Investigating 4th year pre-service teachers’ levels of understanding of the disciplinary nature of Life Sciences as a discipline

Xaba, Nomzamo

January 2017

A research report submitted to the faculty of Science, University of the Witwatersrand, Johannesburg, in partial fulfilment of the requirements for the degree of Masters of Science. 20 July 2017. / Disciplinary knowledge is recognised as teacher professional knowledge base that is central in promoting effective teaching and learning in science education. Although that is the case, in one of the South African University, that this study was conducted in, the 4th year Life sciences Pre-service teachers’ were not tested on their understanding of the disciplinary nature of their subject of specialisation. As a result, the type of disciplinary gaze that they acquired by the end of the teacher training remained unknown within the institution. Thus, this study then used a case study methodology to investigate the Pre-service teachers’ levels of understanding of the disciplinary nature of Life Sciences as a discipline. The participants of this study consisted of twenty nine 4th year Pre-service teachers’ who were enrolled for a Life sciences Bachelor of Education program and one Life sciences lecturer who was involved in teaching the subject. This research took on a qualitative approach, which yielding both qualitative and quantitative data, through the use of questionnaires as well as semi-focused interviews as research instruments. The outcomes of this study showed that, although the Pre-service teachers’ were not explicitly taught about the nature of the subject, but they still showed a satisfactory understanding of it. Although that was the case, the Pre-service teachers’ still demonstrated a fractured comprehension of the disciplinary knowledge aspects, such as the history, philosophy and the nature of science. On the other hand, the findings of this study also demonstrated that, the Pre-service teachers’ acquired an extensive gaze of understanding of Subject Matter Knowledge, which is another component of Disciplinary knowledge, and this was because, this knowledge base was explicitly taught and assessed with the teacher training program. / LG2018

Life sciences--Study and teaching

Education, Higher--South Africa

Teachers--Training of

Return to basic science in undergraduate medical education : its effects on learning, attitudes and organization

Patel, Vimla L.

January 1980

No description available.

McGill University. Faculty of Medicine.

Biochemistry students' difficulties with the symbolic and visual language used in molecular biology.

Gupthar, Abindra Supersad.

January 2007

This study reports on recurring difficulties experienced by undergraduate students with respect to understanding and interpretation of certain symbolism, nomenclature, terminology, shorthand notation, models and other visual representations employed in the field of Molecular Biology to communicate information. Based on teaching experience and guidelines set out by a four-level methodological framework, data on various topic-related difficulties was obtained by inductive analyses of students’ written responses to specifically designed, free-response and focused probes. In addition, interviews, think-aloud exercises and student-generated diagrams were also used to collect information. Both unanticipated and recurring difficulties were compared with scientifically correct propositional knowledge, categorized and subsequently classified. Students were adept at providing the meaning of the symbol “Δ” in various scientific contexts; however, some failed to recognize its use to depict the deletion of a leucine biosynthesis gene in the form, Δ leu. “Hazard to leucine”, “change to leucine” and “abbreviation for isoleucine” were some of the erroneous interpretations of this polysemic symbol. Investigations on these definitions suggest a constructivist approach to knowledge construction and the inappropriate transfer of knowledge from prior mental schemata. The symbol, “::”, was poorly differentiated by students in its use to indicate gene integration or transposition and in tandem gene fusion. Idiosyncratic perceptions emerged suggesting that it is, for example, a proteinaceous component linking genes in a chromosome or the centromere itself associated with the mitotic spindle or “electrons” between genes in the same way that it is symbolically shown in Lewis dot diagrams which illustrate covalent bonding between atoms. In an oligonucleotide shorthand notation, some students used valency to differentiate the phosphite trivalent form of the phosphorus atom from the pentavalent phosphodiester group, yet the concept of valency was poorly understood. By virtue of the visual form of a shorthand notation of the 3,5 phosphodiester link in DNA, the valency was incorrectly read. VSEPR theory and the Octet Rule were misunderstood or forgotten when trying to explain the valency of the phosphorus atom in synthetic oligonucleotide intermediates. Plasmid functional domains were generally well-understood although restriction mapping appeared to be a cognitively demanding task. Rote learning and substitution of definitions were evident in the explanation of promoter and operator functions. The concept of gene expression posed difficulties to many students who believed that genes contain the entity they encode. Transcription and translation of in tandem gene fusions were poorly explained by some students as was the effect of plasmid conformation on transformation and gene expression. With regard to the selection of transformants or the hybridoma, some students could not engage in reasoning or lateral thinking as protoconcepts and domain-specific information were poorly understood. A failure to integrate and reason with factual information on phenotypic traits, media components and biochemical pathways were evident in written and oral presentations. DNA-strand nomenclature and associated function were problematic to some students as they failed to differentiate coding strand from template strand and were prone to interchange the labelling of these. A substitution of labels with those characterizing DNA replication intermediates demonstrated erroneous information transfer. DNA replication models posed difficulties integrating molecular mechanisms and detail with line drawings, coupled with inaccurate illustrations of sequential replication features. Finally, a remediation model is presented, demonstrating a shift in assessment score dispersion from a range of 0 - 4.5 to 4 - 9 when learners are guided metacognitively to work with domain-specific or critical knowledge from an information bank. The present work shows that varied forms of symbolism can present students with complex learning difficulties as the underlying information depicted by these is understood in a superficial way. It is imperative that future studies be focused on the standardization of symbol use, perhaps governed by convention that determines the manner in which threshold information is disseminated on symbol use, coupled by innovative teaching strategies which facilitate an improved understanding of the use of symbolic representations in Molecular Biology. As Molecular Biology advances, it is likely that experts will continue to use new and diverse forms of symbolic representations to explain their findings. The explanation of futuristic Science is likely to develop a symbolic language that will impose great teaching challenges and unimaginable learning difficulties to new generation teachers and learners, respectively. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2007.

