Teaching cell biology to nonscience majors through forensics, or how to design a killer course

Nonscience majors often do not respond to traditional lecture-only biology courses. However, these students still need exposure to basic biological concepts. To accomplish this goal, forensic science was paired with compatible cell biology subjects. Several topics such as human development and molecular biology were found to fulfill this purpose. Another goal was to maximize the hands-on experience of the nonscience major students. This objective was fulfilled by specific activities such as fingerprinting and DNA typing. One particularly effective teaching tool was a mock murder mystery complete with a Grand Jury trial. Another objective was to improve students' attitudes toward science. This was successful in that students felt more confident in their own scientific abilities after taking the course. In pre/post tests, students answered four questions about their ability to conduct science. All four statements showed a positive shift after the course (p values ranging from.001 to.036, df = 23; n = 24). The emphasis on experiential pedagogy was also shown to increase critical thinking skills. In pre/post testing, students in this course significantly increased their performance on critical thinking assessment tests from 33.3% correct to 45.3% (p =.008, df = 4; n = 24).     

土壤微生物在法庭科学领域中的应用研究进展

土壤物证在法庭科学领域的应用由来已久,主要是基于其外观、颜色、元素组成、矿物学等理化特性及土壤夹杂物等的比对检验。近年来,随着高通量测序技术的发展,法医土壤微生物检验不再完全依赖于传统培养技术,而是直接挖掘分析土壤中的全部微生物DNA信息,并将这些信息应用于法庭科学领域内的样本比对、土壤物证区域环境推断和溯源研究等,从而凸显出土壤微生物物证在案件侦查和法庭诉讼方面的巨大价值和应用潜力。本文通过综述国内外有关法医土壤微生物研究的最新进展,指出了土壤微生物多样性检验在法庭科学领域的应用潜力,分析了法医土壤微生物群落多样性的影响因素,最后探讨了法医土壤微生物研究中存在的问题和未来的发展方向。     

Investigating Human Impact in the Environment with Faded Scaffolded Inquiry Supported by Technologies

Teaching science as inquiry is advocated in all national science education documents and by leading science and science teaching organizations. In addition to teaching science as inquiry, we recognize that learning experiences need to connect to students’ lives. This article details how we use a sequence of faded scaffolded inquiry supported by technologies to engage students meaningfully in science connected to their lives and schoolyards. In this approach, more teacher guidance is provided earlier in the inquiry experiences before this is faded later in the sequence, as students are better prepared to complete successful inquiries. The sequence of inquiry experiences shared in this article offers one possible mechanism for science teaching supported by technologies as an exemplar for translating teaching “science as inquiry” into practice.     

Tailoring science outreach through E-matching using a community-based participatory approach

In an effort to increase science exposure for pre-college (K-12) students and as part of the science education reform agenda, many biomedical research institutions have established university-community partnerships. Typically, these science outreach programs consist of pre-structured, generic exposure for students, with little community engagement. However, the use of a medium that is accessible to both teachers and scientists, electronic web-based matchmaking (E-matching) provides an opportunity for tailored outreach utilizing a community-based participatory approach (CBPA), which involves all stakeholders in the planning and implementation of the science outreach based on the interests of teachers/students and scientists. E-matching is a timely and urgent endeavor that provides a rapid connection for science engagement between teachers/students and experts in an effort to fill the science outreach gap. National Lab Network (formerly National Lab Day), an ongoing initiative to increase science equity and literacy, provides a model for engaging the public in science via an E-matching and hands-on learning approach. We argue that science outreach should be a dynamic endeavor that changes according to the needs of a target school. We will describe a case study of a tailored science outreach activity in which a public school that serves mostly under-represented minority students from disadvantaged backgrounds were E-matched with a university, and subsequently became equal partners in the development of the science outreach plan. In addition, we will show how global science outreach endeavors may utilize a CBPA, like E-matching, to support a pipeline to science among under-represented minority students and students from disadvantaged backgrounds. By merging the CBPA concept with a practical case example, we hope to inform science outreach practices via the lens of a tailored E-matching approach.     

Creating Science Picture Books for an Authentic Audience

This article presents an authentic writing opportunity to help ninth-grade students use the writing process in a science classroom to write and illustrate picture books for fourth-grade students to demonstrate and share their understanding of a biology unit on cells. By creating a picture book, students experience the writing process, understand how to share their learning with an authentic audience, and create an artifact that demonstrates their understanding of content knowledge.     

