Module on Citizen Science Ethics

Authors

  • Birutė Liekė, Office of the Ombudsperson for Academic Ethics and Procedures of the Republic of Lithuania, Lithuania

Main topics

  • Citizen science: its origins, concepts
  • Research Ethics and Research Integrity in Citizen Science

Training objectives

After completing this module participants will:

  • Be able to define citizen science: its origins, concepts
  • Be able to understand power balance and conflict of interest
  • Be able to identify and recognise research that needs an institutional oversight and informed consent
  • Be able to apply an optimal technological solution, for data collection issues, and improper data management
  • Be able to understand and apply emerging issues in intellectual property rights and ethical issues when publishing resul

Target group

Master’s students, doctoral students and supervisors

Tools and methods

Module consists of literature, videos, quizzes, and vignettes. Module could be study individually, in pairs, in groups.

Duration

Total of 5 hours divided into ten 30 minute sessions.

Equipment

Students need access to a computer to watch the video and do the quizzes and the vignettes.

Financed through the Erasmus+ Strategic Partnership project Bridging Integrity in Higher Education, Business and Society (BRIDGE, 2020-1-SE01-KA203-077973) .

Session 1

Citizen science: its origins, concepts

Objectives

  • Be able to describe citizen science from historical perspective
  • Be able recognize classification of citizen science

Methods

Work in pairs, individual work, discussions.

Timing

30 minutes

Materials

Quiz for session 1

Your answers are not collected.

  1. What is citizen science?
  2. What is the origin of citizen science?
  3. What are some types of citizen science projects?
  4. What are some types of citizen science projects?

Useful resources


Session 2

Research Ethics and Research Integrity in Citizen Science: Institutional oversight

Objectives

  • Be able to identify and recognise research that needs to pass an institutional oversight
  • Be able to recognise and understand if research design requires institutional oversight

Methods

Work in pairs, individual work, discussions, gamified cases.

Timing

30 minutes

Materials

  • Literature:
      • Ozolinčiūtė E, Bülow W, Bjelobaba S, Gaižauskaitė I, Krásničan V, Dlabolová DH, Umbrasaitė J (2022) Guidelines for Research Ethics and Research Integrity in Citizen Science. Research Ideas and Outcomes 8: e97122. https://doi.org/10.3897/rio.8.e97122
  • Guideline #1
      • Citizen science (CS) research that involves human subjects should undergo ethical review. This also includes CS research that involves personally-identifiable information.
  • Guideline #2
      • CS research should be considered on a country-by-country basis and in legal terms.
      • Various ethical and legal standards that outline ethical principles for research with human subjects emphasise the need for an institutional review board (IRB) or other independent external oversight body, stressing that the research protocol must be submitted for consideration by an ethics committee (interchangeable with IRB) before the study begins (e.g. World Medical Association 2000). This is also applicable to CS projects that involve humans, not only as co-researchers, but also as research subjects. In these cases, the responsibility to obtain ethical approval should be assumed by professional researchers. As stated in the Declaration of Helsinki, the ethics committee in this case must be independent of the researchers, the sponsors or other undue interference. Such a committee should also take into consideration the laws and regulations of the country or countries where the research will be conducted (World Medical Association 2000). While historically associated with the medical sciences, it is now frequently acknowledged that social sciences and humanities should also undergo independent ethical reviews of the sort proposed in the Helsinki Declaration (Jennings 2012, Hunter 2018, Hansson 2020).
      • Although the details of specific systems for ethical review (oversight) vary between countries, the aim of any such system for regulating human subject research is to protect the rights and well-being of research subjects (Emanuel et al. 2000, Cooper et al. 2019) and co-researchers.
      • Cooper et al. (2019) voiced some scepticism concerning expanding the current practice of IRBs to include not only research with traditional human subjects, but also the types of CS projects in which citizen scientists participate in research by providing personally-identifiable information, such as observations, photos, sensor data and geolocation data. Ethical reviews should include a data management plan covering the following topics: general information, data description (e.g. what will be collected and reused), documentation, data quality (e.g. how data reliability and validity will be ensured), data storage and backup during the research process, data sharing and long-term preservation (e.g. what data will be open), data management responsibilities etc. The FAIR (i.e. findable, accessible, interoperable, reusable) principles are to be considered in the data handling and data management plan (Science Europe 2021). Given the sensitivity of personally-identifiable information in CS projects, IRBs should be more attentive to the different conditions of various CS projects.
      • For further information on this topic, we recommend reading the works of Haklay (2018), Rasmussen and Cooper (2019) and Rasmussen (2021).
  •  Video:
  • Vignette:

Quiz for session 2

Your answers are not collected.

