Citizen science-based bumblebee monitoring is a pillar of the Austrian wild bee survey. Most wild bee species can only be distinguished under a microscope. The genus of bumblebees (Bombus) is an exception and can usually be distinguished at species level after a training phase in the field (see Gokcezade et al., 2010), so that not only professionals can help with the observation and recording of bumblebees. Bumblebee monitoring ties in with the already existing reporting platform "naturbeobachtung.at" of the Austrian Society for Nature Conservation.
Through numerous initiatives such as bumblebee identification courses and excursion offers, a citizen science community with very good expertise has been formed in recent years. Since 2014, more than 61,000 observations of all bumblebee species currently occurring in Austria have been reported by over 700 reporters via web and app. In 2021 alone, 12,600 bumblebee observations were received. More than 51,000 reports could be checked, corrected if necessary and confirmed by professionals. Within the framework of the project, the reporting platform is to be expanded to include the option of transect counting (previously non-standardised individual observations) and interested participants are to be motivated, trained and supported.
The aim is to develop a functioning citizen science network in the next two years, which will be used in the long term. We aim to cooperate with other European countries that have established similar projects in order to address the ongoing biodiversity crisis on an international level. In the future, trends for individual populations are to be derived from the data and conservation measures improved.
Society uses a variety of services that natural ecosystems provide, such as clean water, an attractive landscape for recreational purposes, food, or renewable energy sources. Many of these so-called ecosystem services (ESS) are influenced by humans. These include, for example, agricultural activities or the construction of roads. As a consequence, society regulates human actions and thus indirectly the availability of ESS. Examples of such policies are agri-environmental programs or local land use planning.
The Citizen Science project ServeToPe develops methods to better quantify the demand for ESS and their availability in a landscape. ServeToPe thus aims to contribute to more sustainable management of ESS and more targeted policies that focus on people's needs. ServeToPe is thereby based in the biosphere reserve Wienerwald as a case study region.
ServeToPe mainly aims to answer the following research questions.
ServeToPe will reveal mismatches between the demand for ESS and their supply and will propose countermeasures. An example of this could be regional conservation efforts specifically planned for the landscape.
ServeToPe uses a variety of methods to answer the research questions and to involve as many and as diverse citizens as possible. For example, workshops were held in schools or with citizens from the region. All citizens can participate online via a survey (see below). On the project website you can find more information about the methods and the roles of citizens (in German).
Citizens are important research partners in ServeToPe. In particular, they support the visualization and quantification of the demand for ESS and of conflicting goals and trade-offs of between different ESS. A trade-off exists, for example, when several citizens want to use the same area for different purposes resulting in conflicts (e.g. recreational use and food production). You as citizen can therefore make an important contribution to the research project by participating in the following anonymous surveys.
In the main survey you can (1) enter your own activities and uses of ESS in the Wienerwald, (2) enter and locate frequently observed activities and ESS uses, and (3) identify trade-offs and opportunities for improvement. You can also upload pictures for this purpose. The main survey can be filled in only once.
However, you can also participate more regularly and thereby support ServeToPe even more intensively. This is possible via a second short survey, where you can enter and locate observed activities and ESS uses, as well as trade-offs. A picture upload is also possible here. In this short second survey, you can participate repeatedly over the entire duration of the project - i.e. continuously enter your observations. This gives us an even more accurate representation of uses and activities. You as a citizen scientist gain the opportunity to locate multiple uses and activities in areas and therefore identify multiple and more accurate trade-offs and improvements.
The results from the surveys of activities, uses, and trade-offs in the Wienerwald are compiled by the BOKU Vienna and University of Vienna research team and compared with other data on the supply of ESS (see methodology). These results are then published on the ServeToPe website. You can also sign up in our contact form to receive the results via email.
Afterwards, the results are presented to stakeholders from the region (e.g.: Employees of the administration, representatives from agriculture, nature conservation, recreational use, education and regional management) in a workshop. In this workshop, solutions and countermeasures will be developed based on the identified trade-offs and conflicts due to differences in ESS supply and demand.
If you have any questions, please contact Katrin Karner (This email address is being protected from spambots. You need JavaScript enabled to view it.) without hesitation.