Just truth? Carefully applying history,philosophy and sociology of science to the forensic use of CCTV images

Using as a case study the forensic comparison of images for purposes of identification, this essay considers how the history, philosophy and sociology of science might help courts to improve their responses to scientific and technical forms of expert opinion evidence in ways that are more consistent with legal system goals and values. It places an emphasis on the need for more sophisticated models of science and expertise that are capable of helping judges to identify sufficiently reliable types of expert evidence and to reflexively incorporate the weakness of trial safeguards and personnel into their admissibility decision making.     

Karl Popper,Forensic Science,and Nested Codes

This paper utilizes the framework of Karl Popper’s 3-world ontology to make the case that forensic science is a specialized coding system that establishes meaningful connections between the world of biology (world 1) and the world of human society (world 3). Forensic science is a cross-disciplinary endeavor that uses scientific methods to determine what transpired in a crime so the legal system can determine how to prosecute the offender(s). On a Popperian analysis of forensic science, world 1 consists of evidence gathered at the crime scene, which enables investigators to develop a detailed reconstruction of the incident for consideration under the legal and ethical codes of society, which are products of world 3. Understanding forensic science in this way serves two purposes: first, it extends Marcello Barbieri’s code biology into the realm of philosophical considerations in science, law and ethics; and second, it situates forensic science within the larger context of debates in contemporary philosophy of science.     

Learning genetics through a scientific inquiry game

In this paper we discuss an activity through which students learn basic concepts in genetics by taking part in a police investigation game. The activity, which we have called Recal, immerses students in a scientific-based scenario in which they play a role of a scientific assessor. Players have to develop and use scientific reasoning and evidence-based decision-making to solve the given enigmas along the game. The activity aims to improve students’ knowledge of genetics and show them how genetic evidence can be applied in forensic science. The activity (known as ‘the Recal case’) uses a problem-based learning educational methodology. It is learner-centred and students play an active collaborative role. The methodology requires students to structure their knowledge, and develop their reasoning processes and self-directed learning skills. The activity has been developed for a range of audiences, including high school students, undergraduates engaged in pre-service teaching and adults of all ages. A case study has also been carried out with a group of 120 pre-service student teachers from the Universitat Rovira i Virgili (Tarragona, Spain) to check whether the coherence in the running of the game, whether its effectiveness as a learning activity and whether its dynamics and motivational aspects are acceptable.     

Forensic culture as epistemic culture: The sociology of forensic science

This paper explores whether we can interpret the notion of ‘forensic culture’ as something akin to what Knorr-Cetina called an ‘epistemic culture’. Can we speak of a ‘forensic culture’, and, if so, how is it similar to, or different from, other epistemic cultures that exist in what is conventionally called ‘science’? This question has important policy implications given the National Academy Science’s (NAS) recent identification of ‘culture’ as one of the problems at the root of what it identified as ‘serious deficiencies’ in U.S. forensic science and ‘scientific culture’ as an antidote to those problems. Finding the NAS’s characterisation of ‘scientific culture’ overly general and naïve, this paper offers a preliminary exploration of what might be called a ‘forensic culture’. Specifically, the paper explores the way in which few of the empirical findings accumulated by sociologists of science about research science seem to apply to forensic science. Instead, forensic science seems to have developed a distinct culture for which a sociological analysis will require new explanatory tools. Faithful sociological analysis of ‘forensic culture’ will be a necessary prerequisite for the kind of culture change prescribed by external reformist bodies like the NAS.     

Gaming as a Platform for Developing Science Practices

Gaming, an integral part of many students’ lives outside school, can provide an engaging platform for focusing students on important disciplinary core concepts as an entry into developing students’ understanding of these concepts through science practices. This article highlights how S’cape can be used to support student learning aligned with the most recent standards documents. Through combining students’ initial engagement in a motivating gaming experience with a two-experiment scaffolded inquiry sequence enhanced with information literacy-targeted homework, this article reveals how support can be offered for asking questions, planning and carrying out investigations, analyzing and interpreting data, constructing explanations, and engaging in argument from evidence to refine understandings of core concepts. We believe that as science teachers strive to explore important concepts with students through allowing them to actually practice science, games such as S’cape strategically leveraged and sequenced with scaffolded inquiry experiences can support these efforts.     

