• 274 Annales Universitatis Paedagogicae Cracoviensis. Studia ad Didacticam Biologiae Pertinentia VIII
    Nr VIII (2018)

    Introduction
    This volume focuses in general on models in health and the forms of activity
    undertaken by different entities. By now, a common agreement is shared: social
    model of health is the model everyone has to refer to, especially when dealing with
    health promotion, particularly around cancer or the risk of chronic diseases, or
    wider other pathologies. But are we really sure to share the same content when we
    say “health communication”? Many scholars assume that a lot of social actors are
    intervening into this “social act”: primary school and biology teachers, journalists,
    bloggers and community managers, medical staff, patients, and their relatives,
    scientists, researchers – not to mention social sciences researchers! – through medias
    and means of communication: TV programs, TV series, digital media, social networks,
    NGO’s, pharmaceutical companies advertisings...
    To make clearer the future models of health, beyond “health promotion”
    standards, we follow the hypothesis that in a world where openness and sharing are
    becoming central, controversial social issues could be a fruitful means.
    The authors would like to contribute to improve our knowledge about
    this ecosystem by crossing approaches coming from the fields of education and
    communication as these both fields are participating in the public sphere and
    knowledge mediation processes. It will cover a wide range of topics such as alternative
    medicine, vaccinations, antibiotic resistance. Obviously, cancer and chronic diseases
    are a very interesting field of investigations, but all pathologies can be used to develop
    health education and communication issues.
    The main areas of our interests are the following:
    I. Education
    Education systems are long-term evolving systems. Any reform needs time to
    become active. What are the representations and competencies of the teaching staff,
    future teaching staff regarding new therapeutics, contemporary medical knowledge
    or health models? Can new teaching processes and their evaluation provide solutions
    to health literacy?
    What about news on “health-knowledge” mediations? What is their impact on
    health literacy?
    II. Policies
    Policymakers often launch health promotion campaigns on various topics. A lot
    of Non-Governmental Organizations are involved in health education as well. Are
    they acting contradictory? Are they collaborating? Do NGO develop an alternative
    way of thinking about health issues? How can we understand their positions? How
    [4] Introduction
    can we analyze resistances to the directive and normative discourses of all these
    social actors? Can new policies meet the emerging health challenges?
    III. Medias and on-line communications
    On-line communities and social media, as well as popular TV series, movies
    and on-line newspapers undoubtedly participate in the spreading of information
    and somehow are an essential cog in health education and knowledge mediation
    processes. Would they be right or wrong, fake or transformed? Do they describe
    adequately the social health challenges? How do they need to evolve in the roles and
    practices? How can we analyze and discuss social circulation of this knowledge, from
    the producers to the receivers and users and backwards? What could be the evolution
    of social actors’ representations and to what extend behaviors can be impacted by
    these “new media”?
    We try to answer these questions, but most of all, to start a discussion…
    Katarzyna Potyrała

  • 240 Annales Universitatis Paedagogicae Cracoviensis. Studia ad Didacticam Biologiae Pertinentia VII
    Nr VII (2017)

    Introduction
    Educational contexts, dilemmas and controversies in the face of new technologies
    Editors of “Science” have recently developed questions, which in their opinion deserve
    special attention and are controversial. These questions relate to the problems
    of the world and human problems: local and global, biology and medicine, human
    environment and the future of our planet. The most frequently asked questions considered
    the issues of the relationship of genetic variability with the state of health,
    the mechanisms of memory and its evolution, causes of biodiversity, the availability
    of an effective vaccine against HIV, a real possibility of fatal consequences of global
    warming, cloning or genetically modified organisms.
    There are also opinions on social transformation and new civilization of knowledge
    as the consequences of the technological revolution. Emerging predictions
    have both supporters and opponents, it is said that information technology supports
    many scientific fields and research progress is largely the result of the synergy work
    of scientists and technology. Opponents argue that information technology promotes
    pseudoscientific ideas and research. It acknowledges the importance of the ethical
    issues in science and commercialization of research results, which can limit the flow
    of scientific information and narrow scientific problems to projects applications.
    Sociological moral dilemmas are related to issues of functioning and transformation
    of society, the processes leading to exclusion or social stigmatization to name
    just two.
    One time, sociobiology which adopts, among others, that genes play a fundamental
    role in shaping human behavior and that there are insurmountable limitations
    in reducing features such as aggressiveness became a field of great scientific
    controversies in terms of religion and politics As bioethical problems there are to
    be considered such issues as artificial insemination, abortion, cloning, stem cells,
    genetic engineering, genetically modified foods, trade in tissues and organs for
    transplantation, euthanasia, environmental protection, ecological ethics, eugenics,
    prolonging life.
    Particular controversies are connected with acts of intolerance, not accepting
    personal choices of man and forcing their views and the views of other people
    identified as sexism and racism. These last two are based on the belief of the
    superiority of one person over another, and supported by the pseudoscientific views
    promoted by the media can lead to phenomena which should not take place in the
    21st century.
    Much of the difficulties relate to contemporary education, and the future of
    young people. Consequently, we need to refer to the problem of teacher training.

    That what is very important today is undertaking new solutions and reaching for
    a new philosophy of teaching and learning.
    It is also connected with the functioning of young people in the face of these
    dilemmas. Roles, tasks and social decisions which are undertaken by the youth are
    often based on established patterns and relate to the information created by media.
    These issues also reveal new fields of research and present new directions for
    research. Another problem is the responsibility of scientific research and ethical
    research. This assessment in the first place belongs to the researcher and often confronts
    them with their own system of values and standards of research.
    New volume of the Annales is an attempt of starting the debate about educational
    contexts, dilemmas and controversies in the face of new technologies. It
    applies to both: heritage and present day, social change and sustainability, formal
    education and informal education, new methods and new environments, inclusion
    and individualization. What is significant is the fact that the majority of scientists
    are naturalists – it means that they take into account special problems of the world
    and human problems in the 21st century. Recommendation refers to real world, as
    according to an American author, filmmaker, philosopher, cultural critic, essayist,
    and poet Suzy Kassem’s words:
    Everybody has a little bit of the sun and moon in them. Everybody has a little bit of man,
    woman, and animal in them. Darks and lights in them. Everyone is part of a connected
    cosmic system. Part earth and sea, wind and fire, with some salt and dust swimming in
    them. We have a universe within ourselves that mimics the universe outside. None of us
    are just black or white, or never wrong and always right. No one. No one exists without
    polarities. Everybody has good and bad forces working with them, against them, and
    within them (Suzy Kassem, Rise Up and Salute the Sun: The Writings of Suzy Kassem).
    Katarzyna Potyrała

  • 215 Annales Universitatis Paedagogicae Cracoviensis Studia ad Didacticam Biologiae Pertinentia VI
    Nr VI (2016)

