multidimensional SRL assessment approach [18].e authors implemented SREP with a small group of academically at-risk urban high school students who exhibited below average performance on biology tests during the �rst semester of a school year.In general, the authors reported a clinically signi�cant increase in biology test grades, as illustrated by improvements in all students' test scores from below average to the average or above average range.Additionally, reliability change index (RCI) procedures were used to detect statistically signi�cant changes in students' motivation beliefs and regulatory behaviors as measured with both self-report questionnaires and teacher rating scales.Furthermore, the authors included some methodological controls to strengthen claims regarding the relation between SREP instruction and the observed changes.However, to strengthen the premise that an intervention relates to observed achievement and behavioral changes in case study research, replication of �ndings is essential [36,37].With this latter point in mind, a secondary objective of the current study was to replicate the �nding that students who receive SREP show improvement in classroom-based biology test scores relative to class norms.

Method
2.1.Participants.All participants were ninth grade students enrolled in an urban high school located in a large public school district in the Midwestern region of the US.e authors used a multiple criteria screening process to select students: (a) enrollment in a ninth grade Honors biology course, (b) teacher ratings of poor student engagement and regulatory behaviors, and (c) teacher concerns about test performance [18].Students who are enrolled in Honors classes in this high school typically exhibit stronger academic skills than their same-district peers and receive nominations from their middle school teachers.However, their overall skill levels when compared to state or national norms are average.For this study, we were primarily interested in including students with average achievement (as determined by state or national level) but who were struggling to perform  [38] and suburban contexts [39].

Self-Regulation Strategy Inventory-Teacher Rating
Scale (SRSI-TRS).e SRSI-TRS is a 13-item teacher rating scale designed to assess teachers' perceptions of students' regulatory behaviors and engagement in speci�c classroom contexts [40].is scale was developed as a parallel measure to the SRSI-SR.All items were worded in relation to biology class and used a �ve-point Likert scale ranging from 1 (almost never) to 5 (almost always).Example items include "e student asks questions in class when he or she does not understand something" and "e student monitors how well he or she learns class material." e scale has demonstrated adequate internal consistency (  ) and predictive validity with high school students in urban contexts [40].

Self-Efficacy for Self-Regulated (SRL)
Learning.A 10item self-efficacy for self-regulated learning measure was employed to examine students' con�dence in regulating learning, such as planning and organizing schoolwork, motivating themselves to study, and structuring their study environments [18,41].e self-efficacy stem phrase, "How con�dent are you that you can…, " was followed by 10 efficacy phrases, including "Get yourself to study when there are other interesting things to do" and "Arrange a place to study without distractions." Students responded to all items using an 11-point Likert scale ranging from 0 (not con�dent at all) to 10 (completely con�dent).In addition, one item was reworded to ensure compatibility with the nature of the target school (e.g., item pertaining to library use).Different versions of this scale have been shown to exhibit adequate internal consistency, with  levels ranging from 0.82 to 0.85 [18,42].

Self-Efficacy for Outcomes.
A six-item self-efficacy scale adapted from the Patterns of Adaptive Learning Scale (PALS) was used to assess students' con�dence for learning and performing in biology class [31].e authors worded all items to re�ect performance in biology class and included an 11-point Likert scale ranging from 0 (not con�dent at all) to 10 (completely con�dent) to be consistent with the other self-efficacy measure.e self-efficacy stem phrase, "How con�dent are you that you can…, " was followed by the six items.An example item included "Understand the most difficult topics in biology if you try hard." e internal consistency of different versions of this scale has been shown to range from 0.70 to 0.88 in middle school and secondary school populations [18,31].

Qualitative Measures.
Qualitative information about students' strategy use and self-re�ection processes as well as students' , teachers' , and parents' perceptions of social validity of SREP (i.e., acceptability, importance) were also gathered.e inclusion of social validity measures in SRL intervention research is a relatively rare phenomenon.However, it is an important type of measure that can provide supplementary information regarding the implementation and potential effectiveness of an intervention.at is, social validity measures generate information about whether direct consumers (i.e., students) and indirect consumers (i.e., teachers and parents) perceive the intervention procedures, outcomes, and goals to be valuable and/or acceptable.ese types of perceptions are critical because they oen determine whether interventions will be rejected or embraced during future iterations of an intervention program [43,44].

Field Notes.
As part of each session, the second author, who was an advanced doctoral student trained extensively in multidimensional assessment techniques, used a behavioral checklist to document students' verbalizations and behaviors pertaining to various aspects of SRL.is checklist was aligned with Zimmerman's [25] model of self-regulation to focus on key processes underlying each of the three phases of self-regulated learning.For example, the checklist listed self-motivational beliefs as one category for behavioral documentation, such as statements indicative of self-efficacy ("I can do this") or outcome expectations ("is will help me do better").Verbal reports of using cognitive or self-regulated learning strategies at home were recorded as performance control behaviors, such as using concept maps, self-quizzing, studying in a quiet place or rewarding oneself with a snack aer studying.Self-re�ection processes, such as affective reactions ("I am happy that I did better on the exam") were also recorded.For each of these general categories, speci�c de�nitions derived from theoretical de�nitions along with example behaviors were included to facilitate accurate recording.Ample writing space for additional recording of speci�c behaviors and verbalizations was also provided.e second author was provided with the opportunity to ask questions and to con�rm the meaning of the student behaviors and verbalizations on a weekly basis with the primary author.
2.2.9.SRL Microanalysis.SRL microanalysis is a structured interview protocol that uses highly contextualized questions targeting speci�c regulatory processes as students engage in particular tasks or activities [45,46].In this study, questions targeting two self-re�ection phase processes, attributions ("What is the main reason(s) for my exam performance?"), and adaptive inferences ("What do I need to do to improve my next test performance?")were administered following the �rst and second intervention biology exams.ese questions provided qualitative information about how students perceived and reacted to test performance.Prior research has shown these two questions typically elicit maladaptive or nonstrategic responses in low achieving students [46,47].us, in this study, student responses to these questions were used by the self-regulated learning coach (SRC) to formally engage students in re�ective discussions about the quality of their strategic thinking and approaches for subsequent biology exams (i.e., during the self-re�ection module).

Social Validity.
A nine-item social validity questionnaire was administered to students, parents, and the biology teacher (see the appendix for individual items; [18]).e measure was designed to target two aspects of social validity as de�ned by Wolf [44]: (a) social acceptability of procedures, and (b) social importance of effects.is scale utilized a 5-point Likert scale ranging from 1 (strongly disagree) to 5 (strongly agree), with higher scores representing greater acceptability and consumer satisfaction.