ServeToPe is led by Martin Schönhart (This email address is being protected from spambots. You need JavaScript enabled to view it.) and Katrin Karner (This email address is being protected from spambots. You need JavaScript enabled to view it.), from the Institute for Sustainable Economic Development at BOKU University. Furthermore, the project team includes Thomas Wrbka (This email address is being protected from spambots. You need JavaScript enabled to view it.) and Florian Danzinger (This email address is being protected from spambots. You need JavaScript enabled to view it.) from the Department of Botany and Biodiversity Research at the University of Vienna. In addition, the students of the course " Conservation Related Methodologies of Social, Cultural and Economic Sciences" of the University of Vienna are involved in the project. If you have any questions, please contact Katrin Karner (This email address is being protected from spambots. You need JavaScript enabled to view it.) without hesitation.
The climate crisis repeatedly exposes existing weaknesses in democratic practice. On the one hand, groups that are most affected by the consequences of climate change are often underrepresented in the prevailing political and planning practice (participation crisis). On the other hand, social inequality and the exclusion of people from political decision-making processes increases the loss of trust in political decision-makers and institutions (democracy crisis). Therefore, dealing with the consequences of the climate crisis in research and planning cannot be done without looking at ecological and social justice. Who can have a say in crises and help develop solutions? Who suffers most from the consequences of the crises and who does urban development reach?
The project aims to explore possible applications of Citizen Social Science (CSS) in urban development, especially regarding the potential of involving usually underrepresented groups. The central research interest is to identify to what extent CSS can complement transformation processes, such as the redesign of a street space in an urban context, with the perspectives of marginalized groups. For this purpose, two Citizen Science experiments will be conducted with two selected groups using the participation process "zukunftsfitte Gumpendorfer Straße" in Vienna's 6th district: Single parents and students. The results of these CSS Experiments will help to understand how vulnerable groups can be better represented in transformation processes of urban development leading to environmental and social justice.
The project is gathering experience on how to involve marginalized groups in urban development transformation processes through CSS activities. Based on this experience, recommendations for the implementation of CSS in urban development will be developed regarding process design and application of methods.
Based on the perspectives of two marginalized groups, complementary knowledge bases are generated for the transformation of the Gumpendorfer Straße. This knowledge will be handed over to the planning office PlanSinn, which is implementing the participation process for the redesign of Gumpendorfer Straße in a bidding consortium with CarlaLo on behalf of the district.
The project structure is divided into two dialog groups: single parents and students. The participation for the group of single parents is open to single parents in Vienna who regularly visit the area of Gumpendorfer Straße. Participation is possible at our website.
The group of students will be approached directly by the project team through interested teachers at different schools in Mariahilf. Information on the progress of the project will be published on the website of the TU Wien Library.
The project part on the group of single parents is led by Tamara Bauer, who is currently writing her diploma thesis at the future.lab Research Center of the Vienna University of Technology.
The project part on the group of students is led by Sebastian Harnacker, project staff member at the TU Wien Library. The project will be carried out in cooperation with partners from the participation and transformation process.
The project is part of the research project "OPUSH" at the TU Wien. The aim of the international research project "OPUSH" is to make knowledge about sustainable development visible and accessible to local communities. Project partners from the four European cities of Barcelona, Delft, Tallinn and Vienna are conducting research together with citizens; libraries and other local cultural institutions are playing a mediating role.
It will get hotter and hotter in the city over the next few years. The impact of heat can vary greatly from neighborhood to neighborhood. It depends not only on the building density or the degree of sealing in the city, but also on the age and state of health of the people and their immediate living environment.
The Urban Heat Stories research project therefore collects individual heat experiences of vulnerable groups in Vienna. The aim is to make the diverse concerns and demands of city dwellers visible.
The aim is also to develop a chatbot pilot. It should provide insights into the social dimension of heat at city level. On this basis, recommendations for sustainable urban development in the face of rising temperatures can be expanded to include a social dimension, thus integrating the needs of vulnerable groups into planning in the long term
The main cooperation partners are the city's residents. In a two-part workshop, they first map their locations in the public space around their homes. The temperatures of the localized places are investigated using mobile sensors in a joint perceptual and exploratory walk. The measured temperatures are compared with the personal perception of heat. This provides a basis for discussion of the Urban Heat Stories. These stories are the foundation for the development of the new chatbot pilot on heat perception in the city.