Conducting a school-based mock drill: lessons learned from one community

Over the past decade, school districts have been required to develop comprehensive emergency management plans designed to effectively coordinate resources to respond during a range of crisis situations. Although many school systems have implemented school safety plans, few have systematically evaluated the short-term or long-term effectiveness of the plans.This study proposes a model for planning, executing, and evaluating a multiagency mock drill. METHOD: A school-based mock drill was conducted to examine a systematic process of planning, executing, and evaluating a multiagency mock drill exercise, and to evaluated the ability of one school district's administrators to respond during a crisis situation. More than 500 people participated in the drill from local, state, and federal agencies, and 26 district and school administrators took part in the study. RESULTS: All local and federal agencies received positive evaluations based on their ability to secure both students and staff in the event of a crisis. The results show differences between written procedures and actual practices used during the mock drill. CONCLUSIONS: Notwithstanding the positive benefits of the mock drill, feedback from participating school personnel demonstrated a need to strengthen communication and coordination between school personnel and outside agencies so that future crisis events are handled more effectively.     

Swinging into art with pendulum paintings

Children are captivated with how things work and they like to build things and in many ways, engineering comes naturally for them. Progress does not come from technology alone but from the melding of technology and creative thinking through art and design. There has been a push for STEAM-based curricula to be included in science classrooms and the Next Generation Science Standards (NGSS) provides the framework for integrating engineering design into the structure of science education. The push for the STEAM platform is derived from the lack of creativity and innovation in recent college graduates in the United States. This STEAM-based unit meshes engineering design, representing and interpreting data, visual arts, and motion/stability. As students investigated and analyzed pendulum motion, they also created unique pendulum paintings. Throughout this unit our students applied their content knowledge across several disciplines and in turn allowed them to gain a better understanding and retention of these concepts. Through creating their own pendulum paintings, the students learned about pendulums and how they work, designed and constructed their own pendulums, and applied prior knowledge of forces and motion in a controlled experiment.     

Applications of supercritical fluid extraction and chromatography in forensic science

Supercritical fluid technology is a rapidly expanding analytical technique. Here we give a brief insight into the background of supercritical fluid technology and how supercritical fluid extraction and supercritical fluid chromatography work in analysis. The applications of these two techniques in forensic science are known to be important. The main area of forensic use of supercritical fluid technology is in the sample preparation and separation of drugs of abuse particularly opiates, cannabinoids, cocaine and sedatives. Supercritical fluid technology can be used for both time-of-death-related drug analysis and for obtaining information relating to long term drug abuse. We also give a review of the use of supercritical fluids in two other major forensic areas, fingerprinting and the extraction and separation of explosives from both bombing events and gunshot residues. Overall we show that supercritical fluid technology is fast becoming a major part of forensic investigations and that it is an invaluable analysis technique.     

Renegotiating forensic cultures: Between law,science and criminal justice

This article challenges stereotypical conceptions of Law and Science as cultural opposites, arguing that English criminal trial practice is fundamentally congruent with modern science’s basic epistemological assumptions, values and methods of inquiry. Although practical tensions undeniably exist, they are explicable—and may be neutralised—by paying closer attention to criminal adjudication’s normative ideals and their institutional expression in familiar aspects of common law trial procedure, including evidentiary rules of admissibility, trial by jury, adversarial fact-finding, cross-examination and the ethical duties of expert witnesses. Effective partnerships between lawyers and forensic scientists are indispensable for integrating scientific evidence into criminal proceedings, and must be renegotiated between individual practitioners on an on-going basis. Fruitful interdisciplinary collaboration between scholars with a shared interest in forensic science should dispense with reductive cultural stereotypes of Science and Law.     

Program Your Instruction for Low Ability Students

In this article, the author details the process teachers can use to teach primary-age children how to use science notebooks. To lay the foundation for using notebooks, the author describes important elements of science notebooks and makes a distinction between science notebooks and journals. In addition, the article highlights the benefits associated with using notebooks. Finally, connections are include to the National Science Standards, as well as supporting resources for teacher use.     

