References
- Abd-El-KhalickFExamining the sources for our understandings about science: Enduring conflations and critical issues in research on nature of science in science educationInternational Journal of Science Education20123435337410.1080/09500693.2011.629013
- Abi-El-MonaIAbd-El-KhalickFPerceptions of the nature and “goodness” of argument among college students, science teachers, and scientistsInternational Journal of Science Education20113357360510.1080/09500691003677889
- BarrowsHSTamblynRMProblem-based learning: An approach to medical education1980New York, NYSpringer
- BellandBRUsing the theory of habitus to move beyond the study of barriers to technology integrationComputers & Education20095235336410.1016/j.compedu.2008.09.004
- BellandBRPortraits of middle school students constructing evidence-based arguments during problem-based learning: The impact of computer-based scaffoldsEducational Technology Research and Development20105828530910.1007/s11423-009-9139-4
- Belland, B. R. (2012). Habitus, scaffolding, and problem-based learning: Why teachers’ experiences as students matter. In S. B. Fee & B. R. Belland (Eds.), The role of criticism in understanding problem solving: Honoring the work of John C. Belland (pp. 87–100). New York, NY: Springer. doi:10.1007/978-1-4614-3540-2_7
- Belland, B. R. (2014). Scaffolding: Definition, current debates, and future directions. In J. M. Spector, M. D. Merrill, J. Elen, & M. J. Bishop (Eds.), Handbook of research on educational communications and technology (4th ed., pp. 505–518). New York, NY: Springer. doi:10.1007/978-1-4614-3185-5_39
- BellandBRFrenchBFErtmerPAValidity and problem-based learning research: A review of instruments used to assess intended learning outcomesInterdisciplinary Journal of Problem-Based Learning200931598910.7771/1541-5015.1059
- BellandBRGlazewskiKDErtmerPAInclusion and problem-based learning: Roles of students in a mixed-ability groupResearch on Middle Level Education2009329119
- BellandBRGlazewskiKDRichardsonJCA scaffolding framework to support the construction of evidence-based arguments among middle school studentsEducational Technology Research and Development20085640142210.1007/s11423-007-9074-1
- BellandBRGlazewskiKDRichardsonJCProblem-based learning and argumentation: Testing a scaffolding framework to support middle school students’ creation of evidence-based argumentsInstructional Science20113966769410.1007/s11251-010-9148-z
- BellandBRKimCHannafinMA framework for designing scaffolds that improve motivation and cognitionEducational Psychologist20134824327010.1080/00461520.2013.838920
- Bérci, M. E. (2012). The fallacies of problem-based learning viewed as in a hermeneutic perspective on best teaching practices. In S. B. Fee & B. R. Belland (Eds.), The role of criticism in understanding problem solving: Honoring the work of John C. Belland (pp. 161–183). New York, NY: Springer. doi:10.1007/978-1-4614-3540-2_11
- BrandBRMooreSJEnhancing teachers’ application of inquiry-based strategies using a constructivist sociocultural professional development modelInternational Journal of Science Education20113388991310.1080/09500691003739374
- BrickerLABellPConceptualizations of argumentation from science studies and the learning sciences and their implications for the practices of science educationScience Education20089247349810.1002/sce.20278
- ClarkeDHollingsworthHElaborating a model of teacher professional growthTeaching and Teacher Education20021894796710.1016/S0742-051X(02)00053-7
- CohenJStatistical power analysis for the behavioral sciences1969New York, NYAcademic Press
- CohenPAKulikJAKulikC-LCEducational outcomes of tutoring: A meta-analysis of findingsAmerican Educational Research Journal19821923724810.3102/00028312019002237
- CoonerTSCreating opportunities for students in large cohorts to reflect in and on practice: Lessons learnt from a formative evaluation of students’ experiences of a technology-enhanced blended learning designBritish Journal of Educational Technology20104127128610.1111/j.1467-8535.2009.00933.x