Starting in September 2023, four workshops with senior citizens as Citizen Scientists have taken place around Quellenplatz (10th district, Vienna). The format is to be continued in spring/summer 2024 in other districts with other target groups. A first chatbot pilot will additionally be launched in winter 2024.
Upcoming events:
If you are interested in conducting a Citizen Science research on heat experiences (e.g. workshop participation, chatbot test) in your neighborhood, we would also be pleased to receive a short initiative mail.
As part of the episode "The Citizen Science Award 2024 - behind the scenes", Sebastian Harnacker presented the project in the podcast Wissen macht Leute. You can listen to the episode on our blog or on the podcast app of your choice (the episode is in German). You can find all the details here.
The findings will provide the basis for recommendations in urban planning and will be incorporated into current Viennese planning projects (e.g. WienNeu+, 10th district). They will also be published on the website of the future.lab Research Center of TU Wien. For participants - as co-researchers - the results will also be made available free of charge as a print edition.
The project team consists of researchers from the future.lab Research Center and TU Wien Bibliothek as well as residents as citizen scientists. Urban research does not take place in a laboratory, but together on site. Residents contribute their experiences and interests.
The project is being implemented - as part of the European research project "OPUSH" - in close cooperation with the partner project Heat Chronicles (Cròniques de la Calor) of Open Systems at the Universidad de Barcelona. There is cooperation at local level with the City of Vienna (MA 22, MA 25, GB*), the Vienna Chamber of Labor and the Natural History Museum.
SoilPlastic is a citizen science project that collects data on plastic in soils. No prior knowledge is needed to participate and you can enter your observations in the SoilPlastic app in just a few minutes.
Plastic products and their remains are ubiquitous. However, we still know little about how much and which types of plastic end up in soils and what effects this has. Observations by citizen scientists help scientists to fill this knowledge gap. This is an important field of (citizen) science, as we rely on soils to produce 95% of our food.
With the SoilPlastic app for Android and iOS, observations can be entered anywhere and at any time. Entries can also be made via the browser in the web-based app. So if you spot plastic in the environment while walking, cycling or on your way to work/school, enter your observation as a "spot" in the app. GPS localisation on your smartphone should be activated so that the spot is automatically placed in the right location. A spot needs at least information about the amount and size of the plastic found, about the surroundings (field, park, etc.) and a photo of your observation.
Other details are optional: colour of the plastic, type of plastic, information about the soil (texture, soil life), other material found. This will help the research team to understand the distribution of plastic and the site more precisely. Of course, the environment will be happy if you take the found objects with you and dispose of them in the correct waste bin.
The citizen scientists become part of the EU research project MINAGRIS (Micro- and Nanoplastics in Agricultural Soils) and make an important contribution to a clean environment by adding knowledge and collecting the found objects from the environment and disposing of them properly. You will also learn new things about plastics, soil and (citizen) science in a fun way. Furthermore, the SoilPlastic app allows you to connect with other Citizen Scientsts who probably have similar interests. As the SoilPlastic app is part of the citizen science platform Spotteron, you can use the same account as in other Spotteron apps and communicate about different topics and projects.
The collected data is used in the MINAGRIS project to get an overview of the amount and type of visible plastic on soils. Among other things, MINAGRIS investigates the effects of plastic on soils and biodiversity and develops a sustainable use of plastic. In addition, the data collected in the Citizen Science Award 2023 in Austria will be published in a scientific article (anonymised, of course). The spots in the SoilPlastic app are also visible to everybody interested.
Article about the SoilPlastic App
MINAGRIS is funded by the European Union's Horizon2020 programme for research and innovation under contract number 101000407.
Development of the app by Spotteron
SoilPlastic is part of the EU project MINAGRIS
The bacterial genus Aquirufa, which was discovered and scientifically described in cooperation with pupils, is the eponym and focus of the research project. The aim is to research the ecology, biodiversity and distribution of Aquirufa in water bodies through the active and creative participation of citizen scientists in the entire research process.