    Introduction
    What does it mean „Responsible Educational Research (RER)” ?
    The main objective of this volume of our Journal is to build a strong background
    of partnership and community of various European institutions in the area of
    Responsible Educational Research (RER) in order to share knowledge, best practices,
    experience and foster the dissemination and promotion of philosophy of RER.
    Specific goals of this volume are as follows:
    –– to enable European researchers to undertake the educational issues connected
    with the health, gender, sustainable development, ICT in education and
    inclusive education in responsible way,
    –– to exchange knowledge between universities and enable them to transfer
    experience from their projects and research,
    –– to ensure the possibility for the researchers and other stakeholders to represent
    their work to the community and other scientists in Europe and beyond,
    –– to develop the governance for the advancement of responsible research
    by all stakeholders (researchers, policy makers, business and civil society
    organisations), which is sensitive to society needs and demands and promotes
    responsible educational research,
    –– to foster sustainable interaction between research institutions, business and
    policy makers,
    –– to ensure the dissemination of information about scientific achievements in the
    area of educational research at the international level.
    The following factors are crucial for the development of educational research:
    open access, ethics and transparency. So far, none comprehensive activities have
    been taken that would clearly define the issues of transparency and responsibility
    of educational research.
    The first important factor is an open access to scientific publications and
    articles. Currently, it is believed that access to research results contributes to the
    overall improvement of the quality of research and innovation in both public and
    private sectors. In principle, such activities are to support creation of the European
    Research Area and the Innovation Union – the two flagship initiatives of the
    European Commission in the field of research and development.
    Open access is defined as the practice of providing on-line access to scientific
    information that is free of charge to the end-user and that is re-usable. In the context
    of research and innovation, scientific information can refer to peer-reviewed
    scientific research articles or research data. Wider access to scientific publications
    and data therefore helps to build on previous research results (improved quality
    of results), foster collaboration and avoid duplication of effort (greater efficiency),
    [4]
    accelerate innovation and involve citizens and society (improved transparency of
    the scientific process).
    The next important factors are transparency and ethics. Researchers have
    an ethical obligation to facilitate the evaluation of their evidence-based knowledge
    claims through data access, production transparency, and analytic transparency
    so that their work can be tested or replicated. For example, researchers making
    evidence-based knowledge claims should provide a full account of how they draw
    their analytic conclusions from the data, i.e. clearly explicate the connecting data
    to conclusions. In case of educational research this issue is particularly important.
    Transparency is one of the crucial criteria in educational research. Researchers
    are sensitized by transparency in the scope of advantage and disadvantage aspects
    of research project. It protects readers, as well as authors, from illegal inferences and
    distant associations which are beyond the reach of research project. Transparency
    provides conditions for verification of presented research results. Science education,
    focusing on human and social processes associated with its development and
    functioning, enters an area empiricism so many times, each time trying to determine
    the condition of the part of individuals and the conditions in which they have
    to operate. From the point of view of a certain scientific community, credibility of
    observations made and statements formulated based on them depend on the accuracy
    of methodological solutions adopted in this community. So it is particularly
    important in the process of publishing research results to gain transparency of
    their course, giving recipients the opportunity to review conclusions, without which
    they are exposed to the dangers of subjectivism, unauthorized generalization and
    interpretation of data collected during the research process. Transparency in presenting
    the results of the observations is particularly important for young scientists
    [Sławomir Pasikowski, Transparentność w publikowaniu wyników badań empirycznych
    poświęconych edukacji (Transparency in publishing results of empirical
    research on education), Educational Studies Review, Vol. 1, No. 16 (2013)].
    In a European context the following points of reference should be reflected in
    the design of research processes:
    –– ethical acceptability, which includes compliance with both the EU charter on
    fundamental rights, as well as the safety of research,
    –– orientation towards societal needs, which includes an orientation towards
    contributing to achieving objectives of sustainable development (consisting of
    economic, social, as well as environmental aspects).
    Due to the fact that the volume is focused on responsible educational research,
    it is necessary to analyse the definition and main aspects of responsible research.
    Firstly, responsible research refers to the comprehensive approach of
    proceeding in research, in ways that allow all stakeholders that are involved in the
    processes of research and innovation at an early stage. It enables:
    [5]
    –– to obtain relevant knowledge on the consequences of the outcomes of their
    actions and on the range of options open to them,
    –– to effectively evaluate both outcomes and options in terms of societal needs
    and moral values,
    –– to use these considerations as functional requirements for design and
    development of new research.
    Responsible research aims mainly at being:
    –– responsive: if research claims to be responsible, it has the capacity to change
    its direction or shape when it becomes apparent that the current developments
    do not match societal needs or are ethically contested; responsiveness refers
    to the flexibility and capacity to change research and innovation processes
    according to public values,
    –– inclusive: inclusiveness asks researchers and innovators to involve diverse
    stakeholders in the process to broaden and diversify the sources of expertise
    and perspectives,
    –– reflexive: reflexivity asks researchers and innovators to think about their own
    ethical, political or social assumptions to enable them to consider their own
    roles and responsibilities in research, as well as in public dialogue; reflexivity
    should raise awareness for the importance of framing issues, problems and
    the suggested solutions (Options for strengthening Responsible Research and
    Innovation, European Commission, 2013).
    The articles had undertaken the challenge of being the examples of a good practice
    in the area of RER, and open-acces to them is one of the factors of transparency
    in our professional development.
    Katarzyna Potyrała

  • 197 Annales Universitatis Paedagogicae Cracoviensis Studia ad Didacticam Biologiae Pertinentia V
    Nr V (2015)

    Introduction Animation of science culture as one of top priorities in contemporary education
    Formal and informal education is vital for the society. It is the means to realizing the need for human development emphasized by contemporary psychology, civilization transformations and the necessity to acquire new qualifications and competencies.
    Adapting to the ever-changing reality, broadening one’s knowledge and mastering skills, developing one’s character and finally understanding culture and the needs of society are all factors contributing to the development of global society. All of the elements mentioned are connected to constant and life-long education allowing to fill any gaps in knowledge, as well as to perceive science and its popularization as values by both students (throughout their education) and adults. Teachers, educators of informal education and cultural animators take active part in the process. Therefore, the demand for educating specialists in this particular field is a key notion of current didactics.
    The first volume is concerned with transformations within the didactics of biology understood as a subdiscipline of pedagogy and part of nature studies. The second volume deals with educational models promoting the notion of biodiversity.
    The third volume includes articles on “health literacy” – knowledge and skills in health issues that every member of knowledge-based society should posses. The fourth volume focuses on one of the key tasks of didactics of biology, that is life-long education in terms of interdisciplinary understanding of balanced development and, in particular, environmental protection.
    The topic of the fifth issue of the Annales is animation of nature culture as a way of influencing formal and informal education, education through culture and for culture, as well as supporting balanced development of knowledge-based society.
    The theory of pedagogy of culture animation is connected to cultural socialization of young people and to cultural education through getting them involved in creating, mastering and popularizing knowledge. The authors of the present issue deal with issues such as: teachers’ competencies necessary for realizing integrational [4]
    education; sense of responsibility; universalism and cultural identity; responsibility for nature; the use of information and communication technologies; identifying global and local character of processes surrounding a person in the modern world.
    What is also of great importance is the necessity of realizing the needs of children, teenagers and adults in the area of increasing their involvement in science, culture and social life.
    Popularization of knowledge is connected with the search for forms of proper sharing of the latest scientific and academic achievements to various recipients. The ability to present information in an attractive form that catches attention is of vital importance. Also important is enabling participation in various interdisciplinary projects aimed at promoting cultural events, as well as solving global and local environmental issues by involving creativity, motivation and emotions of the audience.
    Culture encompasses knowledge, understanding, skills, relations, and conver-gence of different forms of reality – everything that facilitates human thinking and evaluation. One of cultural activity enabling reflection upon and transmission of knowledge based on the above-mentioned criteria is writing and interpreting literature, as well as creating or taking part in scientific theatre. All of those activities inspire and solidify academic interests. Furthermore, they encourage social activities in cultural sphere.
    People live in the world of values constituting their personalities and sur-roundings, influencing development of identity, culture, history, activity, physical and psychological well-being, and various types of relationships. One of such values is nature, promotion of which calls for the involvement of numerous institutions and organizations of formal and informal education which popularize knowledge through various projects, such as museums, festivals, contests, campaigns, social work, trips, field work, publishing periodicals. Those are manifestations of integration and collective management of development of natural and cultural heritage both on a local and global scale.
    Global education is based, among other things, on living by certain values, interdependence, challenges, and scientific and cultural correlations. The task of societies is devising strategies to solve problems of the modern world. This is accomplished through school programs aimed at educating students about proper approach to scientific knowledge, as well as cultural, religious, social and ethnic differences between countries. The purpose is to teach them proper forms of communication with people from all over the world, to shape individual attitudes, and to make students aware of multiculuralism and interculturalism. It is necessary to use such techniques and methods of teaching which facilitate solving socio-emotional problems through students’ democratic communication with cultural community and social organizations.
    Everything that constitutes nature culture can influence human activity and have a key role in shaping people’s attitude to the world of science and art.
    Introduction[5]
    Introduction
    An interesting encounter with a given branch of science, even though at times occasional or onetime, can spark the emergence of hidden potential of a given person.
    Therefore, the animator of science culture is given a key role. Such a person should co-operate with different social groups in a competent way in order to responsibly promote knowledge and art through “academic debate” based on cognitive systems, correcting errors in the audience’s existing knowledge, using proper forms of communication.
    Promoting integrational education is another key issue. Such integration can be implemented in the case of children with developmental disorders such as Asperger’s Syndrome whose symptoms include difficulties in establishing relations with other people and in adapting to the reality present. Therefore, creating opportunities of overcoming such difficulties is yet another task of science culture animation. This is accomplished, among other things, through “therapy” making use of the richness of the world of science, as well as knowledge in the areas of psychology and pedagogy.
    One of the elements influencing the formation of proper relations between people thus improving sharing knowledge and scientific dialogue is recognizing people as social beings. This in fact is what drives them to search for new information and share it in the process of socialization.
    Self-organization, self-development, linguistic correctness, a form of educational coaching, awareness of technological innovations, monitoring the outcomes of scientific, academic and educational researches, giving feedback are all components necessary for the development of animators of science culture. They in turn contribute to the development of institutions of formal and informal education.
    Connected to the issue is the debate on teachers’ training and methods used in the process (both theoretical and practical). Those should enable the development of professional competencies of future educators.
    The increasing interest in events oriented at popularizing knowledge, interactive mueums, exhibitions, etc creates the need for equipping future scientists not only with theoretical knowledge, but also with the skill of sharing said information with different audiences and with the skill of shaping proper social attitudes towards the environment, nature and one’s own health. Meeting the expectations of future employers should be realized at university level through introducing new subjects and fields of study. That is why, in the academic year 2014/2015, the Pedagogical University of Cracow introduced a new scpecialization field: “Animation of science culture”. It was dedicated to students with Bachelor’s Degrees in Biology and Environmental Protection. The University of Burgundy served as the example.
    Based on their already tested and verified methodology, the Cracow’s university developed their own curricula of the specialization. The French model of teaching science culture animators was adapted to the Polish reality. It was also emphasized that an animator of science culture should not only be fluent in the sciences but should also posses certain traits of character and social skills.
    Katarzyna Potyrała and Karolina Czerwiec