Research
Design.is mixed model case study design emphasized the use of a comprehensive array of quantitative and qualitative measures to examine shis in students' regulatory and motivation process during and following the intervention.e authors administered self-report questionnaires and a teacher rating scale at pretest and posttest, the social validity survey at posttest only, and the qualitative assessment tools during SREP sessions.e use of this multidimensionalassessment approach allowed us to examine whether students' perceptions of their regulatory behaviors and beliefs converged with teacher and SRC observations and ratings.
We also incorporated methodological controls to reduce the likelihood that extraneous variables impacted the observed changes in students' biology test scores.In terms of achievement, we used four biology exams administered over a four-month period as the index of pretest achievement.Given that participant test scores were relatively stable over a long period of time, it is highly unlikely that changes in test performance observed during the intervention were due to maturational changes.Second, we reduced the likelihood that teacher behaviors or instruction, difficulty level of biology unit, or exam difficulty served as confounding variables by using classroom test average as a benchmark against which to evaluate changes in students' exam performance.In addition, given that all participants were instructed by the same teacher and were administered identical exams, the observed test score changes could not have been due to variability in teacher expertise or to differences in the complexity of individual tests.Finally, interviews at the end of the intervention with the teacher and students revealed that students did not receive any additional academic services during the intervention to support their learning in biology, minimizing the risk that supplementary instruction impacted changes in test grade.

General Procedures.
All assessment and SREP training sessions were conducted by the self-regulated learning coach (SRC) prior to the school day in a large classroom at the target high school.e school administrators were not comfortable in allowing SREP to occur during the school day because of potential scheduling con�icts and missed classroom instruction.Trained graduate students administered the pretest and posttest measures and a cognitive screening tool (i.e., Wechsler Intelligence Scale for Children-Fourth Edition).e social validity questionnaires were administered at the conclusion of SREP, with student demographic data being provided by the school at the end of the academic year.All participants had the opportunity to attend 17 SREP sessions over the course of 12 weeks.A total of 24 sessions were initially planned (two sessions per week) but school functions, school closings (snow), and other logistical issues resulted in seven sessions being cancelled.Sessions were approximately 45 minutes in length, highly structured, and organized around the format and protocols of the SREP manual.

SREP Instructional Principles and Procedures.
Given that extensive details about SREP are provided elsewhere [18,28], we will only brie�y describe the instructional format and sequence.In general, the primary purpose of SREP is to embed content-speci�c cognitive strategy instruction within a self-regulation process of thinking and action.In general, students are taught to think and act in a cyclical, regulated way while studying and preparing for biology exams.�ore speci�cally, students are taught to (a) set process goals (e.g., use of strategy) and outcome goals (e.g., speci�c test grade) and develop strategic plans prior to learning or studying, (b) implement, use, and monitor learning and regulatory strategies during studying activities, (c) and re�ect on the quality and effectiveness of the learning strategies aer test performance.is instructional focus directly corresponds to Zimmerman's [25] three-phase cyclical feedback loop.
Using a series of instructional modules, the SRC taught students how to (a) set goals and develop strategic plans, (b) use cognitive learning strategies (e.g., concepts maps) and regulatory strategies (e.g., self-monitoring, self-control) when studying at home, and (c) evaluate and re�ect on their biology tests (see [18] for speci�c module details).e most comprehensive aspect of SREP training, however, involved strategy instruction.roughout the intervention program students were taught both cognitive strategies, such as concept maps and mnemonic devices, and regulatory strategies, such as self-monitoring, help seeking, time management, and environmental structuring.e strategy instruction entailed using a well-de�ned instructional sequence: explanation of strategies, modeling, and guided practice [25].e memory tactics and concept map modules were implemented during the fourth and �h weeks of SREP, respectively.Each strategy module was administered over two sessions.e �rst session involved strategic instruction, with the second session devoted to teaching students how to monitor their rate of learning using the learning strategies (e.g., self-quizzes).From week six through the completion of the SREP, the SRC led students through successive cycles of guided practice in using cognitive strategies (e.g., concept maps) and various self-control strategies (e.g., environmental structuring, time management) in a self-regulated manner as determined by students' self-expressed needs.It is important to note that these latter sessions were highly collaborative and individualized in that students were encouraged to express their speci�c challenges when learning biology content or when using a cognitive strategy during studying at home.
An underlying theme in the SREP instruction is the alternation between the highly structured SREP sessions (which included high levels of feedback and guided practice opportunities when using cognitive strategies) and the independent use and monitoring of these strategies at home.e SRC not only provided students with ample practice opportunities during SREP to apply strategies to course content but also how to practice and track how well they learned using these strategies at home.As will be discussed across the case studies, students varied in how well they were able to independently use these strategies outside the presence of the SRC.
Finally, the SREP self-re�ection module is one of the most important components of the program because it explicitly guides student re�ection on whether they reached their goals, the potential reasons for their performance, and what they need to do strategically to improve.It is during this module when the SRC provides individualized and customized feedback to best address students' speci�c maladaptive beliefs and behaviors.Following the �rst two biology tests during SREP, the SRC administered the brief SRL microanalytic protocol to examine student attributions and adaptive inferences.Although the primary function of this qualitative data was to help the SRC guide intervention activities and re�ective conversations, in this paper we present examples of students' microanalytic responses to illustrate the quality of their re�ective thinking during the course of the intervention.

Results and Case Study Analysis
Multiple assessment tools and sources were used to examine the level of correspondence between biology test score patterns exhibited by each of the participants and their SREP attendance as well as shis in their use of cognitive and regulatory strategies and motivation during and immediately following the intervention.For the metric SRL measures (i.e., SRSI-SR, SRSI-TRS, self-efficacy), we calculated reliability change index (RCI) scores to examine pretest-posttest changes in SRL and motivation beliefs.RCI procedures involved dividing pretest-posttest differences by the standard error of the differences between the two test scores [48,49].�ne can interpret an RCI of 1.9� as a statistically signi�cant difference at a    level, whereas an RCI of 2.33 or greater is signi�cant at a    level and is viewed as having greater clinical signi�cance.�ualitative information gathered from �eld observations, microanalytic questions, and social validity questionnaires were used to supplement the quantitative measures.