- Dall’AlbaGSandbergJUnveiling professional development: A critical review of stage modelsReview of Educational Research20067638341210.3102/00346543076003383
- DedeCJass KetelhutDWhitehousePBreitLMcCloskeyEMA research agenda for online teacher professional developmentJournal of Teacher Education200860181910.1177/0022487108327554
- DolmansDHJMSchmidtHGWhat do we know about cognitive and motivational effects of small group tutorials in problem-based learning?Advances in Health Sciences Education20061132133610.1007/s10459-006-9012-8
- ElbaumBVaughnSHughesMTHow effective are one-to-one tutoring programs in reading for elementary students at risk for reading failure? A meta-analysis of the intervention researchJournal of Educational Psychology20009260561910.1037/0022-0663.92.4.605
- ErtmerPASimonsKDJumping the PBL implementation hurdle: Supporting the efforts of K-12 teachersInterdisciplinary Journal of Problem-Based Learning2006115
- Fessler, R., & Rice, E. (2010). Teachers’ career stages and professional development. In P. Peterson, E. Baker, & B. McGaw (Eds.), International encyclopedia of education (pp. 582–586). Oxford: Elsevier. doi:10.1016/B978-0-08-044894-7.00656-4
- FreyNFisherDIdentifying instructional moves during guided learningThe Reading Teacher2010642849510.1598/RT.64.2.1
- Gamble, J. A. A. (2008). A developmental evaluation primer. Montreal: The J. W. McConnell Family Foundation. Retrieved from http://www.mcconnellfoundation.ca/en/resources/publication/a-developmental-evaluation-primer
- GerardLFVarmaKCorlissSBLinnMCProfessional development for technology-enhanced inquiry scienceReview of Educational Research20118140844810.3102/0034654311415121
- GilliesRMBoyleMTen Australian elementary teachers’ discourse and reported pedagogical practices during cooperative learningThe Elementary School Journal200610642945210.1086/505439
- GoodnoughKCashionMExploring problem-based learning in the context of high school science: Design and implementation issuesSchool Science and Mathematics200610628029510.1111/j.1949-8594.2006.tb17919.x
- GraesserACD’MelloSCadeWMayerRAAlexanderPAInstruction based on tutoringHandbook of research on learning and instruction2009New York, NYRoutledge408426
- GrossmanPHammernessKMcDonaldMRedefining teaching, re-imagining teacher educationTeachers and Teaching20091527328910.1080/13540600902875340
- HartJELeeOTeacher professional development to improve the science and literacy achievement of English language learnersBilingual Research Journal20032747550110.1080/15235882.2003.10162604
- Hmelo-Silver, C. E. (2004). Problem-based learning: What and how do students learn? Educational Psychology Review,16, 235–266. doi:10.1023/B:EDPR.0000034022.16470.f3
- Hmelo-SilverCEBarrowsHSGoals and strategies of a problem-based learning facilitatorInterdisciplinary Journal of Problem-Based Learning200611410.7771/1541-5015.1004
- HoganKPressleyMHoganKPressleyMScaffolding scientific competencies within classroom communities of inquiryScaffolding student learning: Instructional approaches and issues1997Cambridge, MABrookline74107
- HolmesAPolhemusLJenningsSCATIE: A blended approach to situated professional developmentJournal of Educational Computing Research20053238139410.2190/F97W-QUJ4-G7YG-FPXC
- HungWTheory to reality: A few issues in implementing problem-based learningEducational Technology Research and Development20115952955210.1007/s11423-011-9198-1
- Instructure Canvas. (2012). Instructure Canvas. Retrieved from http://www.instructure.com/
- JonassenDHToward a design theory of problem solvingEducational Technology Research and Development2000484638510.1007/BF02300500
- KaufmanRKellerJWatkinsRWhat works and what doesn’t: Evaluation beyond KirkpatrickPerformance+ Instruction19963581210.1002/pfi.4170350204