Many people only know bacteria as pathogens, although only a small proportion of bacteria belong to this group. Environmental bacteria drive material cycles and are involved in primary production; without their metabolic activities, the ecosphere as we know it would not exist. They are also absolutely essential organisms for our ecosystems, such as water bodies. Despite this importance, there is still a great need for research. According to estimates, there are probably several million species of bacteria, but only a little over 20,000 of them have been named and described. This enormous wealth of species is therefore still largely undiscovered. The project therefore aims to draw attention to this world hidden from the naked eye and to awaken understanding for scientific work, especially basic research.
School classes and other citizen scientist groups will collect water samples from self-selected or specified water bodies and process them microbiologically under supervision. Smaller groups will also work in the laboratory and help with sampling campaigns. With the involvement of the citizen scientists, newly discovered Aquirufa species will also be scientifically named and described during the course of the project.
Interested citizens can participate in the project in workshops in Mondsee and in the Weitwörther Au (near Salzburg). More information is available on the project homepage. You can also follow the project on Instagram.
In 2023, poject coordinator Alexandra Pitt held a lecture about the project Aquirufa (in German) as part of the lecture series "Citizen Science Seminar" at the University of Natural Resources and Life Sciences Vienna (BOKU). You can watch the video recording of the lecture at the end of this page.
Videos (in German)
Participate in archaeological field surveys and/or in cleaning, documenting & interpreting archaeological finds.
The project aims to explore the surroundings of the famous Neolithic settlement of Asparn/Schletz (Lower Austria). Numerous human remains suggest a violent attack on this site in the Late Linear Pottery Culture, approx. 7.000 years ago.
Due to its size and earthworks, we assume that Schletz was the central site of a cluster of smaller settlements in surrounding region. By researching these settlements, we hope, among other things, to increase our knowledge on the background of the massacre and on the origin of the people who died in Schletz.
We cordially invite you to work with us as a Citizen Scientist!
In the project, we are searching for Neolithic finds (pottery, stone tools, etc.) at known or suspected sites near Asparn/Schletz together with interested people and collectors. During our surveys, we go over the fields at regular intervals and map the findings that we discover. Later on, we clean them together und create a scientific documentation and evaluation. Here you can find further information on how you can participate as a Citizen Scientist. However, as we have planned a format of intensive cooperation, we have reached the maximum number of Citizen Scientists that can participate in the project. Nevertheless, we can still offer you to join the waiting list for the participation in the project (or possible follow-up projects).
In another part of the project, local middle school students extract and process soil samples from the area of the LPC sites to create an isoscape (= isotope landscape). Through a comparison with Sr isotope ratios of the human remains, this will allow a discussion of whether the people that died in the massacre might have grown up locally or not.
Breaking the blame game:
Our society faces grand challenges, such as mitigating climate change and adapting to its consequences, ensuring a healthy diet and maintaining cultural landscapes with high biodiversity. A sustainable agri-food industry addresses these challenges.
In Austria, with its high share of meadows and pastures, cattle husbandry is particularly important. Several aspects of dairy and beef supply are perceived as unsustainable. This is for instance its impact on climate change because during their digestion cattle release the climate-damaging greenhouse gas methane. Moreover, both animals and humans often face welfare problems because of difficult living and working conditions on farms and abattoirs. Many animals are kept in small spaces for the production of cheap products in a competitive market. Cattle are then prone to illness and their treatment with antibiotics may result in antibiotic resistance. In addition, our high consumption of meat causes health risks.
These and other problems in our beef and dairy supply are broadly discussed but many questions remain unanswered:
The project COwLEARNING combines scientific knowledge from the universities with the knowledge of practitioners in farming, processing, retail, gastronomy and consumption. Together, we search for possible ways of change and thereby consider different innovative practices. This may include, for instance, pasture-based feeding, cow-calf contact systems (the calf stays with the cow for longer time after birth), mobile abattoirs, cow-sharing (animals are slaughtered only when all their parts are sold), milk and beef substitutes.
With a farm-to-fork assessment, we compare these innovations from the farmer to the consumer. Together with practitioners, we develop scenarios, this means pictures of the future showing alternative developments. In addition, we develop serious games to convey the topic in a playful way. With these approaches we want to stimulate learning and provide spaces to experiment with more sustainable beef and dairy supply.
In January 2024, poject coordinator Marianne Penker held a lecture about the project (in German) as part of the lecture series "Citizen Science Seminar" at BOKU University. You can watch the video recording of the lecture down below.