SREP and Biology Exam Performance.
Using descriptive analysis, it was observed that, in general, each of the participants showed positive gains when comparing their average pretest exam score to their average intervention score.However, there was a high level of variability in the pattern of speci�c intervention test scores across participants (see Table 2).For example, both Pauline and Vince showed steady improvement during the intervention, whereas Eric and John showed initial progress but then displayed a sharp decline in performance on the �nal test of the semester.
To interpret these case studies, we discussed normative changes in student biology test performance and then illustrated whether these test score patterns closely corresponded to shis in their regulatory and motivated behaviors, their SREP attendance and punctuality, and their perceptions and motivation beliefs.A series of quantitative and qualitative assessment tools were used to accomplish this objective.To structure the narrative sequence for each case, we highlighted students' regulatory behaviors and motivation when beginning SREP, speci�c challenges that they exhibited or encountered, and the evolution of the quality of their regulatory perceptions, beliefs, and strategic behaviors during the intervention.Within this narrative, we address three overarching themes: (a) shis in motivation beliefs and strategic or regulatory behaviors, (b) degree of convergence among assessment tools to support interpretive conclusions, and (c) correspondence between motivated and regulatory behaviors and intervention biology exam scores.

Vince and Pauline. �n the �rst intervention exam,
Vince and Pauline performed substantially below the class average.However, they both showed substantial growth during SREP.Vince performed 0.95 (raw score exam = 8%) to 0.80 (raw score exam = 9%) standard deviations above the class mean on the last two intervention exams, whereas Pauline performed 0.17 (raw score exam = 75%) and 0.68 (raw score exam = 93%) standard deviations above the class average on the last two exams.Both Vince and Pauline clearly improved their test performance during the intervention in comparison to their pretest exam scores.

Vince: Link between Motivation, Regulation, and
Achievement.Based on a review of records and several assessment tools used in this study, Vince presented as a highly interested and eager learner who underperformed academically relative to his effort and motives for achieving success.Vince's motivation to improve was demonstrated in his SREP attendance; Vince attended the highest percentage of SREP sessions of the four participants (82%; see Table 3), arriving to most sessions on time and with classroom materials.In addition, at pretest, he exhibited relatively high perceptions of efficacy and reported that he frequently used different strategies when studying for biology tests (see Table 4).
Interestingly, Vince also displayed some awareness of speci�c areas of challenge for him.�e self-reported that he struggled to consistently comprehend and understand biology course material, particularly technical vocabulary.During one of the initial sessions, the SRC noted that the technical vocabulary associated with biology represented a major hurdle for Vince and that he did not exhibit a strong repertoire of strategies for learning vocabulary.For example, Vince conveyed that his study plan consisted of looking over his notes and simply stating vocabulary words aloud to remember them (SREP �eld notes, March 5, 2008).At around the same time, Vince underperformed on a quiz of the skeletal system because he confused several anatomical terms (SREP �eld notes, March 17, 2008).�e was disheartened by the results of this quiz because he had reportedly spent a considerable amount of time preparing.In short, despite exhibiting strong motivation and desire to perform well, Vince felt frustrated by his lack of success and struggles with learning key terms for tests.Vince's difficulty with vocabulary again surfaced during the SREP module devoted to teaching mnemonic strategies.During one particular session, Vince openly talked about his frustration when learning to pronounce complex or challenging technical vocabulary (SREP �eld notes, March 31, 2008).
It was not until the SRC began to explain and model speci�c tactics on how to learn key terms and to monitor how well he learned them when studying at home that Vince began to exhibit more strategic behaviors and improved test performance.Although he was initially resistant to using mnemonics to learn vocabulary words or to use self-quizzes to monitor his study approach, Vince gradually began to practice this tactic aer receiving guided practice support and encouragement from the SRC (SREP �eld notes, April 2, 2008).Vince was similarly hesitant during the next session which focused on concept maps but, again, quickly embraced this strategy as the SRC systematically modeled and provided guided practice support (SREP �eld notes, April 4, 2008).�is acceptance and application of these strategies were observed during a subsequent SREP session when both Vince and John began to re�ne their use of mnemonics, concept maps, and self-quizzing together (SREP �eld notes, April 16, 2008).Of particular interest is that Vince's desire to use concept maps is consistent with prior research showing that various types of graphic organizers oen facilitate learning and comprehension with ELL students [50,51].It is possible that Vince experienced greater success in learning when using these strategies and thus was highly motivated to use and apply them.
As predicted by the three-phase model of self-regulation [25], changes in Vince's use of concept maps and mnemonic devices coincided with adaptive changes in his self-re�ective thoughts following exam performance, suggesting that Vince began to think about exam performance in relation to the strategies taught during SREP.For example, as part of the self-re�ection module administered following his second biology test, Vince reported that learning key vocabulary terms was the primary barrier to his success.In addition, he attributed his performance on the second intervention exam, which was a large improvement from his �rst intervention exam, to the perceived "large amount of time he studied" and the use of "easier ways to remember more information about all of the subjects" (SRL microanalysis, May 5, 2008).ese latter statements were in reference to the mnemonic devices and concept maps taught during SREP.
It was during this discussion that Vince spontaneously revealed to the SRC that he had received ELL services from the �rst to sixth grade, which he associated with his difficulty learning biology terms (SREP �eld notes, April 21, 2008).�is re�ection exercise marked an important shi for Vince because he began to attribute his exam outcomes to controllable factors (e.g., study strategies) that he could modify.
Research has shown this type of attribution response to be quite adaptive in promoting more positive motivation and self-regulation [52,53].In fact, during this particular self-re�ection discussion, Vince spontaneously elected to expand his strategy plan for the third intervention exam to include asking his sister to quiz him on key terms and concepts (SREP �eld notes, April 21, 2008).Not only did Vince become more strategic with how he learned information, but he also explored ways to structure his study sessions and to regulate his motivation and studying behaviors, such as time management, environmental structuring, and self-reinforcement (all components of the performance phase of the three-phase cyclical model).SRC �eld notes showed that Vince experimented with selfreinforcement, whereby he would award himself with an aerschool snack only aer he completed his homework.Vince deemed this strategy effective because, as he revealed in an earlier SREP session, he would get distracted most oen aer he ate (SREP �eld notes, March 19, 2008).�ver the course of the SREP intervention, Vince also recognized the value of time management as he reported using intermittent breaks of soccer to help him structure his studying and to enhance his time management (SREP �eld notes, May 19, 2008).
Although many of the behaviors and strategies that Vince exhibited were prompted and guided by the SRC, there was also evidence that Vince began to proactively and independently adapt and use strategies taught during SREP.For example, aer learning how to use concept maps and summarization techniques during an SREP session, Vince independently and spontaneously (i.e., without prompting from the SRC or teacher) developed a series of potential test questions to guide his studying at home the following weekend (SREP �eld notes, April 16, 2008).Vince brought these questions into the following SREP session to share with John and to receive feedback regarding their appropriateness and quality.Vince exhibited similar behaviors prior to the third intervention exam, as he generated additional questions to quiz himself as he studied for this �nal unit exam (SREP �eld notes, May 19, 2008).In short, by the end of SREP, Vince exhibited a pro�le of high achievement and adaptive motivated and self-regulatory behaviors.In fact, aer SREP had ended, Vince met with the SRC to debrief about the program.