Signs and symbols.

Learning.

Theses--Biochemistry.

Educational techniques that foster creative solutions and good data in field biology: examples from 3 continents

Madden, Derek

01 1900

One of the principles regarding our knowledge about life on earth is that no organism can be fully understood without taking into account its surrounding environment. This study examines the extent to which ecosystem-focused field studies may be associated with students' academic performance and potential to contribute to the advancement of science and conservation. Pilot studies conducted in Panama and California established methods used in this project from 1993-2003. Two hundred and sixty-seven students conducted field studies in either Kenya or Costa Rica. Students worked in cognitive apprenticeships, in which research staff trained each student to conduct field research. At the conclusion of their fieldwork, the research staff assessed the students written field reports. The students' reports were then sorted according to the extent to which their studies were ecosystem-focused. Data analysis through nonparametric, Kruskal-Wallis statistical tests revealed no significant difference in academic performance on field study reports, in regards to whether the studies were narrow in scope (species-specific) or broad (ecosystem-focused). Marginal significance was revealed between ecosystem-focused studies and the potential for students' fieldwork to contribute to the advancement of science and conservation. Also addressed in the data were injuries, disease, and potential hazards, which were influenced by prudent and decisive leadership. Successful field studies require consideration of the content, context, and design of the intended field projects. Many of the solutions to environmental problems on the planet will come from the working hands of teachers and students that conduct explorations in the field. / Life Sciences in Education / D. Phil. (Mathematics, Science and Technology Education)

Giraffe ecology

Sea turtle ecology

Conservation

Wildlife ranching

Cognitive apprenticeship

Situated cognition

Field biology

Environmental education

Ecology

Field studies

570.723

Biology -- Field work

Biology -- Study and teaching (Higher)

An assessment of the state of practical biology skills of undergraduate students in Ethiopian universities

