Giulia Tasquier scite author profile

This article takes its point of departure from the younger generation's problematic relationship with time and the future. A general sense of changeability and directionlessness in society compromises young people's confidence in themselves to make a difference as individuals in important global issues affecting their futures, such as climate change. Given recent aims and commitments of science education to promote sustainable development and student agency, this study explores how science teaching can help students imagine and face possible future scenarios and develop agency in the present to influence them. This article presents a science education approach to equip secondary school students with skills of futures thinking and agency that we call “future‐scaffolding skills.” It also shows the process of building an operational definition for recognizing those skills in students' discourse and actions. For this purpose, an empirical study was carried out in the context of a teaching–learning module on climate change, consisting of activities inspired by the field of futures studies. Essays, individual and group interviews, questionnaires, and video recordings of students' final projects were collected from 24 students (16–19‐years old) from three European countries. The results contribute to operationally defining “future‐scaffolding skills,” consisting of “structural skills” (the ability to recognize temporal, logical and causal relationships and build systemic views) and “dynamical skills” (the ability to navigate scenarios, relating local details to global views, past to present and future, and individual to collective actions).

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Developing future-scaffolding skills through science education

Levrini

Tasquier

Branchetti

et al. 2019

International Journal of Science Education

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Can science teaching contribute to developing skills for managing uncertainty towards the future and projecting imagination forwards? If so, how? In this paper, we outline an approach to 'teach the future' through science education. In the first part, we describe a framework that has been constructed to orient the design of teaching modules comprised of future-oriented educational activities. Then, a teaching module on climate change is described. The module was tested in a class of upper secondary school in Italy (grade12) and the main results are reported. They concern a change in perception of the future, as revealed by students: from far and unimaginable, the future became conceivable as a set of possibilities, addressable through concrete actions and within their reach, in the sense that they became able to view themselves as agents of their own future. The results lead us to argue that the approach appears promising in developing 'futurescaffolding skills', skills that enable people to construct visions of the future that support possible ways of acting in the present with one's eye on the horizon.

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Defining and Operationalizing Appropriation for Science Learning

Levrini

Fantini

Tasquier

et al. 2014

Journal of the Learning Sciences

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Exploring students’ epistemological knowledge of models and modelling in science: results from a teaching/learning experience on climate change

Tasquier

Levrini

Dillon

2016

International Journal of Science Education

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The scientific community has been debating climate change for over two decades. In the light of certain arguments put forward by the aforesaid community, the EU has recommended a set of innovative reforms to science teaching such as incorporating environmental issues into the scientific curriculum, thereby helping to make schools a place of civic education. However, despite these European recommendations, relatively little emphasis is still given to climate change within science curricula.Climate change, although potentially engaging for students, is a complex topic that poses conceptual difficulties and emotional barriers, as well as epistemological challenges. Whilst the conceptual and emotional barriers have already been the object of several studies, students' reactions to the epistemological issues raised by climate changes have so far been rarely explored in science education research and thus are the main focus of this paper. This paper describes a study concerning the implementation of teaching materials designed to focus on the epistemological role of "models and the game of modelling" in science and particularly when dealing with climate change. The materials were implemented in a course of 15 hours (five 3-hour lessons) for a class of Italian secondary school students (grade 11; 16-17 years old). The purpose of the study is to investigate students' reactions to the epistemological dimension of the materials, and to explore if and how the material enabled them to develop their epistemological knowledge on models.

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The Present Shock and Time Re-appropriation in the Pandemic Era

et al. 2020

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The crisis due to the COVID-19 pandemic led most people all over the world to deal with a change in their perception and organization of time. This happened also, and mainly, within the educational institutions, where students and teachers had to rearrange their teaching/learning dynamics because of the forced education at a distance. In this paper, we present an exploratory qualitative study with secondary school students aimed to investigate how they were experiencing their learning during lockdown and how, in particular, learning of science contributed to rearranging their daily lifetime rituals. In order to design and carry out our investigation, we borrowed constructs coming from a research field rather unusual for science education: the field of sociology of time. The main result concerns the discovery of the potential of the dichotomy between alienation from time and time re-appropriation. The former is a construct elaborated by the sociologist Hartmut Rosa to describe the society of acceleration in the “era of future shock”. The latter represents an elaboration of the construct of appropriation that the authors had operationally defined, starting from Bakhtin’s original idea, to describe the nexus between physics learning and identity. Thanks to the elaboration of the notion of time re-appropriation as feature of the “era of present shock”, the study unveils how school science, instead of preparing the young to navigate our fast-changing and complex society, tends to create “bubbles of rituals” that detach learning from societal concern.

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Giulia Tasquier

Recognition and operationalization of Future‐Scaffolding Skills: Results from an empirical study of a teaching–learning module on climate change and futures thinking

Developing future-scaffolding skills through science education

Defining and Operationalizing Appropriation for Science Learning

Exploring students’ epistemological knowledge of models and modelling in science: results from a teaching/learning experience on climate change

The Present Shock and Time Re-appropriation in the Pandemic Era

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