Education Research International
During this conversation he spontaneously revealed that prior to SREP he would typically gloss over difficult words because focusing on them elicited feelings of embarrassment and frustration.However, he reported that during SREP he recognized the value of using SREP strategies to deal with the problem as well as the use of alternative strategies to �nd de�nitions of unfamiliar words, such as using the Internet (SREP �eld notes, May 28, 2008).eorists have described these types of proactive or self-generated behaviors as being re�ective of adaptive levels of personal agency and regulatory sophistication [25,54].
Another important theme involved the level of convergence between pretest-posttest changes in quantitative measures of SRL (i.e., self-report questionnaires and teacher rating scales), the �eld note observations, and data derived from microanalytic re�ection questions.For Vince, there was poor convergence between most quantitative measures and the qualitative assessment tools.For example, RCI analysis of both the self-report and teacher version of the SRSI showed that there was no improvement in Vince's strategic approach to learning biology course content (see Table 4).at is, despite evidence for shis in his strategic behaviors as noted previously, Vince did not perceive that he used strategies more frequently nor did his teacher report that he was more strategic during classroom activities.is lack of convergence may suggest that students may have difficulty accurately reporting their strategic behaviors, a premise consistent with prior research [55,56] or that self-report questionnaires may oen lack the sensitivity needed to capture speci�c shis in students' use of cognitive or regulatory strategies.
In terms of Vince's pro�le of self-efficacy perceptions, he displayed relatively high efficacy perceptions at the beginning of SREP.ese high levels of efficacy were consistent with his high level of motivated behaviors exhibited at the outset of the program and his strong SREP attendance.Unlike his SREP peer participants, however, Vince sustained these high beliefs throughout the program, with his change in efficacy for regulated learning narrowly missing statistical signi�cance (see Table 4).By sustaining his belief in personal capability and through recognizing that learning study strategies were connected with his improved test grades, Vince displayed the most consistent pattern of SREP attendance and was rarely late to the intervention sessions.

Pauline: Link between Motivation, Regulation, and
Achievement.As indicated in record reviews, Pauline displayed adequate achievement and intellectual skills, but struggled on tasks that involved self-directed or independent activities.She was a good candidate for SREP in this context because test preparation was the key task of interest that necessitated a high level of self-initiation and self-direction to perform well.Based on SREP �eld notes, Pauline was distracted, frustrated, and disorganized during the initial SREP sessions and oen exhibited poor strategic behaviors and motivation beliefs.For example, when asked to describe her approach to studying at the beginning of SREP, Pauline related that she saved all her studying for the weekend (SREP �eld notes, March 5, 2008) and that her typical approach to learning and recalling key terms and course content was to "keep going over them until my brain hurts" (SREP �eld notes, March 1�, 2008).Pauline expressed frustration during initial SREP sessions because she did not perform well on exams despite her efforts and oen forgot to turn her assignments in on time, even when she had completed the assignments (SREP �eld notes, March 1�, 2008).Pauline's difficulties with learning course material and time management appeared to impact her mood and thoughts, as the SRC noted that she was oen tired, distracted, and confused during initial sessions.On one occasion, Pauline expressed a declining level of self-efficacy, stating "everything is difficult for me" (SREP �eld notes, March 31, 2008).�iven this pattern of beliefs and behaviors, it made sense that Pauline attended only four out of the �rst 10 sessions and that her perceived efficacy to regulate her learning was only at a moderate level (see Tables 3 and 4).
Despite exhibiting maladaptive behaviors at the outset of SREP, Pauline evinced an important shi in regulatory thinking and behaviors immediately before the second exam.She also appeared to become more entrenched in strategic thinking during the self-re�ection module administered following the second intervention test.When probed with an attribution question during the self-re�ection module ("What is the main reason why you got this test grade?"),Pauline identi�ed running out of time when taking the test and spending too much time studying a narrow set of topics as the key causes of her performance (SREP microanalysis, April 28, 2008).inking about her test outcomes in terms of speci�c strategies was highly adaptive because she recognized that, with the help of the SRC who had modeled such thinking during SREP sessions, she could improve her test performance if she modi�ed her study plan (a type of controllable, internal, and unstable attribution).As part of the self-re�ection session, Pauline also made effective adaptive inferences by identifying controllable actions she could take to improve her next exam grade.For example, she cited studying "equally on each section" as one method for ensuring that she did not neglect key test topics (SREP microanalysis, April 28, 2008).In addition, the speci�city of her plan increased as she reported practical methods to better manage her time and quality of learning.For example, she determined a speci�c amount of time that she would devote to studying each night (rather than wait for the weekend) and planned to utilize speci�c tactics, such as, "thinking about questions and easier strategies" to help her remember key terms and content.Recognizing that anxiety was a selfreported area of concern, Pauline included the use self-talk in her strategic plan for the third test by reminding herself "the more I study the better my grade will be" (SRL microanalysis, May 6, 2008).
Of particular importance from a self-regulatory perspective was that Pauline increased how frequently she sought out support prior to the third intervention biology test, such as asking her older siblings for assistance (SREP �eld notes, April 21, 2008).is behavior was highly adaptive because it enabled her to clarify points of confusion and to receive support and con�rmation regarding the appropriateness of her approach to her studies.Furthermore, help seeking is widely regarded as an essential regulatory skill that is used by highly effective learners [57,58].During subsequent sessions, Pauline also reported that she proactively researched mnemonic devices on the Internet to help her remember content prior to an exam on the circulatory system.It is important to note that these latter behaviors occurred immediately following an SREP session on help-seeking and information-seeking strategies.In other words, these anecdotal observations suggest that Pauline attempted to apply and adapt strategies that she learned during SREP to enhance her independent studying at home.
Another important shi for Pauline occurred following her second exam, when she recognized that attending SREP sessions on a more regular basis would help her improve her test performance by getting more practice and feedback from the SRC.In fact, Pauline attended �ve of the last seven SREP sessions that occurred prior to the third intervention exam, with one of those absences resulting from a family vacation rather than her decision to not attend.Consistent with her increased level of self-directedness and initiative, Pauline spoke with the SRC about how to prepare early for the third intervention exam given that she was going to miss the SREP session prior to her exam (SREP �eld notes, April 28, 2008).Despite beginning SREP with poor levels of organization and self-directed behaviors, Pauline gradually initiated her own attempts to learn and sought out the appropriate assistance when struggling.
Furthermore, Pauline's self-reported perceptions of strategy use, teacher ratings, and SRC observations during SREP showed a moderate amount of convergence.In general, Pauline perceived that she engaged in less maladaptive regulatory behaviors (e.g., lack of organization, forgetfulness) at the end of the intervention, (RCI = 2.00,   0.0).ese self-reported behaviors were consistent with �eld note observations about Pauline's behaviors highlighted previously as well as teacher ratings showing a signi�cant increase (pretest to posttest) in Pauline's regulatory and motivated behaviors during biology class, (RCI = 3.75,   0.0).Interestingly, no signi�cant pretests to posttest change was found regarding Pauline's perceptions of how frequently she used adaptive cognitive and regulatory strategies during learning.is lack of correspondence between her perceptions of strategy use and the changes in strategies observed by the SRC and biology teacher is consistent with �ndings related to �ince.at is, signi�cant changes on the SRSI adaptive subscales may not have been observed because either Pauline did not accurately report these behaviors due to overestimation at pretest or due to poor awareness of what she actually did to prepare for exams.
Analysis of Pauline's declining self-efficacy throughout the intervention further underscores the latter point about inaccuracies in student self-perceptions.Pauline began SREP with very high levels of self-efficacy to perform well in biology but displayed relatively lower levels of efficacy to manage and regulate her learning.Her low efficacy for regulation made sense given that organization and regulation were speci�c areas that Pauline and her teachers noted as personal areas of weakness.Her in�ated efficacy for biology outcomes, however, suggested a lack of awareness on her part regarding being able to learn biology material well, particularly because her pretest biology test average was so low.In analyzing pretest-posttest differences across these two self-efficacy measures, her self-efficacy for attaining biology outcomes showed a signi�cant decline whereas her efficacy for regulation did not change.e decline in her efficacy for biology outcomes can be understood from a calibration perspective.at is, as Pauline became more aware of her learning challenges or weakness, even with improved biology test scores, her perceived capabilities shied.is is an important phenomenon because given the high level of monitoring and self-awareness enhancement that occurs during SREP, students will not only become more aware of progress that they make but also their personal limitations and speci�c areas of struggle.