  • 174 Annales Universitatis Paedagogicae Cracoviensis Studia ad Didacticam Biologiae Pertinentia IV
    Nr IV (2014)

    Introduction
    Environmental Protection and Sustainable Development...
    as a Contemporary Educational Priority
    The phenomena of information noise and information overproduction relate to
    many contemporary civilization challenges, including the realization of the idea of
    sustainable development. Continuous education in the area of solving environment
    protection and human health problems seems to be one of the priority tasks of the
    didactics of biology.
    Volume I of the Annals touched upon the topics related to didactics of biology
    in the context of its shifts as a pedagogy subdiscipline and a subject of the Nature
    Studies. Volume II covered the issue of educational models in the area of biodiversity
    promotion. Volume III, in turn, focused on “health literacy” – knowledge and skills
    every member of the knowledge-based society should possess on the topic of health.
    The challenges the contemporary schools on all educational levels have to
    face revolve upon the interdisciplinary approach to environmental protection, and
    in the wider meaning, sustainable development. It is a difficult and complex task,
    because of the fact that currently the actions taken by schools, from primary school
    to an university, are too slow in comparison to social changes and needs regarding
    the environmental problem solving. Climate changes, ecological catastrophes,
    atmosphere pollution or modern-age diseases are crises the contemporary world
    has to face. The human anthropogenic activity contributes to the disadvantageous
    changes in the natural environment. This is why appropriate education plays an
    incredibly important role in the shaping of a proper life style and acting towards
    environment protection. More and more attention to the issues of global and local
    actions of the society on sustainable environment is being paid by governments,
    governmental and non-governmental organizations and scientists of many countries.
    Environment protection is a multidisciplinary subject from the border of
    a number of scientific areas, which becomes more and more important in the sphere
    of social responsibility for the coexistence of man and nature. Educational negligence
    in the area of promoting respect to natural environment and media actions towards
    promoting consumptionism result in the contemporary civilisation life style not
    always being in accordance with taking care of nature, and the environment protection
    [4] Introduction
    awareness is too low to take any actions towards counteracting the natural resources
    degradation. This is why it is so important to educate specialists in the environment
    area and prepare students of both future teachers and decision-makers to properly
    include environmental protection into the educational process and understand
    the essence of managing the environment. It is also important to work towards
    the safety in terms of “global education,” which can be achieved through proper
    educational work on the local and national scale, e.g. through promoting innovative
    interdisciplinary research and educational projects undertaken in cooperation
    with specialists and institutions of different areas of science. These actions should
    include the issue of the environment in the cultural, economic, political, democratic
    and technological approach in the international context. The results achieved on the
    basis of this cooperation can contribute to implementing new teaching strategies
    for environmental protection. Exchanging experiences, test results and formulated
    materials is a chance for teachers, educators and also students to start increasing
    the capabilities, range and quality of environmental education. Teaching about the
    environment should be connected with the understanding of the needs of specific
    people, stimulating solidarity in the range of economic, ethical, political and cultural
    actions and raising the sense of co-responsibility for improving the environment.
    A reflection on the function of formal education in promoting the rules of
    sustainable development should include the multiplicity of education goals and
    the readiness of students and teachers to cooperate in this aspect. Helping schools
    implement good practices on the environmental protection should be supported
    by the municipalities and local societies. The actions programme of the local
    government should be based on promoting the knowledge-deepening process on
    environmental protection, as well as organizing the initiatives engaging the society
    of a given region to actively improve the state of the surrounding environment and
    increase pro-ecological awareness, and thus take effective actions in the region.
    The dynamics and complexity of the environment as a place where a man lives
    requires considering it in the scope of multidimensional education open to the
    society’s needs. Shaping the right attitudes and opinions towards the pro-ecological
    actions should be permanently implemented in the school and university curricula
    and understood as a list of teaching and learning goals. Implementing new content
    regarding the scientific advances in the field of sustainable development in the formal
    education should be correlated with the promotion of the upbringing towards the
    respect for nature protection laws. Only the right motivation of the members of the
    society to implement the environment protection knowledge, take actions in this
    regard and use the proper system of values in the environment protection aspect
    can influence the global problem of environment pollution, respect the law in this
    regard and creatively solve the worldwide problems of sustainable development.
    Learning the practical competences in understanding and integrating the actions
    towards shaping the pro-environmental attitudes and supporting the initiatives on
    the notion of being responsible for the future of the world in the difficult reality of
    Introduction [5]
    today can be facilitated by modernizing the educational process and filling the gaps
    in the students’ knowledge structure regarding the issue of environment protection.
    The special educational role in teaching about the environment is being played
    by the media as means of non-formal education. Through this the society can receive
    information on the advantages resulting from the latest genetic and technological
    studies about biodiversity, as well as use them in a balanced management of natural
    resources. Monitoring the protected areas, developing strategies and programmes
    of maintaining biodiversity and information on the international cooperation in this
    area should reach as many people as possible. A very important role in forwarding
    the right patterns of nature education is being attributed to the organization and
    coordination of an information network on the international arena through the
    integration of environmental, artistic, economic and social science knowledge.
    A good way to understand the environmental problems and analyze the social
    behaviours in this regard is the popularizational activity of the university. The
    constant decline of the environment quality, social and economic problems and
    inappropriate behaviour of people in the aspect of nature protection require
    higher schools to strongly influence the knowledge and the shaping of the system
    of values of students in the area of increasing the environmental awareness and
    motivate them to solve local problems of sustainable development. The constant
    development of the society, both economically and technologically, creates the
    need for the higher education institutions to look for ways of realizing the goals
    of environmental protection and to create methods that make society aware of the
    need to responsibly deal with environmental challenges of the modern world.
    Katarzyna Potyrała and Karolina Czerwiec