The research project Werkstatt Neu Leopoldau is focused on the settlement process as a workshop situation for social innovations in housing and urban development, with the aim of fostering sustainable development and creating good neighbourhoods.
As an applied research project, "Werkstatt Neu Leopoldau" (Co-creation Neu Leopoldau) accompanies the settlement process of the IBA quarter in Vienna's 21st district. The phase of residents' and users' arrival in the neighbourhood is explored, which is conceived as a potential for social sustainability in Viennese housing. Using proven and new practices as a starting point, settlement processes are viewed as learning and education processes. Furthermore, it entails socially integrative potentials that should be shaped and further developed in a collaborative and co-creative setting to think about future ways of living in the neighbourhood.
In a first step, relevant topics and questions will be developed in a co-creative process based on the experiences of the actors involved. Special attention is paid to established and future social innovations in urban development (e.g. social innovations such as social support in the settlement process, community spaces, and sharing of further resources, etc.). In a synthesis step, a selection and focus on key topics are undertaken, which are then elaborated in more depth with the target groups in collaborative workshops. The aim of the innovation project is to develop transformational knowledge in a spatial context to enable and strengthen learning and educational processes at the individual and institutional level.
The project was carried out from November 2022 until September 2023, involving residents, tenants, property management companies, and experts who are accompanying the settlement process. Werkstatt Neu Leopoldau is supported by the IBA_Wien 2022 of the City of Vienna, MA 50, and a series of further cooperation partners.
In September 2022, project leader Christian Peer was a guest on the Österreich forscht podcast "Wissen macht Leute" - if you're interested to learn more about the project, you can listen to the episode here (in German). In addition, Maria Schönswetter, a dedicated Citizen Scientist in the project, gave interesting insights into the project in March 2023 - tune in!
You can download the final report directly from IBA_Vienna 2022 website or from the future.lab website!
Read more about the findings and results in our blog entry!
In spring, scientists invite everybody around Europe to take part in the biggest cowslip observation campaign “Looking for Cowslips”. The aim of the project is to examine the patterns of flower morphological traits (i. e. heterostyly) in cowslip populations all across Europe using a citizen science approach. The citizen science project “Looking for Cowslips” was carried out already in 2019 and 2020 in Estonia and Latvia. Within the frames of this campaign, we obtained heterostyly data from > 150 000 cowslip individuals in each year of 2019 and 2020 in Estonia (and Latvia). Since 2021 we are also asking enthusiastic citizen scientists across the EU to participate and contribute, with great success. Data originating from the campaign provides unprecedented insight into the patterns of heterostyly following the loss of semi-natural grasslands.
Participants are expected to observe the patterns of heterostyly in cowslips. The cowslip (Primula veris) is a heterostylous plant – it means that the plant can have one of the two types of flowers. These different types of flowers are called S-morphs (short-styled) and L-morphs (long-styled). In short-styled cowslips (S-morphs), five anthers are visible in the flower when looking from above, and in individuals with L-type flowers, a green dot in the middle of the flower (the stigma) is visible. Normally in cowslip populations, the frequency of these different types of individuals is more or less equal. Imbalance reduces a plants’ opportunities to find a suitable mate for reproduction, which impedes pollination and the exchange of genetic material. This, in turn, reduces a plants’ vitality. The cowslip’s regular habitats – traditionally managed grasslands – have become increasingly rare in the contemporary landscape. The disappearance of grasslands causes decline in plant populations depending on grassland habitats. A massive decline in cowslip populations can cause substantial imbalances in the frequency of L- and S-morphs to the extent that one of those types completely disappears from the habitat. That is precisely the kind of a possible shift in the balance between the L- and S-morphs caused by changes in the landscape that we want to study – with your help. An observation takes about 30 minutes. When possible, one should observe the flowers of 100 cowslip individuals. Look at the flower and report whether you see five anthers (S-morph) or one stigma (L-morph). Find the time, breathe some fresh air, and help scientists with their work!
For more information, check out our webpage www.cowslip.science.
To find out more about the interesting findings from the first year of the campaign, you can read the article at: https://besjournals.onlinelibrary.wiley.com/doi/full/10.1111/1365-2745.13488.
You can contact us at This email address is being protected from spambots. You need JavaScript enabled to view it. for further questions.