Eric and John.
Although Eric and John exhibited different pretest exam score averages, with Eric's pretest average slightly above the classroom mean ( = 0.,  exam = 7.8)and John's pro�le substantially below the mean ( = .3, exam = 50.5),they demonstrated a similar pattern of exam performance over the course of the intervention (see Table 2).at is, both students showed an initial increase in their biology exam scores relative to their pretest averages but struggled to sustain this performance over time.

Eric: Link between Motivation, Regulation, and Achievement.
Eric exhibited strong performance on his �rst two biology intervention tests but exhibited slightly below average performance on his third exam.Interestingly, the majority of the data gathered from quantitative and qualitative methods supported the premise that Eric's behaviors during class time and during SREP sessions were adaptive, at least initially, but that he was unable to sustain these behaviors throughout the intervention and struggled to implement what he learned during SREP without external support.
roughout SREP, Eric attended most of the sessions and was very engaged during the initial part of the training program.During the initial SREP sessions, students identi�ed the reasons why they displayed inconsistent performance in biology.Eric expressed several controllable or modi�able factors, including difficulty with recalling information following studying, poor knowledge of test preparation strategies, and difficulty concentrating or avoiding distraction when doing work at home (SREP �eld notes, March 5, 2008).Prior to the �rst intervention exam, Eric expressed a strong desire to re�ne and extend his repertoire of strategies in preparation for upcoming exams, including rewriting notes and looking over labs as opposed to simply reading over notes (SREP �eld notes, March 12, 2008).His level of strategic engagement was also apparent in preparation for the second biology exam as he reported using self-quizzing tactics as a way to monitor his learning.He also demonstrated a strong interest and skill in being able to generate his own mnemonic strategies to address his self-reported problems with recall for exams (SREP �eld notes, April 2, 2008).His extremely positive attendance and punctuality to SREP, along with his interest in applying learning strategies to improve learning, was highly consistent with his strong performance on the �rst two biology exams (see Table 2).
Interestingly, following the second intervention exam, �eld note observations and self-re�ection discussions revealed that Eric began to disengage from SREP.As part of the self-re�ection module following this exam, Eric reported that he "did not study very speci�c material, " and that this was the key factor affecting his grade (SREP microanalysis, April 28, 2008).In terms of what he believed he needed to do to improve (adaptive inference), Eric indicated that he needed to become "more detailed in studying and reviewing" (SREP microanalysis, April 28, 2008).However, during this self-re�ection discussion, Eric conveyed that he would like to continue to improve his test grades, but he was unwilling to put forth the necessary effort to do so (SREP �eld notes, April 28, 2008).It was following this exam when Eric began to show signs of disengagement, characterized by excessive lateness to SREP sessions (see Table 3).
Many theorists argue that the motivation to engage in learning is largely determined by one's motivation beliefs, such as self-efficacy, task interest and value, and conceptions of ability [25,59,60].In Eric's case, his declining motivation could be explained by several of these beliefs, including his tendency to perceive exam performance as a stable trait (i.e., conceptions of ability; [59]), his declining self-efficacy, and his devaluing of biology class (task value; [25]).Eric exhibited a large and statistically signi�cant decrease in his efficacy beliefs for attaining positive biology outcomes (RCI = −4.94,  .) from pretest to posttest.Similar to Pauline, at pretest Eric's self-efficacy for biology outcomes was at the upper extreme (i.e., a raw score of 10) and plausibly overin�ated relative to his average level of biology performance at pretest.Given that SREP sessions oen included conversations centering on students' speci�c strategic weaknesses along with potential suggestions for improvement, it is highly probable that he became more aware of his personal weaknesses as well as the inherent obstacles to learning success.As a result, his perceptions about his ability to perform well were also adversely impacted.According to Bandura [61], students who begin to doubt their capabilities are much more likely to avoid work and to display poor effort.It is also noteworthy that towards the end of SREP, Eric began to exhibit behaviors suggesting that he did not place biology class as a priority in his life.For example, during one session prior to the third intervention exam, Eric doubted whether he would study for the third intervention exam as planned because he wanted to visit his brother, who was in college, since it was more en�oyable (SREP �eld notes, May 8, 2008).
Although it is difficult to ascertain whether Eric's value perceptions were directly in�uenced by his lowered selfefficacy (i.e., "if I cannot do something well, I do not value it"), there was also qualitative data suggesting that he possessed an entity conception of ability rather than a more incremental one [59].Entity theorists tend to view ability as a �xed capacity whereas incremental theorists perceive it to be malleable with practice and effort.Entity theorists would perceive low levels of effort as re�ecting high capability.During an SREP session, Eric talked about his older brother performing exceedingly well in high school and in college while also conveying his perception that his brother did not appear to try very hard to attain these grades (SREP �eld notes, April 28, 2008).Although Eric expected that he would experience similar success, it appeared that he displayed poor awareness about the level of effort that his brother probably put forth to maintain this high level of performance or the level of effort that he personally needed to sustain a high level of performance.As a result, Eric believed that he could experience the same success as his brother without much effort.However, when he realized during SREP that he might need to exert high levels of effort to learn challenging concepts or to be a consistent performer, he appeared to display avoidance and resistance for the remainder of SREP.