  • 150 Annales Universitatis Paedagogicae Cracoviensis Studia ad Didacticam Biologiae Pertinentia III
    Nr III (2013)

    Introduction
    As the risk society develops, so does the antagonism between those afflicted by risks and those who profit from them. The social and economic importance of knowledge grows similarly, and with it the power over the media to structure knowledge (science and research) and disseminate it (mass media). The risk society in this sense is also the science, media and information society. Thus new antagonisms grow up between those who produce risk definitions and those who consume them1.
    Modern Biology Didactics must face new civilizational challenges. They are, among others, information surplus, necessity of life-long learning, solving problems and making decisions concerning natural environment, health, and implementing the rules of sustainable development. The educational strategies applied so far have proved insufficient, hence the numerous attempts to modify the existing classifications, methods labels and assumptions of their practical realization. The previous volumes of the Annales were devoted to the transformation of Biology Didactics as a pedagogical subdiscipline and an educational subject in the academic tradition of university-based Biological Studies (vol. I), and to seeking paradigms for education in biodiversity protection (vol. II). We are currently facing an important task. Within the scope of scientific literacy, i.e. the knowledge indispensable to every member of the information society, we need to reflect upon the knowledge and skills constituting the ‘health literacy’. This is due, among others, to the fact that researchers have observed growing social interest – displayed mainly by young people – in the issues of IVF and other applications of scientific achievements in medicine, life threats in the context of various sexual behaviours, contraception, intoxicants and stimulants abuse, food additives and GMO related health safety.
    There are other issues that must be touched upon, e.g. the health and life threats to infoholics (information addicts) and compulsive internet users (internet addicts).
    Such disorders often underlie emotional disorders in children and young people (such as aggression and other behaviours that pose a threat to others).
    Biology Didactics as a field seeks methods of delivering teaching contents relat-ed to health and attempts to identify the scope of the new knowledge which should be included in the curricula at different levels of education. These aims call for close cooperation with specialists in current human biology issues, extended research in human biology teaching, and discussion among the health education practitioners.
    1  U. Beck, 1992, Risk Society – Towards a New Modernity, Sage, London, p. 46.[4]
    Introduction
    Modern youth’s lifestyle in extended reality often stems from the hyper-reality and from the fact that the media constitute the extension of senses of the modern man. The media, not the school, create most of the opinions and attitudes of young people when it comes to the subject of health, sickness and risk, and disease preventive measures. Therefore the problem the modern school faces is that it does not keep pace with the social needs and does not display an interdisciplinary approach towards e.g. environmental and health issues. When speaking of environmental issues, it is worth contemplating how human interference with the natural environment affects human health.
    Graduates from different educational levels lack competence when it comes to social mediation conducted by specialists facing a clash of interests in natural environment exploitation, or in negotiations concerning the interests of patients and their families in conflicts resulting from inadequate communication related to health issues and health problem solving.
    We must ask, then, what competences are indispensable for the 21st century people to be able to correctly assess risk and to participate in a dialogue with spe-cialists when it comes to taking the most important decisions concerning their health and life? Thus we pose a question about competences (motives, values, in-volvement), not only about qualifications confirmed by appropriate certificates and diplomas.
    We ask this question today, when school is commonly attacked and criticized.
    From the perspective of the society, curricula are supposed to reinforce the perma-nent values and accepted models, or to create a significant breach in the existing habits, to change the existing values of cultural patterns, and to trigger a vital turn towards the pupil’s individuality. Thus school faces criticism from the conservative point of view, for the lack of unified curriculum requirements, notions canon and reading lists, and from the liberal point of view, for not providing conditions for the pupil’s individual development. Meanwhile, we try to come up to the message included in Federico Mayor’s The World Ahead: Our Future in the Making, which calls upon us to create educational contexts taking into account new knowledge (chiefly biology), in order to conduct research and control the cognitive process. We make the teacher face the necessity of: filtering the multitude of information; increasing or reducing the influence of external stimuli; providing situations for the pupils to mo-bilize and activate the new knowledge and to test its efficiency and limitations; pro-viding situations in which the new data is more easily accessed and acquired, when the pupils use the new structure of notions and learn to activate their knowledge.
    The articles selected for this volume consider many different aspects of the civi-lizational risks. Authors of particular chapters are renowned specialists in various fields, sometimes quite diverse (pedagogy, biology: mainly physiology, chemistry, human nutrition, or pharmacology), and they are all involved in the topic of risks posed by the environment. In general, the reflections presented by the Authors cre-ate an atmosphere of lively debate, which may become a starting point in developing Introduction
    [5]
    educational communication strategies, where civilizational risks constitute the main axis of discussion. The publication contains 12 articles in English. The Authors are academics from Poland and Argentina, France, Germany, Switzerland and India.
    As the review of this volume states, “the choice of the Authors is by no means acci-dental, as they are indeed experienced specialists in their fields”.
    In the beginning of the volume, we commemorate Professor Jerzy Wołek, whose professional path for several years overlapped with the path of development of Polish Biology Didactics.
    Katarzyna Potyrała

  • 111 Annales Universitatis Paedagogicae Cracoviensis Studia ad Didacticam Biologiae Pertinentia II
    Nr II (2012)