  1. What are some examples of institutional oversight in citizen science?
  2. Details of specific systems for ethical review (oversight) varies between countries.
  3. If citizen science projects involve humans, not only as co-researchers, but also as research subjects, the responsibility to obtain ethical approval should be assumed by professional researchers.
  4. Who is responsible for ensuring institutional oversight in citizen science?
  5. If several countries are involved in citizen science projects, it is recommended to choose:

Useful resources

  • Haklay, M. (2018). Participatory citizen science. In M. Haklay, S. Hecker, A. Bowser, Z. Makuch, J. Vogel & A. Bonn (Eds.), Citizen Science: Innovation in Open Science, Society and Policy (pp. 52–62). UCL Press.
  • Rasmussen, L. M. (2021). Research Ethics in Citizen Science. In A. S. Iltis & D. MacKay (Eds.), The Oxford Handbook of Research Ethics. https://doi.org/10.1093/oxfordhb/9780190947750.013.36  
  • Rasmussen, L. M., & Cooper, C. (2019). Citizen Science Ethics. Citizen Science: Theory and Practice, 4(1), 5. http://doi.org/10.5334/cstp.235

Session 3

Research Ethics and Research Integrity in Citizen Science: Power balance

Objectives

  • Be able to recognize the existence of power imbalances within citizen sciences projects
  • Be able to understand the importance of recognizing the various expectations that people may have
  • Be able to provide solutions for how to best address power imbalances within citizen science projects

Methods

Work in pairs, individual work, discussions, gamified cases

Timing

30 minutes

Materials

  • Literature:
      • Ozolinčiūtė E, Bülow W, Bjelobaba S, Gaižauskaitė I, Krásničan V, Dlabolová DH, Umbrasaitė J (2022) Guidelines for Research Ethics and Research Integrity in Citizen Science. Research Ideas and Outcomes 8: e97122. https://doi.org/10.3897/rio.8.e97122
  • Guideline #1
      • Expectations and characteristics of citizen scientists should be taken into account.
  • Guideline #2
      • Citizen science (CS) research should involve inclusive dialogue between professional researchers and citizen scientists.
      • It is frequently noted that a range of power imbalances within CS projects may result in the exploitation and instrumentalisation of citizen scientists and in related tensions between professional researchers and citizen scientists (Tauginienė et al. 2021). Unlike professional researchers, citizen scientists do not necessarily have the same or appropriate motivations and academic backgrounds, nor are they necessarily paid for their contributions to a CS project on the same basis as are professional researchers or given any credit for their contributions (Resnik et al. 2015, Ward-Fear et al. 2020, Rasmussen 2021, Tauginienė et al. 2021; see Ethical Publishing).
      • The fact that power imbalances of this sort exist within CS projects does not necessarily pose an ethical issue for citizen scientists. Some citizen scientists who choose to participate in CS might do so merely because they find it rewarding to engage in a scientific project, the specific project genuinely interests them or they believe that the project might help bring about change or influence various stakeholders, including professional researchers and policy-makers (regarding the latter, see Conflict of Interest). However, given these instances, there is a risk that professional researchers, either knowingly or accidentally, might sometimes exploit the goodwill of citizen scientists due to their different expectations about the CS project and its expected outputs (Resnik et al. 2015, Ward-Fear et al. 2020, Rasmussen 2021, Tauginienė et al. 2021). If citizen scientists do not feel that they are being treated fairly or with the type of respect owed to them as persons, this might jeopardise the CS project and undermine future collaboration (Ward-Fear et al. 2020). Additionally, inclusive language is paramount in ensuring smooth communication amongst professional researchers and citizen scientists, touching on matters of, for example, technological literacy, academic style and specific needs (Rasmussen 2021, Tauginienė et al. 2021). Hence, it is important that professional researchers take proactive responsibility, acting preventatively to avoid the risk of exploiting or instrumentalising citizen scientists participating in CS projects.
      • Since CS projects differ, what represents an efficient number of citizen scientists per activity in a CS project should be considered. For example, in CS projects that involve a huge number of citizen scientists, it might be rather difficult to have smooth and inclusive dialogue, so structuring the activities and dividing citizen scientists into groups could be ways to ensure that their voices are heard.
      • In addition, the expectations of citizen scientists play a paramount role in the power balance. As suggested by Resnik et al. (2015), several key questions should be considered: Why do the citizen scientists wish to contribute and what do they wish to gain from participating in the CS project? How do they wish to be credited and how do they wish to contribute to the CS project? How do they want the information about the CS project, as well as its data and results, to be disseminated? If the CS project results may bring benefits, how will the intellectual property rights concerning ownership of outputs (e.g. data, publications, patents and licensing) be handled? (see Intellectual Property). To ensure the evaluation and balancing of expectations, Eleta et al. (2019) proposed some solutions, for example, employing a facilitation model (i.e. establishing the role of facilitator in a CS project to enhance and support the collaborative link between professional scientists and citizen scientists) and relying strongly on principles of transparency and accountability when balancing the promises and expectations of the stakeholders. Recommended steps can be used as a guiding tool for designing an ethical CS project (see Eleta et al. 2019).
  •  Video:
  • Vignette:

Quiz for session 3

Your answers are not collected.

  1. What is power balance in citizen science?
  2. What are some potential consequences of an imbalanced power dynamic in citizen science?
  3. How can power balance be achieved in citizen science?
  4. Who is responsible for ensuring power balance in citizen science?
  5. Power imbalance may result in exploitation of citizen scientists.