An alternative explanation as to why Eric may have disengaged and experienced lower self-efficacy was that he was unsure how to enact more strategic forms of studying without external support.is is an intriguing possibility because Eric's dwindling attendance and engagement in SREP may have limited the extent to which he effectively applied the study strategies taught during previous SREP sessions.at is, Eric received speci�c, performance-related feedback from the SRC on how to implement study strategies in a selfregulated manner.By modeling how learning strategies could be used in a self-regulated manner, the SRC demonstrated what could be done to better learn biology content.In the context of the SREP session, Eric felt con�dent about what strategies he could use and how these strategies could be adapted.However, in the absence of the feedback rich setting of SREP, Eric was unable to independently use the strategies he learned.Although speculative, it is possible that upon becoming aware of his struggle to do so at home, his interest and self-efficacy for learning declined.Whereas Vince and Pauline expressed excitement and enthusiasm at the prospect of independently altering their use of strategies to increase their grades, it appeared that Eric did not experience those positive feelings.It is possible that Eric did not know how to apply these strategies at home without the support of the SRC and was not willing to exert the effort needed to do so.
In terms of his self-perception of strategy use, RCI procedures revealed no signi�cant changes from pretest to posttest (see Table 4), suggesting that his pro�le of regulatory skills did not improve during the intervention.e lack of positive change in strategy self-report questionnaires mirrored the declines in his SRL behaviors and motivation that were observed in his poor attendance record and his lowered levels of self-efficacy.Interestingly, the biology teacher reported that Eric had generally become more engaged and motivated during his participation in SREP, rating him in a signi�cantly more positive way at posttest than pretest (RCI = 3.,   .).is level of divergence was interesting because it suggested that while Eric's regulatory and motivated behaviors improved in biology class (i.e., a context whereby he could receive external support) his interest and motivation to perform independent studying activities at home declined.From an instructional perspective, it was clear that Eric needed additional supports to help modify his maladaptive thinking and to sustain his strategic efforts when studying at home.Despite possessing adequate academic and intellectual skills, a record review and teacher reports showed that John struggled with motivation, organization, and self-regulation at the beginning of SREP.For the �rst two sessions, John arrived approximately forty minutes late, effectively missing the entirety of the content presented (SREP attendance notes).Pulled aside by the SRC to inquire about his tardiness issues, John stated that he arrived late because he missed the bus (SREP �eld notes, March 12, 2008).e SRC discussed the importance of arriving on time and worked with John to identify how he could arrive on time.John attended the next SREP session on time, but struggled with attendance and punctuality for the remainder of the intervention (SREP attendance notes).In addition to routinely arriving late, John attended most SREP sessions without his materials and made comments regarding projects for other classes that he had not �nished on time (SREP �eld notes, March 17, 2008).ese behaviors were highly consistent with teacher reports of his poor organization skills.Given his extremely sporadic and infrequent attendance to SREP sessions and the high level of consistency in his weak self-regulatory processes and strategic behaviors, we will discuss a few key issues pertaining to John's de�cient motivation and regulatory skills rather than providing a sequential account of his behaviors during SREP as was illustrated with the other cases.
First, John reported relatively low perceptions of efficacy at pretest, suggesting that prior to SREP, he did not possess a high level of con�dence about regulating his learning in biology or performing well in the course (see Table 4).Although John improved his exam performance by about 0.79 standard deviations, his biology exam performance was still near failing and far below his classmates.Given his normatively weak performances in biology, it makes sense that he did not "see" his test score improvement; thus, he sustained low self-efficacy for biology outcomes and even exhibited signi�cant declines in his self-efficacy for regulated learning (RCI = −2.58,  .).As stated earlier, research has shown that when students display poor levels of selfefficacy they become disengaged from learning [61].
ere was also evidence that John possessed poor metacognitive skills regarding his knowledge and awareness of the nature and format of his biology exams.In discussions that occurred during the self-re�ection module following intervention exam two, it was revealed that John erroneously interpreted attaining a 93 on a 150-point test as equivalent to the same score on a 100-point test (SREP �eld notes, April 28, 2008).Similarly, John believed preparing for a 150point test did not require more effort than preparing for a 100-point test (SREP �eld notes, April 28, 2008).It was not until the SRC discussed these misinterpretations that John acknowledged the discrepancy between his perceptions and the demands of studying for biology tests of varying complexity and length.Self-regulation researchers have consistently found that students who demonstrate poor awareness of task demands or their own skill levels are typically those who underperform in school [62][63][64].Although enhancing John's self-awareness and poor motivation (i.e., SREP attendance) became the primary instructional goal of the SRC, poor attendance and punctuality limited the opportunities for the SRC to impact John's strategic skills, motivational beliefs (self-efficacy, perceived instrumentality), and cognitive and metacognitive approach to studying for biology exams.
Finally, for John, there was complete convergence amongst SRL assessment tools and his performance on biology exams.In short, all measures demonstrated that John did not exhibit changes in his regulatory behaviors or strategies during the intervention nor did he substantially improve his exam grades.For example, based on both selfreport (SRSI-SR) and teacher rating scales (SRSI-TRS), there were no signi�cant changes in his perceptions of strategy use and regulatory behaviors from pretest to posttest (see Table 4).Similarly, John exhibited maladaptive behaviors that limited the extent to which he bene�ted from the SREP intervention, including poor time management and self-re�ection, sporadic attendance, and poor punctuality to SREP sessions (see Table 3).John attended only 65% of the sessions (11/17) and was late more than 15 minutes for six of those sessions.us, he not only missed approximately half of the sessions, but also key instructional content on those days in which he did attend.In sum, John's consistent below average test performance clearly converged with his lack of growth in strategic and metacognitive skills, his poor motivation, and his low attendance of SREP sessions.