    Wstęp
    Chciałem zmienić świat.
    Doszedłem jednak do wniosku, że mogę jedynie zmieniać samego siebie.
    Aldous Huxley
    Światowy Rok Różnorodności Biologicznej (2010) ogłoszony przez ONZ miał na celu prowadzenie międzynarodowej kampanii w kierunku podniesienia świadomo-ści społecznej na temat zróżnicowania ożywionej części przyrody. Chodziło między innymi o zwrócenie uwagi na znaczenie różnorodności biologicznej dla jakości życia człowieka, pokazanie dotychczasowych osiągnięć w dziedzinie ochrony zasobów przyrodniczych oraz zachętę do podejmowania dalszych wzmożonych wysiłków na rzecz przeciwdziałania utracie różnorodności biologicznej (Kalinowska 2011a).
    W sferze naukowej, Światowy Rok Różnorodności Biologicznej był okazją do zaprezentowania wyników badań własnych i zespołowych oraz włączenia się naukowców w ogólnoświatową dyskusję nad teoretycznymi i praktycznymi uwa-runkowaniami kształtowania pojęć i budowania podstaw przyrodniczej wiedzy społecznej, zgodnie z zasadą zrównoważonego rozwoju. W Polsce zasada zrówno-ważonego rozwoju zyskała rangę konstytucyjną – została zapisana w art. 5 konsty-tucji RP, a definicja zrównoważonego rozwoju znalazła się w ustawie Prawo ochro-ny środowiska: „taki rozwój społeczno-gospodarczy, w którym następuje proces integrowania działań politycznych, gospodarczych i społecznych, z zachowaniem równowagi przyrodniczej oraz trwałości podstawowych procesów przyrodniczych, w celu zagwarantowania możliwości zaspokajania podstawowych potrzeb poszcze-gólnych społeczności lub obywateli zarówno współczesnego pokolenia, jak i przy-szłych pokoleń”.
    Niniejsza publikacja, traktowana jako wymiana poglądów na temat różnorod-ności biologicznej, na tle badań naukowych i uwarunkowań edukacyjnych, wpisu-je się w te działania. Celem jest wypracowanie paradygmatu – wiodącego prądu w nauce – rekomendowanego na różnych etapach kształcenia. Istnieje wiele defi-nicji różnorodności biologicznej oraz sposobów jej określania i pomiaru. Ukazanie dróg przewidywania, zapobiegania oraz zwalczania przyczyn zmniejszania się lub jej zanikania może być jednym z elementów strategii edukacyjnych opartych na kry-tycznym myśleniu, argumentowaniu i komunikacji społecznej.
    Pojawiła się zatem konieczność pogłębionych analiz definicyjnych i dyskusji opartych na wynikach badań prowadzonych przez różnych specjalistów na temat teo-retycznych i praktycznych uwarunkowań różnorodności biologicznej organizmów. [4]
    Wstęp
    Autorom zaproszonym do współpracy nad publikacją przyświecało założenie, że wiedza rozwijana jest w ramach nie pojedynczych teorii, a raczej większych zbio-rów osądów, które powinny być uzgadniane, aby osiągnąć spójność między sobą.
    Kompleksowe zagadnienia, takie jak bioróżnorodność, wymagają bowiem ożywie-nia współpracy różnych specjalistów, zwłaszcza w kontekstach edukacyjnych.
    Warto przypomnieć, że termin bioróżnorodność pojawił się w 1968 roku w książce traktującej o potrzebie ochrony przyrody, autorstwa Raymonda Dalesma-na, ale do roku 1980 nie znalazł akceptacji naukowców. W 1980 roku pojęcie róż-norodności biologicznej pojawiło się także w przedmowie do książki Thomasa Lovejoya (Conservation Biology), który uchodzi za twórcę terminu bioróżnorodność (za: Kędziora, Karg 2010). W powszechnym użyciu termin ten znalazł się od oko-ło połowy lat 80. XX wieku, a do międzynarodowego obiegu wprowadzony został w końcu lat 80. XX w. przez amerykańskiego biologa, profesora Edwarda O. Wilsona (Kalinowska 2011b). Obecnie stosowany jest w kontekście zagrożeń dla środowiska naturalnego, w szczególności w odniesieniu do zagadnienia wymierania gatunków.
    Różnorodność biologiczna, bioróżnorodność – oznacza powszechnie zróż-nicowanie życia na wszelkich poziomach jego organizacji. Zgodnie z Konwencją o różnorodności biologicznej (1992), różnorodność biologiczna to „zróżnicowanie wszystkich żywych organizmów występujących na Ziemi w ekosystemach lądo-wych, morskich i słodkowodnych oraz w zespołach ekologicznych, których są czę-ścią. Dotyczy ona różnorodności w obrębie gatunku (różnorodność genetyczna), pomiędzy gatunkami oraz różnorodności ekosystemów”.
    Dobór prac do pierwszej części tomu poświęconego bioróżnorodności wynikał z chęci nietypowego podejścia do kwestii trwałości układów podtrzymujących życie w biosferze. Bioróżnorodność ma podstawowe znaczenie dla ewolucji, jej ubożenie wyraża się między innymi poprzez zmniejszanie zróżnicowania genowego w popu-lacjach. Istotne znaczenie dla zachowania różnorodności biologicznej w przestrzeni rolniczej ma też zróżnicowanie siedlisk, a bogata bioróżnorodność, definiowana nie tylko jako bioróżnorodność międzygatunkowa, nastręcza poważnych problemów, np. z definiowaniem pojęcia gatunku bakteryjnego. W dyskusji uczestniczą genety-cy, fizjolodzy, mikrobiolodzy, paleontolodzy i ekolodzy.
    Artykuły zawarte w drugiej części tomu podnoszą zagadnienie bioróżnorod-ności w kontekstach edukacyjnych. Obecność treści dotyczących różnorodności or-ganizmów w programach kształcenia i zawartość treściowa programów nauczania, a równocześnie wyniki badań, które wskazują, że stan świadomości ekologicznej uczniów jest bardzo niski (Morka 2010), a efekty edukacji środowiskowej społe-czeństwa niezadowalające (Tuszyńska 2008), wymuszają potrzebę podjęcia kro-ków w kierunku adaptacji nowych modeli nauczania i uczenia się przyrody, bio-logii i ochrony środowiska, wspomagających procesy przetwarzania informacji, rekonstrukcji wiedzy i budowania allosterycznego środowiska uczenia się (Giordan 1998).
    Cytowane poniżej słowa Karola Darwina z dzieła pt. O powstawaniu gatunków uświadamiają czytelnikowi rozmiar zjawiska, jakim jest bioróżnorodność.
    Prawdopodobnie wszystkie formy życia organicznego, jakie kiedykolwiek istniały na tej Ziemi, pochodzą od pierwotnej formy, w którą po raz pierwszy tchnięto życie […]. Jest coś wspaniałego w takiej wizji życia […] albowiem podczas gdy ta planeta krążyła zgod-Wstęp
    [5]
    nie z niezmiennym prawem grawitacji, z tak prostych początków rozwinęły się nieskoń-czone formy, najpiękniejsze i najcudowniejsze, i dalej się rozwijają.
    Bioróżnorodność – sprowadzana najczęściej do ochrony gatunkowej roślin i zwierząt, z pominięciem, np. mikroorganizmów, grzybów, a także różnorodności krajobrazów i rozmaitości genów obecnych w pulach genowych populacji – nie uka-zuje zjawiska zmienności organizmów, a tym samym wartości życia i różnorodno-ści jego przejawów. Kompleksowy system organizacji żywej materii wymaga rów-nież podejścia etycznego, szacunku dla każdej formy życia, jako istotnego i cennego wkładu w ewolucję świata organicznego.
    Szkoda drogocennego czasu i energii na skupianie się wyłącznie na zagroże-niach dla bioróżnorodności i w tym kontekście na inwazyjnej naturze człowieka, czy pytaniach jaki będzie świat wobec ogromu zniszczeń, które codziennie dotykają przyrodę i ich katastrofalnych konsekwencji. Nie można zmienić świata, ale moż-na zmienić samego siebie – swój stosunek do przyrody, codzienne przyzwyczajenia i podejście do edukacji.
    Niech motto zawarte w tym wstępie, słowa Aldousa Huxleya, autora słynnej książki z gatunku science fiction pt. Nowy wspaniały świat1, przeniosą nas w realny świat indywidualnych i zespołowych działań na rzecz ochrony bogactwa życia – bio-różnorodności. Jest to możliwe dzięki wysiłkom naukowców i nauczycieli, którzy poprzez stosowną edukację i komunikaty medialne starają się budować spójny, ho-listyczny obraz świata. Brakuje komunikatów, które potrafiłyby połączyć w sposób interdyscyplinarny pozorne sprzeczności, takie jak np. wzrost potrzeb i konieczność ograniczeń, rozród i selekcja, zagrożenie i bezpieczeństwo.
    Zróbmy krok naprzód…
    Katarzyna Potyrała
    Literatura
    Giordan A., 1998, Apprendre!, Débats Belin.
    Kalinowska A. (red.), 2011a, Wybrane zagadnienia z ekologii i ochrony środowiska. Różnorod-ność biologiczna w wielu odsłonach, Uniwersytet Warszawski, Warszawa.
    Kalinowska A., 2011b, Dla trwałości życia – różnorodność biologiczna a dobrostan ludzkości, [w:] A. Kalinowska (red.), Wybrane zagadnienia z ekologii i ochrony środowiska. Różno-rodność biologiczna w wielu odsłonach, Uniwersytet Warszawski, Warszawa.
    Kędziora A., Karg J., 2010, Zagrożenia i ochrona różnorodności biologicznej, Nauka, 4, s. 107– 114.
    1 Nowy wspaniały świat (ang. Brave New World) – powieść napisana w 1932 roku. Ka-non fantastyki posłużył w niej Huxleyowi jako narzędzie do konfrontacji idei wolności z po-rządkiem, pragmatyzmu z fantazją, indywidualizmu z kulturą społeczności masowej. Huxley stworzył powieść o charakterze proroctwa i przestrogi, którą próbuje ostrzec ludzkość przed utopią przedkładającą trwałą szczęśliwość i wygodę nad wzloty i upadki w świecie pełnym emocji.[6]
    Wstęp
    Morka D., 2010, Kształtowanie postaw proekologicznych uczniów liceum w ramach Comenius Projecy – Sustainable Energy, [w:] L. Tuszyńska (red.), Edukacja środowiskowa w społe-czeństwie wiedzy, Uniwersytet Warszawski, Warszawa, s. 179–197.
    Tuszyńska L., 2008, Diagnoza stanu edukacji środowiskowej społeczności lokalnych w wybra-nych regionach Polski, WUW, Warszawa.
    Ustawa z dnia 27 kwietnia 2001 r. Prawo ochrony środowiska, Dz.U. z 2001 r., nr 62, poz. 627.