Science Classroom Inquiry (SCI) Simulations: A Novel Method to Scaffold Science Learning

Science education is progressively more focused on employing inquiry-based learning methods in the classroom and increasing scientific literacy among students. However, due to time and resource constraints, many classroom science activities and laboratory experiments focus on simple inquiry, with a step-by-step approach to reach predetermined outcomes. The science classroom inquiry (SCI) simulations were designed to give students real life, authentic science experiences within the confines of a typical classroom. The SCI simulations allow students to engage with a science problem in a meaningful, inquiry-based manner. Three discrete SCI simulations were created as website applications for use with middle school and high school students. For each simulation, students were tasked with solving a scientific problem through investigation and hypothesis testing. After completion of the simulation, 67% of students reported a change in how they perceived authentic science practices, specifically related to the complex and dynamic nature of scientific research and how scientists approach problems. Moreover, 80% of the students who did not report a change in how they viewed the practice of science indicated that the simulation confirmed or strengthened their prior understanding. Additionally, we found a statistically significant positive correlation between students’ self-reported changes in understanding of authentic science practices and the degree to which each simulation benefitted learning. Since SCI simulations were effective in promoting both student learning and student understanding of authentic science practices with both middle and high school students, we propose that SCI simulations are a valuable and versatile technology that can be used to educate and inspire a wide range of science students on the real-world complexities inherent in scientific study.     

Lack of Evolution Acceptance Inhibits Students’ Negotiation of Biology-based Socioscientific Issues

The purpose of this study was to explore science content used during college students’ negotiation of biology-based socioscientific issues (SSI) and examine how it related to students’ conceptual understanding and acceptance of biological evolution. The Socioscientific Issues Questionnaire (SSI-Q) was developed to measure depth of evolutionary science content use during SSI negotiation. Fifty-two upper level undergraduate biology and non-biology majors completed the SSI-Q and also the Conceptual Inventory of Natural Selection to assess evolution understanding and the Measure of Acceptance of the Theory of Evolution to appraise evolution acceptance. A multiple regression analysis tested for interaction effects between the predictor variables, evolution understanding and evolution acceptance. Results indicate that college students primarily use science concepts related to evolution to negotiate biology-based SSI including variation in a population, inheritance of traits, differential success, and change through time. The hypothesis that the extent of one’s acceptance of evolution is a mitigating factor in how science content related to evolution is evoked during SSI negotiation was supported by the data, in that such content was consistently evoked by participants for each of the three SSI scenarios used in this study.     

Gregor Mendel's classic paper and the nature of science in genetics courses

The discoveries of Gregor Mendel, as described by Mendel in his 1866 paper Versuche uber Pflanzen-Hybriden (Experiments on plant hybrids), can be used in undergraduate genetics and biology courses to engage students about specific nature of science characteristics and their relationship to four of his major contributions to genetics. The use of primary source literature as an instructional tool to enhance genetics students' understanding of the nature of science helps students more clearly understand how scientists work and how the science of genetics has evolved as a discipline. We offer a historical background of how the nature of science developed as a concept and show how Mendel's investigations of heredity can enrich biology and genetics courses by exemplifying the nature of science.     

Producing Absolute Truth: CSI Science as Wishful Thinking

ABSTRACT  Forensic science has come to be assigned an important role in contemporary crime fiction. In this article, I analyze the cultural repertoire of forensic science conveyed by the popular television show Crime Scene Investigation (CSI). I argue that CSI science, in delivering an absolute "truth" about how and by whom crimes have been committed, is equated with justice, effectively superseding nonfictional forensic science as well as nonfictional judicature as a whole. Thus, CSI as a cultural performance adds to the mediascape a repertoire of wishful-thinking science with which to think about perceptions of and desires for crime and justice in nonfictional society. This repertoire seems to be considered relevant enough to nonfictional society to cause concern about the judicial system, as expressed in discussions of the so-called " CSI effect."     

Forensic fictions: Science,television production,and modern storytelling

This essay uses interviews with television creators, writers, and producers to examine how media practitioners utilise, negotiate and transform forensic science in the production of televisual stories including the creation of unique visuals, character exploration, narrative progression, plot complication, thematic development, and adding a sense of authenticity. Television as a medium has its own structures and conventions, including adherence to a show’s franchise, which put constraints on how stories are told. I demonstrate how television writers find forensic science to be an ideal tool in navigating television’s narrative constraints by using forensics to create conflicts, new obstacles, potential solutions, and final solutions in their stories. I show how television writers utilise forensic science to provide the scientific certainty their characters require to catch the criminal, but also how uncertainty is introduced in a story through the interpretation of the forensics by the show’s characters. I also argue that televisual storytellers maintain a flexible notion of scientific realism based on the notion of possibility that puts them at odds with scientists who take a more demanding conception of scientific accuracy based on the concept of probability.