Conclusions and Areas of Future Research
is study examined the relationship between shis in student SRL and motivation during an intervention and their test performance changes in a speci�c academic content area.In general, students who attended SREP sessions on a regular basis and practiced using the strategies taught during SREP exhibited substantial improvement.is paper also descriptively illustrated the association between students' motivation beliefs and self-re�ection processes (e.g., attributions) with their enactment of regulatory and learning strategies; a �nding that parallels the SRL literature [6,38,65,66].Of particular importance was the varied responsiveness of students to the SRL intervention, ranging from "steady improvement" (Vince and Pauline), to "progress with difficulty sustaining motivation" (Eric), to "slow or minimal progress" (John).e utility of a multidimensional SRL assessment approach for assessing the dynamic, context-speci�c nature of SRL was also underscored.at is, self-report questionnaires, teacher ratings, SRL microanalytic questions, and �eld observations can provide a robust foundation for interpreting and explaining student behaviors during an intervention.

Relation between SREP and Science Achievement.
All four students who received SREP showed improved biology test scores relative to their individual pretest score averages.�ased on �ndings from this study as well as those from Cleary et al. [18], SREP participants have demonstrated z-score changes ranging from 0.13 to 1.5 ( = .55;Median = .36),with most showing signi�cant changes in their motivated and self-regulated behaviors (see Tables 2 and 5).In addition, social validity information gathered from parents, teachers, and students in the current study and prior research [18] indicated that SREP was deemed to be a highly acceptable, relevant, and important intervention that has great potential as an academic intervention in high school contexts.e primary purpose of the present study, however, was devoted to examining how shis in student SRL processes, motivation beliefs, and motivation-related behaviors corresponded to the instructional opportunities provided in SREP and to changes in students' in biology test grades.Our results showed that changes in these SRL processes were clearly linked to shis in exam performance and SREP attendance.is relationship was strengthened through our use of a multidimensional assessment approach as well as the control of several extraneous variables.For example, using z-score transformations and selecting students from a biology course taught by the same teacher controlled for the impact of teacher skill, instructional approach, and exam difficulty.at is, if the teacher developed easier exams or enhanced the quality of her teaching during the same semester in which SREP was implemented, all students would have likely bene�tted and thus one would probably not have observed normative changes in participant test scores.e fact that a couple of the students performed substantially above the class average also makes it less likely that regression to the mean accounted for improving test scores.Furthermore, each participant's pretest biology exam score was calculated from several exam grades obtained over an extended time period (5 months); the use of a relatively stable baseline over a long time period minimized the potential that typical development or maturation contributed to the observed effects.Finally, interviews with students towards the end of the SREP intervention revealed that they had not received any tutoring or supplemental instruction in biology besides SREP during the course of the intervention.e analysis of individual cases suggested that SREP afforded or created structured opportunities for students to optimize their motivation and to enhance their SRL skills.at is, the SRC modeled and provided guided practice in using speci�c learning strategies, encouraged students to monitor their use and application of these strategies during test preparation outside of school, and engaged students in discourse about the link between the use of learning and regulatory strategies during most SREP sessions.ose students who consistently attended SREP sessions, such as Vince and Pauline, had greater opportunities to learn, re�ne, and adapt their use of strategies and to develop more positive motivation beliefs that enhanced their future learning efforts.In contrast, John exhibited extreme lateness and poor attendance to SREP sessions and did not provide any evidence of improved regulation or motivation during the intervention.e primary implication from this analysis connects shis in student SRL and motivation processes during the intervention (i.e., either increased or decreased) with changes in biology test grades.For both Pauline and Vince, practicing and applying speci�c cognitive and self-regulatory strategies while studying at home appeared to lead to substantial improvements in test performance.However, this improvement occurred in tandem with increased self-re�ection on how their biology test scores related to the strategies they used to prepare for tests.Furthermore, Eric and John missed extensive instructional time during the last seven or eight SREP sessions, which collectively were devoted to guiding students to independently use the skills taught while studying at home.ese sessions were devoted to shaping students' thought processes and behaviors by providing repeated guided practice opportunities for adapting and re�ning self-motivation beliefs and the use of cognitive and regulatory strategies.Eric and John would have clearly bene�tted from these types of discussions as they showed either poor motivation or skill in independently using these strategies when studying at home.
At a more general level, it is important to realize that some students who exhibit the types of negative belief patterns illustrated by Eric and John will naturally display resistance to change and may actually disengage from learning.Consistent with response-to-intervention (RTI) models [67,68], interventionists must recognize individual differences in how students respond to SRL interventions.Given that not all students respond similarly necessitates the use of a �exible service-delivery model that adapts sessions to most effectively address individual concerns and issues.