  • 86 Annales Universitatis Paedagogicae Cracoviensis Studia ad Didacticam Biologiae Pertinentia I
    Nr I (2011)

    Wstęp
    Nowe tendencje w edukacji stawiają dydaktyków wobec nowych wyzwań. Efekty
    nauczania bywają wymierne w różnych dziedzinach, zmiany będące ich wyrazem
    ujmowane są w kategoriach wzrostu zakresu przyswojonych informacji i zachowań
    oraz w różnicowaniu sposobów operowania nimi. W centrum zainteresowania
    dydaktyków od dawna znajduje się materiał nauczania jako element myślenia
    ucznia, warunki realizacji założeń procesu kształcenia i wiele problemów psychologicznych,
    które odnoszą się do takich zagadnień, jak potrzeby, zainteresowania,
    uwaga i organizacja aktywności szkolnej. Dużą wagę przywiązuje się do związków
    motywacji z przedmiotem zainteresowań i znaczenia zróżnicowanych elementów
    emocjonalnych w procesie uczenia się.
    W dotychczasowych badaniach nad programami nauczania biologii i kryteriami
    doboru biologicznych treści kształcenia zwracano uwagę m.in.: na wpływ materiału
    nauczania na stopień realizacji zakładanych celów nauczania, możliwości
    porządkowania pojęć w struktury w oparciu o przestrzeganie logicznych i merytorycznych
    zależności między nimi, konieczność uwzględniania wyników badań
    w dziedzinie najnowszych gałęzi nauk biologicznych, pogłębianie korelacji wewnątrz-
    i międzyprzedmiotowych, potrzeby i sposoby integracji wiedzy nauczania
    o przyrodzie. Prowadzone od wielu lat badania ilustrują złożoność relacji między
    założeniami programów nauczania a przebiegiem i efektami nauczania na nich
    opartego. Unaoczniają również odpowiedzialność autorów programów i nauczycieli
    biologii za organizację procesu nauczania i przygotowanie uczniów do dalszej nauki
    i zaspokajania potrzeb życiowych.
    Coraz częściej powtarzają się pytania (zadawane również przez dydaktyków
    biologii na całym świecie) o rodzaj i poziom edukacji przyrodniczej potrzebnej
    ludziom do podejmowania społecznych decyzji wymaganych w XXI wieku oraz
    o strukturę podstaw wiedzy przyrodniczej uczniów. Przeważa przy tym opinia, że
    przyrodnicza edukacja szkolna jest jedynie początkiem ustawicznego kształcenia
    mającego trwać przez całe życie.
    Problemy badawcze dydaktyki biologii w Polsce w dużej mierze koncentrują
    się w ostatnich latach wokół zagadnień związanych z reformą systemu kształcenia
    [4] Wstęp
    biologicznego i systemu edukacji. Edukacja przyrodnicza na poziomie szkoły podstawowej
    stworzyła konieczność podejmowania badań na temat założeń i efektywności
    kształcenia zintegrowanego. Przeniesienie wielu znaczących treści nauczania
    z poziomu licealnego na poziom gimnazjalny wiązało się z licznymi dyskusjami i pracami
    badawczymi na temat prawidłowej dydaktycznej transformacji biologicznych
    treści kształcenia na coraz niższe etapy edukacyjne. Nowa podstawa programowa
    (2009) zaowocowała zmianą podejścia do wymagań stawianych uczniom. Dała również
    zapowiedź dalszych zmian w kolejnych latach jej wprowadzania. Jedną z nich
    jest nowy przedmiot licealny przyroda, który wymaga gruntownego opracowania
    pod kątem celów i metod nauczania.
    Współczesne tendencje do przezwyciężania granic między poszczególnymi
    dyscyplinami naukowymi (genetyką, medycyną, fizjologią, embriologią, ekologią,
    filozofią, psychologią, etyką) oraz intensywny rozwój nauk z pogranicza różnych
    dyscyplin mają wpływ na proces nauczania i uczenia się biologii. Zmuszają bowiem
    do integracji opanowywanej przez uczniów wiedzy. Stąd konieczność pogłębionych
    badań teoretycznych i empirycznych dotyczących interdyscyplinarnego modelu
    kształcenia oraz rozwiązań dydaktycznych mających wpływ na podniesienie efektywności
    interdyscyplinarnego nauczania i uczenia się przyrody i biologii na różnych
    poziomach kształcenia.
    Dzisiejsza debata nad deskryptorami efektów kształcenia i odpowiednimi kompetencjami
    uczniów i studentów kierunków przyrodniczych do zastosowania wiedzy
    w praktyce otwiera nowe obszary badawcze dotyczące kwalifikacji absolwentów
    do uczenia się ustawicznego. Deskryptory efektów kształcenia to punkty odniesień
    kwalifikacji, którymi w ramowej strukturze europejskiej są: wiedza i rozumienie
    (knowing and understanding), wiedza jak działać (knowing how to act), wiedza jak
    być (knowing how to be). Dokumentem, który najbardziej może zmienić podejście
    do kształcenia wyższego, jest Ramowa Struktura Kwalifikacji dla Europejskiego
    Obszaru Szkolnictwa Wyższego (Framework for Qualifications of EHEA) – drugi dokument
    przyjęty w Bergen jako oficjalny dokument Procesu Bolońskiego. Dla dydaktyki
    szkoły wyższej oznacza to wejście w nową, obszerną problematykę związaną
    z 4 podstawowymi celami kształcenia wyższego, którymi są: (1) przygotowanie absolwentów
    do potrzeb europejskiego i krajowego rynku pracy, (2) przygotowanie
    absolwentów do roli aktywnego obywatela w demokratycznym społeczeństwie –
    krajowym i europejskim, (3) rozwój osobowy, (4) rozwój i podtrzymanie podstaw
    wiedzy zaawansowanej. Sugeruje to potrzebę badań dydaktycznych w ramach poszczególnych
    przedmiotów kształcenia, pod kątem znaczenia komunikatów naukowych,
    dostrzegania związków między nimi a codziennymi problemami oraz sprawności
    metapoznawczych warunkujących edukację permanentną.
    Praca nad wdrożeniem wymienionych założeń stanowi duże wyzwanie dla
    dydaktyków. Dydaktycy biologii zawsze zajmowali się projektowaniem systemu
    kształcenia. Owocowało to dobieraniem treści programowych, metod dydaktycznych,
    form dydaktycznych oraz kadry nauczającej do pożądanych, zakładanych
    efektów kształcenia. Również obecnie nie wydaje się możliwe, aby pracami nad nowymi
    podstawami programowymi oraz deskryptorami kształcenia kierowały z powodzeniem
    osoby niezwiązane profesjonalnie z dydaktyką ogólną i przedmiotową.
    Planowanie dydaktycznego aspektu programu nauczania pociąga za sobą wybór
    Wstęp [5]
    określonego modelu nauczania/uczenia się lub konieczność świadomego scalania
    modeli. Jest to poprzedzone na przykład stawianiem pytań o teorie, zasady naukowe,
    genezę, funkcje i znaczenie koncepcji naukowych, zakres pojęć naukowych,
    etyczne i socjologiczne implikacje związane z koncepcjami naukowymi itd.
    W związku ze zmianami w potrzebach społeczeństwa, określanego u progu
    XXI wieku mianem społeczeństwa informacyjnego pojawiają się między innymi pytania:
    Czy „cyberstudenci” nowego millenium będą się różnić od wykształconych
    na tradycyjnych podręcznikach studentów minionego wieku w swej zdolności do
    przetwarzania informacji zawartych w tekście i obrazie dokładnie i ze zrozumieniem?
    Jak wykorzystujemy komputery w nauczaniu, by pomóc naszym uczniom
    w zintegrowanym uczeniu i uczeniu się ustawicznym? Zagadnienia te stanowią
    przykłady problematyki badawczej, która pojawia się w związku z takimi hasłami,
    jak: „Nauczyciel epoki cyfrowej”, „Społeczeństwo wiedzy” i „e-edukacja”.
    Dostosowanie systemu kreowania wiedzy oraz systemu edukacji do wymogów powstającej
    cywilizacji informacyjnej ma na celu wykształcenie człowieka posiadającego
    umiejętności kreowania informacji i wiedzy oraz dysponującego zdolnością do ich wykorzystania,
    przygotowanego do posługiwania się nowoczesnymi technikami informacyjnymi
    i multimedialnymi zarówno w procesie zdobywania wykształcenia, jak i w życiu
    społecznym i gospodarczym*.
    Trzeba jednak pamiętać, że kształcenie biologiczne powinno zbliżać nabywaną
    wiedzę do problemów współczesnego świata, a także wpływać na kształtowanie
    osobowości otwartej na zmiany zachodzące w środowisku. Strategia Edukacji dla
    Zrównoważonego Rozwoju zakłada, że uczący się na wszystkich poziomach kształcenia
    powinni być zachęcani do systematycznego, krytycznego i twórczego myślenia
    oraz refleksji zarówno w kontekście lokalnym, jak i globalnym.
    Wymaga to zmiany orientacji ze skupiania się wyłącznie na dostarczaniu wiedzy w kierunku
    zajmowania się problemami i poszukiwania możliwych rozwiązań. Z tego względu
    edukacja utrzymując tradycyjną koncentrację na poszczególnych przedmiotach
    powinna jednocześnie otworzyć drzwi na wielo- oraz międzydyscyplinarne badanie
    rzeczywistych sytuacji życiowych**.
    To są zadania na dziś.
    Zagadnienia związane z ochroną i kształtowaniem środowiska przyrodniczego stanowią