- Kolodner, J. L., Camp, P. J., Crismond, D., Fasse, B., Gray, J., Holbrook, J., … Ryan, M. (2003). Problem-based learning meets case-based reasoning in the middle-school science classroom: Putting learning by design™ into practice. Journal of the Learning Sciences, 12, 495–547. doi:10.1207/S15327809JLS1204_2
- KrippendorffKReliability in content analysisHuman Communication Research200430411433
- LawlessKAPellegrinoJWProfessional development in integrating technology into teaching and learning: Knowns, unknowns, and ways to pursue better questions and answersReview of Educational Research20077757561410.3102/0034654307309921
- Lekalakala-MokgeleEFacilitation in problem-based learning: Experiencing the locus of controlNurse Education Today20103063864210.1016/j.nedt.2009.12.017
- Lindblom-YlänneSPihlajamäkiHKotkasTWhat makes a student group successful? Student–student and student–teacher interaction in a problem-based learning environmentLearning Environments Research20036597610.1023/A:1022963826128
- LockJVA new image: Online communities to facilitate teacher professional developmentJournal of Technology and Teacher Education200614663
- LockhorstDWubbelsTOersBEducational dialogues and the fostering of pupils’ independence: The practices of two teachersJournal of Curriculum Studies2010429912110.1080/00220270903079237
- LohmanMCFinkelsteinMDesigning groups in problem-based learning to promote problem-solving skill and self-directednessInstructional Science20002829130710.1023/A:1003927228005
- LoyensSMMMagdaJRikersRMJPSelf-directed learning in problem-based learning and its relationships with self-regulated learningEducational Psychology Review20082041142710.1007/s10648-008-9082-7
- LutzSLGuthrieJTDavisMHScaffolding for engagement in elementary school reading instructionThe Journal of Educational Research200610032010.3200/JOER.100.1.3-20
- MalochBScaffolding student talk: One teacher’s role in literature discussion groupsReading Research Quarterly20023719411210.1598/RRQ.37.1.4
- Monte-SanoCBudanoCDeveloping and enacting pedagogical content knowledge for teaching history: An exploration of two novice teachers’ growth over three yearsJournal of the Learning Sciences20132217121110.1080/10508406.2012.742016
- MouzaCDoes research-based professional development make a difference? A longitudinal investigation of teacher learning in technology integrationThe Teachers College Record200911111951241
- MyhillDWarrenPScaffolds or straitjackets? Critical moments in classroom discourseEducational Review2005571556910.1080/0013191042000274187
- OliveiraAWImproving teacher questioning in science inquiry discussions through professional developmentJournal of Research in Science Teaching20104742245310.1002/tea.20345
- OpferVDPedderDConceptualizing teacher professional learningReview of Educational Research20118137640710.3102/0034654311413609
- OsborneJArguing to learn in science: The role of collaborative, critical discourseScience2010328597746346610.1126/science.1183944
- OwstonRWidemanHMurphyJLupshenyukDBlended teacher professional development: A synthesis of three program evaluationsThe Internet and Higher Education20081120121010.1016/j.iheduc.2008.07.003
- PecoreJLBeyond beliefs: Teachers adapting problem-based learning to preexisting systems of practiceInterdisciplinary Journal of Problem-Based Learning201372633
- Quintana, C., Reiser, B. J., Davis, E. A., Krajcik, J., Fretz, E., Duncan, R. G., … Soloway, E. (2004). A scaffolding design framework for software to support science inquiry. Journal of the Learning Sciences, 13, 337–386. doi:10.1207/s15327809jls1303_4
- RaphaelLMPressleyMMohanLEngaging instruction in middle school classrooms: An observational study of nine teachersThe Elementary School Journal2008109618110.1086/592367
- Rasku-PuttonenHEteläpeltoAArvajaMHäkkinenPIs successful scaffolding an illusion?—Shifting patterns of responsibility and control in teacher–student interaction during a long-term learning projectInstructional Science20033137739310.1023/A:1025700810376
- ReiserBJScaffolding complex learning: The mechanisms of structuring and problematizing student workJournal of the Learning Sciences20041327330410.1207/s15327809jls1303_2