Patterns of SRL during SREP: Implications and Future
Research.Self-regulation has been conceptualized as a multidimensional process that integrates forethought, performance, and self-re�ection processes [23,25].Given the breadth and depth of the SRL construct, researchers have argued that multiple assessment tools should rely on a variety of sources to measure changes in students' regulatory beliefs and behaviors [35].In this study, we illustrated that various assessment tools can be used to establish convergence regarding changes in self-regulatory processes and behaviors.However, there was a large disconnect between information generated from student self-report questionnaires and the data obtained through teacher and SRC observations and the contextualized student verbalizations during SREP.In general, no pretest-posttest differences were observed across any of the three subscales of the SRSI-SR for the four participants, except for the signi�cant improvement displayed by Pauline on the SRSI-SR Maladaptive Regulation subscale.Collectively, these results suggest that student perceptions regarding the frequency with which they used cognitive and regulatory strategies did not change.However, information gathered from the SRSI teacher rating scale as well as from �eld note observations of students' verbalizations, regulatory behaviors, and work products, suggested that changes did occur, at least on some level, for all participants (John being the lone exception).Although caution should be applied in drawing overly broad conclusions regarding the appropriateness or adequacy of self-report questionnaires, an interesting point is that if self-report questionnaires, which are typically the most common form of SRL assessment, was the only type of SRL measure used in this study our conclusions would have varied greatly from those generated by using our multidimensionalassessment methodology [35].Along a similar vein, a limitation of this study was the use of only a single type of self-report motivational belief measure (i.e., self-efficacy measure).It would have been helpful to include multiple measures of motivation beliefs, such as task values and goal orientation, so that a more robust foundation could have been used to interpret shis in students' effort and persistence.
In terms of the appropriateness of using self-report questionnaires, the present study corroborated previous research demonstrating that self-report surveys diverge from other measures of SRL� a �nding that is consistent with the SRL assessment literature showing that what students say that they do (self-report questionnaires) is oen not what they actually do [55,56].is measurement characteristic can be problematic or advantageous to researchers or interventionists, depending on their research goals and objectives.If a researcher is primarily interested in examining the efficacy of an intervention, self-report questionnaires can be particularly problematic because students tend to overestimate their skills, behaviors, and beliefs at pretest, thereby potentially obscuring any "true" gains that might occur.It is highly probable that this occurred for many of the students in our study.
Conversely, if the goal of an SRL assessment tool is to guide or inform instruction, then self-report measures are critical because they can potentially help to identify inaccurate student judgments and perceptions.e importance of student miscalibration was highlighted extensively in the present study.All participants, aside from John, provided extremely high pretest self-efficacy perceptions for attaining positive outcomes in biology class even though their biology pretest exam performance was not strong.Although overestimates of personal capability can be advantageous in sustaining effort and motivation [62], they can be problematic when they signify poor metacognition and awareness about their personal strengths and weaknesses.However, from the perspective of an interventionist or a practitioner, poor calibration or self-assessment skills can be used as a guide for instruction or intervention.Several researchers have discussed how interventions can be employed to enhance the accuracy with which students self-assess their performance capabilities and to help them become more aware of task demands and their own knowledge and skills [7,[69][70][71].
In terms of future research, alternative research methodologies, such as quasi-experimental or experimental designs, should attempt to more closely examine and strengthen the premise that SREP causes changes in science achievement and self-regulation.Issues pertaining to external validity and inter-rater agreement for behavioral observations are also important in examining SREP.Although the present sample was diverse in terms of gender and ethnicity, it is important to consider the effectiveness of SREP with students exhibiting disabilities, such as a learning disability and Attention De�cit Hyperactivity Disorder (given their welldocumented struggles with strategy use and regulation), and across different areas within and outside of science education.It is also important for future researchers to carefully consider performance outcomes that occur on a more frequent basis.In the current study, students took class exams approximately once every three weeks.Hence, the number of opportunities for them to engage in the cyclical, regulatory process was restricted.From our vantage point, more frequent performance outcomes would allow students greater opportunities to evaluate and to recognize the strong link that exists between their strategic behaviors and academic outcomes.In addition, future research should explore transfer effects associated with providing multiple opportunities for students to learn and practice using strategies.
It is also important to consider the instructional context in which SREP tutoring sessions took place and how this context may have greatly impacted the frequency with which academically at-risk students attended the program.Due to school administrator stipulations, SREP was presented as a "before school program." Since it occurred outside of the typical school day, presenting this program to students created a challenge for engaging and enlisting students who displayed resistance (e.g., John) to coming to the program.From our perspective, it is critical to implement programs, such as SREP, during the regular school day and to perhaps offer this program as part of a package of remedial academic programs or Tier III intervention programs used in responseto-intervention service-delivery frameworks.
Finally, it is important for researchers to strongly consider how student developmental factors and the nature of contextual demands in�uence academic outcomes when implementing and evaluating SREP.For example, young children and those in the primary school years (e.g., Kindergarten to 5th grade) show the capacity to learn and adapt SRL skills [72].However, it remains unclear at this point how SREP could be adapted and re�ned to best meet the needs of younger children.In addition, the nature of academic tasks and the demands for independence and self-sufficiency in the primary grades are much less intensive than those observed during the high school years.Researchers interested in employing SREP with younger children would bene�t from considering how to infuse SRL principles within classrooms to optimize SRL and motivation and/or to include small group SREP sessions within the climate and culture of a typical classroom.

Appendix
For more details see Table 6.
T 1: Demographic information and prior achievement data for SREP participants.
T 2: Biology test performance of participants before and during SREP intervention. -score ( raw score )  -score ( raw score )  -score ( raw score ) -score (raw)  -score : mean -score. raw score : mean raw exam score.a means biology test scores prior to SREP.b means biology test scores during SREP.
T 3: Student attendance and tardiness during the SREP intervention.Attendance ratios and percentages re�ect whether students showed up to a session regardless of lateness.Lateness was de�ned as being late to an SREP session by more than 15 minutes.a Ratio pertains to the number of sessions students attended divided by the total number of sessions offered.b Ratio pertains to the number of times students were late to an SREP session divided by the number of sessions attended.c Pauline missed the last session because she was on a family vacation.
T 4: Reliability change index (RCI) scores across self-regulation and motivation measures.MBE: managing behavior and environment.SLI: seeking and learning information.MRB: maladaptive regulatory behavior.TRS: teacher rating scale.SE: selfefficacy.RCI: reliability change index.a Low scores represent fewer maladaptive regulatory behavior.*   .* *   .
T 6: Student, parent, and teacher responses to social validity questionnaire.
Student version (  ).Teacher version (  ).Parent version (  ).All measures were based on a �ve-point Likert scale ranging from 1 (strongly disagree) to 5 (strongly agree).a Standard deviation (SD) was not applicable because only one teacher completed the questionnaire.b Items were reverse scored to re�ect adaptive perceptions of satisfaction.