    obecnie jeden z głównych obszarów zainteresowania społeczeństwa, nauki oraz
    edukacji. W polityce państwa edukacja środowiskowa społeczeństwa uznawana jest
    za jeden z ważniejszych sposobów realizacji strategii zrównoważonego rozwoju
    społecznego i gospodarczego. Poziom świadomości środowiskowej społeczeństwa
    jest warunkiem akceptacji tej polityki. Trudno sobie wyobrazić aktywne uczestnictwo
    społeczeństwa nawet w najlepiej przygotowanych programach, jeżeli nie zostały
    one poparte wcześniejszą edukacją.
    * Polska 2025 – długookresowa strategia trwałego i zrównoważonego rozwoju, Rada Ministrów,
    Warszawa, 26 lipca 2000 r.
    ** Strategia Edukacji dla Zrównoważonego Rozwoju, Europejska Komisja Gospodarcza
    ONZ, Warszawa 2008.
    [6] Wstęp
    Edukacja środowiskowa kształtuje całościowy obraz relacji pomiędzy człowiekiem
    społeczeństwem i przyrodą, ukazuje zależność człowieka od środowiska oraz
    uczy odpowiedzialności za zmiany dokonywane w środowisku. Edukacja o zrównoważonym
    rozwoju została po raz pierwszy uznana za sprawę priorytetową w roku
    1977. Wtedy właśnie odbyła się konferencja na temat edukacji ekologicznej w Tbilisi
    w Gruzji. Konferencja ta zakończyła się przyjęciem deklaracji o wspieraniu edukacji
    środowiskowej, która powinna przyczynić się do ochrony środowiska naturalnego
    i zachęcać do zachowania naturalnej równowagi w środowisku i podejmowania
    działań na rzecz rozwoju społecznego i ekonomicznego. Na szczycie Ziemi w Rio de
    Janeiro w 1992 roku powstała Strategia Zrównoważonego Rozwoju i Agenda 21,
    czyli program na XXI wiek, w którym po raz pierwszy zaakcentowano znaczenie
    edukacji, dydaktyki i technologii informacyjnych w kształtowaniu świadomości ludzi
    i całych społeczeństw. Na Szczycie Ziemi w Johannesburgu w 2002 roku okazało
    się, że podobnie jak w Polsce, w wielu krajach brakuje konsekwencji w realizacji
    założeń strategii zrównoważonego rozwoju, a ekologiczna świadomość społeczna
    jest niska, co skutkuje pojawieniem się wielu zagrożeń środowiska przyrodniczego
    i zdrowia człowieka. W Johannesburgu pojawiła się koncepcja powołania ogólnoświatowego
    projektu: Dekady Edukacji dla Zrównoważonego Rozwoju w celu podniesienia
    poziomu i skuteczności edukacji. Koncepcja projektu zakłada, że edukacja
    powinna zmierzać do holistycznego powiązania przyrody z jakością życia społeczeństw.
    Konsekwencją szczytu w Johannesburgu było spotkanie przedstawicieli
    Ministerstw ds. Środowiska oraz Edukacji Europejskiej Komisji Gospodarczej ONZ
    w Wilnie w 2005 roku. Tu zapadła decyzja i zobowiązanie do udziału w ogólnoświatowym
    projekcie: Dekada Edukacji dla Zrównoważonego Rozwoju 2005–2014.
    Wszystkie wymienione zagadnienia znajdują odzwierciedlenie w niniejszym
    tomie. Poszczególne artykuły poruszają i sygnalizują wiele dawnych i współczesnych
    tendencji w zakresie badań z dydaktyki biologii. Badania te zawsze były i są
    głęboko osadzone w określonym kontekście społecznym, co czyni z nich dodatkowo
    wyjątkowo cenną analizę uwarunkowań procesów edukacyjnych. Efekt końcowy niniejszej
    publikacji zawdzięczamy kooperacji naukowców z 7 polskich uczelni wyższych
    (Kraków, Kielce, Lublin, Poznań, Siedlce, Białystok, Warszawa) oraz 4 uczelni
    zagranicznych (Genewa, Lyon, Berlin, Oldenburg), lecz przede wszystkim Prof. zw.
    dr hab. Wiesławowi Stawińskiemu, który zaszczepił w nas ducha współpracy, wymiany
    myśli, idei i dążenia do doskonałości w kształceniu nauczycieli i uczniów na
    miarę współczesności.
    Praca przygotowana została przez Uczniów i Przyjaciół Pana Profesora
    Wiesława Stawińskiego, którzy pragną Mu ją dedykować wraz z serdecznymi podziękowaniami
    za lata naukowych kontaktów i twórczych inspiracji.
    Katarzyna Potyrała
    Introduction
    With new tendencies in education, educators and educationalists have to face new
    challenges. Effects of teaching may be tangible and measurable in various fields and
    subjects; changes resulting from these effects are expressed in such categories as
    increase in the range of acquired information and behaviour or skills and as differentiation
    in operating them. For a long time, educationalists’ interests have been
    focused on the teaching material as an element of students’ thought, on conditions of
    implementing the premises of the teaching process and on numerous psychological
    problems involving needs, interests, attention and organization of school activity.
    Considerable attention is paid to the relations between motivation and the subject
    of interest and to the significance of varied emotional elements in the process of
    learning.
    So far, research on biology curricula and criteria for selecting teaching contents
    in biology has focused on the following, such as, inter alia: influence of the teaching
    content on the degree of implementation of assumed teaching objectives, possibilities
    of organizing concepts into structures on the basis of logical and content-related
    dependencies between them, necessity to account for findings in the field of latest
    branches of biological sciences, strengthening correlations between and within subjects,
    needs for and means of integrating knowledge about natural science teaching.
    Longitudinal research demonstrates the complexity of relations between premises
    of teaching curricula on the one hand and teaching processes and effects of teaching
    following these premises on the other. The research findings also demonstrate the
    responsibility of curriculum authors and biology teachers for the organization of the
    teaching process and for the preparation of students for further study and satisfying
    their basic needs.
    More and more frequently questions are asked, also by biology educationalists
    all over the world, about what kind of natural science education and what level of it
    is need for people to reach social decisions as required in the 21st century. Further,
    questions are asked about students’ structure of knowledge base in natural science.
    In this context, the prevailing opinion stresses that natural science education at
    school is only the beginning of further lifelong learning.
    Research problems of biology teaching in Poland over the last few years have,
    to a large extent, involved issues related to the reform of the system of biology education
    and the reform of the educational system. Natural science education at the
    level of primary schools made it necessary to take up research on premises and
    effectiveness of the so-called integrated teaching. Moving many significant teaching
    [8]
    contents from the level of general secondary schools (liceum) to the level of lower
    secondary schools (gimnazjum) involved numerous debates and research studies
    concerned with adequate educational transformation and transfer of biological teaching
    contents to lower educational stages. A new set of programme objectives or
    core curriculum (podstawa programowa) (2009) resulted in a changed approach
    to students’ requirements. It also signalled further changes in subsequent years of
    its implementation. One of the changes includes the introduction of a new subject
    Natural Science (Przyroda) in general secondary schools, which requires a thorough
    preparation in terms of teaching objectives and methods.
    Contemporary trends to overcome barriers between individual scientific disciplines
    (genetics, medicine, physiology, ecology, philosophy, psychology, ethics) and
    an intense development of sciences at the borders of various disciplines influence
    the process of biology teaching and learning. In a way, they necessitate an integration
    of knowledge acquired by students. Thus it is crucial to thoroughly investigate,
    both theoretically and empirically, issues related to an interdisciplinary education
    model and didactic solutions that impact effectiveness of interdisciplinary teaching
    and learning of biology and natural science at various educational stages.
    The current discussion about descriptors of learining outcomes and relevant
    competencies of pupils and students of natural science involving ‘applying knowledge
    in practice’ opens new vistas for research concerned with graduates’ qualifications for