Getachew Fetahi Gobaw

19 May 2016

The purpose of this study was to evaluate the undergraduate biology practical instructions and the level of competence of undergraduate biology students in practical laboratory skills in some Ethiopian universities using skill performance rubric and questionnaires. A sample of 208 third year students and 26 instructors and laboratory assistants from three universities were selected as sample of the study. Students reported that more than 84.2% of the laboratory activities are below the average number of laboratory activities recommended by the curriculum with no significant difference between universities. The laboratory skill performance test score was below the midpoint. None of the students could be able to estimate and determine fields of vision of a microscope. There is a significant and a positively linear relationship between the students’ grade point average (GPA) with identification of laboratory equipment, handling of microscope, setting of microscope, estimation of diameter of field of vision and measuring liquid. Laboratory skill performance test score is correlated with higher education entrance exam score but not with students’ high school laboratory back ground. There is no significant difference in instructor’s manipulative skills among universities (p ≥ 0.09) and instructors manipulative skills is neither correlated with qualification nor teaching experience (P≥0.056). The most common method of assessment instructors’ use in the laboratory is laboratory report and identification of specimen examination (46.4%) and written exam and identification of specimen examination (35.7%). The number of courses having laboratory manuals is as low as 14.3%, in the new university. Manipulating materials, measuring and using numbers, and pre lab activity were common activities, and were found in every manual and in every university. Moreover, the result also revealed that the manuals contain high percentage rate of basic science process skills (75.4%) as compared to the integrated science process skills (24.6%). Correlation and multiple regression analyses revealed that students’ laboratory performance skills is significantly positively correlated with higher education entrance exam score, availability of laboratory resources and instructors experiences. Instructors’ experience has significant positive regression weights. / Life and Consumer Sciences / D. Phil. (Mathematics, Science and Technology Education)

Biology laboratory performance skill

Laboratory manuals

Level of competence

Performance test

Science process skills

Undergraduate biology

570.78

Biology -- Ethiopia

Attitudes Toward Teaching and Research Among Biology Faculty in Texas Institutions of Higher Education

Salehi, Faiz

12 1900

This study investigated the attitudes toward teaching and research among biology faculty in Texas institutions of higher learning. The purposes of the study were to: 1) determine what the attitudes of Texas biology faculty were toward teaching; 2) to determine the attitudes of Texas biology faculty toward research; 3) to determine if biology faculty attitudes toward teaching vary according to faculty rank; 4) to determine if biology faculty attitudes toward research vary according to faculty rank; 5) to determine if attitudes of biology faculty in Texas toward teaching vary according to institutional type; and 6) to determine if attitudes of biology faculty in Texas toward research vary according to institutional type.

teaching

research

biology faculty

higher education

Biology teachers -- Texas -- Attitudes.

College teachers -- Texas -- Attitudes.

Biology -- Research -- Texas.

Return to basic science in undergraduate medical education : its effects on learning, attitudes and organization

Patel, Vimla L.

January 1980

No description available.

McGill University. Faculty of Medicine.

General education in the natural sciences: comparisons of selected sections of a coummunity college general biology course

Allkins, Michael T.

12 October 2005

From the establishment of Harvard in 1636, to the establishment of the first public Junior College in 1901, to the curricular reforms of the 1960's and 1970's, the purpose of higher education and the role of general education have been the subjects for many lively debates. The national debate on issues relating to general education has intensified within the last decade, and community colleges continue to be active participants in these debates. The purpose of this study was to describe the course contents and classroom environments of selected community college general education general biology courses in sufficient detail as to shed light on the contribution each makes to general education. This study offers descriptions, interpretations, and evaluations of community college general education biology classrooms and laboratories. The intent was to present vivid descriptions of the classroom experience and to offer interpretations of what was being taught and what was being learned. / Ed. D.

LD5655.V856 1990.A555

Student nurses perspectives of the high failure rate in biological sciences

Mosebi, Motshedisi Mavis

01 1900

This study, using qualitative exploratory, descriptive and contextual research design, explored and described student nurses’ perspectives of the high failure rate in biological sciences. The study was conducted at one of the campuses of the school of nursing in the Free State province of South Africa. A purposively selected sample of 1st and 2nd year student nurses registered for the programme of education and training leading to registration as a nurse (general, psychiatric and community) and Midwife (R425, 1985; paragraph (iii) as amended) at the selected campus of the School of Nursing in the Free State was used. World café was utilized for data collection. Thematic analysis of data done using Braun and Clarke (2006) and for world café participants’ created documents, Blakeman, Samuelson and McEvoy (2012) method of document analysis was applied. The findings identified the internal and external causes of high failure rate in biological. Internal causes included students-related factors, which included difficulty in understanding the content and lack of motivation. The external causes involved content overload, inadequate utilisation of available limited resources, ineffective teaching methods and unfair assessment practices. Suggestions that were made by the students to improve the success rate in biological sciences were based on the perceived causes. Recommendations made included in-service education on interactive, evidence-based teaching learning methods in anatomy and physiology, provision of support for students with no background knowledge of biological sciences. / Health Studies / M.A. (Nursing Science)

Failure rate

Biological sciences

Anatomy

Physiology

World café

610.730711685