- RosiekJEmotional scaffolding: An exploration of the teacher knowledge at the intersection of student emotion and the subject matterJournal of Teacher Education20035439941210.1177/0022487103257089
- Ruiz-PrimoMAFurtakEMInformal formative assessment and scientific inquiry: Exploring teachers’ practices and student learningEducational Assessment200611205235
- SadlerTDBarabSAScottBWhat do students gain by engaging in socioscientific inquiry?Research in Science Education20073737139110.1007/s11165-006-9030-9
- SadlerTDDonnellyLASocioscientific argumentation: The effects of content knowledge and moralityInternational Journal of Science Education2006281463148810.1080/09500690600708717
- SchmidtHGRotgansJIYewEHThe process of problem-based learning: What works and whyMedical Education20114579280610.1111/j.1365-2923.2011.04035.x
- Shulman, L. S. (1986). Those who understand: Knowledge growth in teaching. Educational Researcher,15(2), 4–14. doi:10.3102/0013189X015002004
- SmithCGillespieMResearch on professional development and teacher change: Implications for adult basic educationReview of Adult Learning and Literacy20077205244
- Stefl-MabryJPowersJGDollCCreating and sustaining problem-based partnerships among graduate, undergraduate, and K-12 learners: Opportunities and challengesJournal of Educational Technology Systems20063413115310.2190/4DMJ-85B4-GMH7-GEQB
- Tan, O.-S. (2003). Problem-based learning innovation: Using problems to power learning in the 21st century. Singapore: Cengage Learning Asia.
- TimperleyHAlton-LeeAReframing teacher professional learning: An alternative policy approach to strengthening valued outcomes for diverse learnersReview of Research in Education20083232836910.3102/0091732X07308968
- PolJVolmanMBeishuizenJScaffolding in teacher–student interaction: A decade of researchEducational Psychology Review20102227129610.1007/s10648-010-9127-6
- PolJVolmanMBeishuizenJPatterns of contingent teaching in teacher–student interactionLearning and Instruction201121465710.1016/j.learninstruc.2009.10.004
- PolJVolmanMBeishuizenJPromoting teacher scaffolding in small-group work: A contingency perspectiveTeaching and Teacher Education20122819320510.1016/j.tate.2011.09.009
- DrielJHBeijaardDVerloopNProfessional development and reform in science education: The role of teachers’ practical knowledgeJournal of Research in Science Teaching20013813715810.1002/1098-2736(200102)38:2<137::AID-TEA1001>3.0.CO;2-U
- VanLehnKThe relative effectiveness of human tutoring, intelligent tutoring systems, and other tutoring systemsEducational Psychologist20114619722110.1080/00461520.2011.611369
- VoogtJAlmekindersMAkkerJMoonenBA “blended” in-service arrangement for classroom technology integration: Impacts on teachers and studentsComputers in Human Behavior20052152353910.1016/j.chb.2004.10.003
- WayneAJYoonKSZhuPCronenSGaretMSExperimenting with teacher professional development: Motives and methodsEducational Researcher20083746947910.3102/0013189X08327154
- Webster-WrightAReframing professional development through understanding authentic professional learningReview of Educational Research20097970273910.3102/0034654308330970
- WoodDThe why? What? When? And how? Of tutoring: The development of helping and tutoring skills in childrenLiteracy Teaching and Learning20037130
- WoodDBrunerJSRossGThe role of tutoring in problem solvingJournal of Child Psychology and Psychiatry1976178910010.1111/j.1469-7610.1976.tb00381.x
- Yoon, K. S., Duncan, T., Lee, S. W.-Y., Scarloss, B., & Shapley, K. L. (2007). Reviewing the evidence on how teacher professional development affects student achievement. (Issues & answers Report No. REL 2007–No. 033). Washington, DC: U.S. Department of Education, Institute of Education Sciences, National Center for Education Evaluation and Regional Assistance, Regional Educational Laboratory Southwest. Retrieved from http://ies.ed.gov/ncee/edlabs