    lifelong learning. Descriptors of learning outcomes are qualification reference points
    that within the European framework structure include: knowing and understanding,
    knowing how to act and knowing how to be. A document which can most significantly
    change approaches to higher education is Framework for Qualifications of EHEA, the
    second document adopted in Bergen as an official document of the Bologna Process.
    In the context of higher education didactics, this means entering into a new, broad
    problem area related to four basic objectives of higher education such as /1/ preparing
    graduates for European and domestic job market, /2/ preparing graduates to
    play the role of active citizens in a democratic society, both domestic and European,
    /3/ ensuring personal development, /4/ ensuring development and maintenance of
    the bases of advanced knowledge. These suggest a need for didactic research within
    individual school subjects with regard to the significance of scientific messages, to
    the perception of correlation between such messages and everyday problems and to
    meta-cognitive skills determining lifelong learning.
    Work on implementing the above premises constitutes a considerable challenge
    to educationalists. Biology educationalists have always been concerned with designing
    teaching systems. This resulted in selecting programme contents, methods
    and forms of teaching as well as teaching staff so as to meet the planned teaching
    objectives. Also today it does not seem feasible that people who are not professionally
    involved in general and subject didactics could successfully manage work on
    new programme objectives or core curricula and learning descriptors. The design of
    didactic aspects of teaching programmes involves a selection of a specific teaching/
    learning model or a necessity of a conscious blending of models. Such decisions are
    preceded by inquiring about theories, scientific principles, genesis, function and
    meaning of scientific concepts, scope of scientific concepts, ethical and sociological
    implications related to scientific concepts, etc.
    Introduction [9]
    As a result of changes in the needs of society, called an information society at the beginning
    of the 21st century, numerous questions arise. For instance, will ‘cyber students’
    of the new millennium differ from their colleagues educated on the basis of students textbooks
    typical of the previous century when it comes to the ability to process information
    included in text and image with precision and understanding? How do we use computers
    in education so as to help our pupils with integrated learning? And with lifelong learning?
    Such issues are examples of research interests that are brought up in the context of
    such buzz words and phrases as “Teachers of the digital epoch”, “Information society”
    and “E-education”.
    The adaptation of the system of knowledge creation and the educational system to the
    needs of an emergent information civilization aims at educating an individual who possesses
    skills of knowledge and information creation and who has the ability to use them;
    further, the individual should be prepared to use modern information and multimedia
    technologies both in the process of education and in social and economic life*.
    However, it is relevant to bear in mind that biological education should bring the
    knowledge to be acquired closer to the problems of the contemporary world as well as
    should shape personalities open to react to changes in the environment. The premises of
    the Strategy of Education for Sustainable Development state that learners at all educational
    stages should be encouraged to engage in systematic, critical and creative thinking
    as well as in reflection, both in the local and global contexts.
    This necessitates a change in orientation from knowledge provision only to problem
    orientation and search for possible solutions. For this reason, while maintaining a traditional
    focus on individual subjects, education should at the same time open the door for
    multi- and interdisciplinary investigations of real-life situations.**
    These are today’s tasks.
    Issues related to the protection and shaping of the natural environment are currently
    one of the main concerns of society, science and education. In state policies, society’s
    environmental education is considered one of the more significant means of implementing
    the strategy of sustainable social and economic development. The level of society’s
    environmental awareness is a condition of accepting such policies. It is difficult to imagine
    society’s active participation in even best prepared programmes if such programmes
    have not been supported earlier by education.
    Environmental education shapes a holistic image of relations between human beings,
    society and nature, it shows humans’ dependence on the natural environment and
    teaches responsibility for changes carried out in the environment.
    Education about sustainable development was first considered a matter o priority in
    1977. It was then that a conference on ecological education was held in Tbilisi, Georgia.
    The conference ended with adopting a declaration to support natural science education
    * Poland 2025 – Long-term Strategy for Sustainable Development (Polska 2025 –
    długookresowa strategia trwałego i zrównoważonego rozwoju), The Council of Ministers,
    Warsaw, July 26, 2000.
    ** Strategy of Education for Sustainable Development, United Nations Economic Commission,
    Warsaw 2008.
    [10]
    which should contribute to the protection of the natural environment and encourage people
    to maintain balance in the environment and to take action for the social and economic
    development.
    The Earth Summit in Rio de Janeiro in 1992 saw the emergence of the Strategy for
    Sustainable Development and Agenda 21, that is an action plan for the 21st century where,
    for the first time, the focus was on the significance of education, didactics and information
    technology in shaping consciousness of individuals and entire societies.
    At the Johannesburg Earth Summit in 2002 it turned out that in Poland, as in
    many other countries, there is not enough consistency in implementing the premises
    of the strategy of sustainable development and that society’s ecological awareness
    is low which results in the appearance of numerous threats to the natural environment
    and people’s health. In Johannesburg an idea was developed to call into being
    a world-wide project Decade of Education for Sustainable Development in order to
    improve the quality and efficiency of education. The project’s concept is based on
    the premises that education should aim at holistically joining nature with society’s
    quality of life. The Johannesburg summit led to a high-level meeting of representatives
    of Education and Environment Ministries of the United Nations Economic
    Commission for Europe held in Vilnius in 2005. It was there that the decision was
    reached and commitment was made to participate in the world-wide project Decade
    of Education for Sustainable Development 2005-2014.
    All of the mentioned issues are reflected in this volume. Individual contributions
    signal and discuss many tendencies in the field of biology education research,
    both traditional and contemporary ones. Research on biology didactics has always
    been deeply grounded in a given social context which additionally provides valuable
    insight into conditioning of educational processes.
    The final outcome of this publication is owed to academic cooperation of scientist
    from seven universities from across Poland (Kraków, Kielce, Lublin, Poznań,
    Siedlce, Białystok, Warsaw) and four from abroad (Geneva, Lyon, Berlin, Oldenburg).
    Above all, it is owed to Professor dr. hab. Wiesław Stawiński who instilled in us a spirit
    of cooperation, of exchanging thoughts and ideas, and of striving for perfection in
    educating teachers and students to meet the demands of contemporary times.
    The volume has been prepared by Students and Friends of Professor Wiesław
    Stawiński who wish to dedicate it to Him with warm gratitude and thanks for years
    of academic cooperation and creative inspiration.
    Katarzyna Potyrała