SoilRise is a research project on earthworm biodiversity in Europe. Earthworms play a crucial role in soil fertility and are considered important ecosystem engineers. With your help we like to collect data on the distribution and diversity of earthworms in Europe.
But SoilRise is more than scientific research. We aim to build an interactive network between researches, citizen scientists (you) and stakeholders to raise awareness of the importance of soil biodiversity. We seek to explore, protect and conserve the diverse habitats beneath our feet. By taking part in SoilRise, you will be actively contributing to the preservation of our soils and a positive impact on the environment.
The SoilRise project aims to improve the availability of data on earthworm populations and raise awareness of the biodiversity found in our soils. We aim to identify threatened or non-native earthworm species and compare traditional identification methods with DNA analysis. We will also look at species diversity in different countries to understand the ecological variation that exists.
Sample your field with a spade during the months of March to May and/or September to November. Sampling takes approximately 5 hours and you can record your data on the form provided or on our website. Our team will help you every step of the way, on site if possible.
We will provide all necessary documents such as sampling instruction and data sheets. Our seminars and webinars will to help you to prepare for sampling and you will learn more about the world of earthworms.
At our networking sessions, we will invite you to share your experiences with other participants and the research team.
Who could participate?
Anyone over the age of 14 can take part in the project and search for earthworms (farmers, gardeners, agricultural schools and everyone who is interested).
We have three categories:
It is also possible to take part in the project without having a own plot of land.
Register directly at our project website.
SoilRise is a biodiversa+ project in cooperation with Germany, France, Ireland, Poland and Austria.
DANUBE4all is an EU project with the main task of developing a comprehensive action plan for the renaturation of river stretches in the Danube River Basin (DRB). To this end, a collaborative stakeholder process is being developed that actively incorporates the interests of citizens. The action plan is intended to contribute to the improvement of the ecological status, biodiversity and river connectivity of the Danube ecosystems and thus supports the EU mission OCEAN ‘Mission Healthy Oceans, Seas, Coastal and Inland Waters’.
The development and implementation of innovative and socially relevant nature-based solutions has a wide range of positive effects. In addition to the improved connectivity of rivers, possible scenarios for floodplains, reducing the risk of floods and droughts, and other socio-economically effective measures are an important focus. Renaturation projects on the Danube are being promoted with the goal of improving the continuity of sediments and positively influencing habitats/biota. These include the Danube National Park east of Vienna, a section of the river in Hungary and a measure on the Danube delta.
Nature-based solutions must be developed in collaboration with the affected population and supported by them in order to be effective in the long term. Renaturation processes tend to unfold slowly and require continuous attention and active support in order to be successful. Accordingly, the intensive involvement of citizens along the Danube is an important component that makes renaturation possible in the first place. A special work package supports interaction with citizens through the activation of citizen science. Citizen scientists are particularly involved in the development, implementation, evaluation and scaling of nature-based solutions, a citizen science method toolbox, and the development of communication measures.
In particular, DANUBE4all serves the following research fields:
common nase, © Robert Togel (Images courtesy of viadonau)
In view of increasing extreme weather events, including periods of drought and consequent water shortages, the protection and knowledge of springs in the Großes Walsertal Biosphere Reserve is becoming increasingly important. In addition to their essential role in water supply, springs are often small but important habitats for many endangered organisms. The pressure to utilise and develop existing springs has increased significantly due to climate change. In order to obtain a comprehensive overview of the existing springs in the valley, the KLAR! Biosphärenpark Großes Walsertal is launching a citizen science project.
Life Science AG, which has already successfully carried out a citizen science project to record spring habitats in the Black Forest biosphere area, will now transfer this project to the conditions in the Großes Walsertal. The tried-and-tested mapping and evaluation method records not only the location but also characteristics such as spring size, temperature, cultural-historical significance, flora and fauna as well as potential human influences. As an alternative to analogue recording, the Qfield app is also being adapted so that walks in the Großes Walsertal can quickly become small research trips.
As a model region for sustainable development, the biosphere reserve bears a special responsibility for the long-term protection of natural springs. We are committed to securing the supply of drinking water and simultaneously protecting the habitat for rare species. At the same time, we must ensure that the springs are utilised in the most environmentally friendly way possible to supply humans and animals.
As a first step, spring locations are to be recorded and mapped across the valley. In order to realise this as comprehensively as possible, we need the help of motivated people in the Großes Walsertal. The necessary knowledge and tools for the survey will be provided on Saturday, 12th October 2024, from 10:00 to 16:00 in a joint workshop at the Biosphärenpark.Haus. After the course, including a short excursion, all participants will know about these sensitive habitats and will be able to locate and document spring sites and make initial determinations regarding the type of spring. They will also gain an insight into the fauna specific to springs and learn what conclusions can be drawn from the existing spring fauna.
If you are interested, please register in advance with our Klar! manager Lukas Ellensohn at This email address is being protected from spambots. You need JavaScript enabled to view it.. He will send you all further details about the programme.
Together we can limit the spread of invasive species and protect the biodiversity of our mountain regions!
Our Citizen Science project is dedicated to monitoring invasive alien species (IAS) in the mountain regions of the Karawanken Geopark. Invasive species are plants or animals introduced by human activity into regions where they do not originally occur, often through intercontinental trade. While most introduced species rely on human support to survive, some can adapt and thrive independently. A subset of these become invasive, posing significant threats to native ecosystems.
Invasive alien species spread rapidly because they produce large quantities of seeds, grow quickly, and have few natural enemies in their new environment. This allows them to colonize new areas swiftly and displace native species. They can also affect water supplies, agriculture, and human health.
Mountain regions are less affected by invasive plants, but the risk is increasing due to climate change and human land use. These species are often introduced at lower altitudes and spread along corridors such as roads, hiking trails, and watercourses to higher altitudes. Seeds and spores can stick to tires, shoes, and tools, facilitating their spread. Intentionally introduced plants, such as seed mixtures for roadsides or ski slopes and ornamental plants, also contribute to their spread.
Once invasive species appear in mountainous regions, they are difficult to control due to the challenging terrain. To take appropriate measures, it is essential to monitor the populations of these species in the Geopark.
The Karawanken UNESCO Global Geopark covers an area of 1,067 km² and includes five Slovenian and nine Austrian municipalities. This cross-border area is a unique natural and cultural experience region characterized by its outstanding geological heritage. The aim of the Geopark is to preserve the geological and natural resources as well as the cultural heritage of its members. By raising awareness, providing information, and education about the Geopark and its network at European and global levels, it contributes to strengthening its position as an important geopark. The Geopark also promotes economic use through sustainable tourism and supports cross-border cooperation for the sustainable development of the region.
Further information about the Karawanken Geopark can be found on the Geopark homepage.
Image 3: Overview map Karawanken UNESCO Global Geopark © Urosh Grabner
We invite all interested citizens to join our project and help protect the unique mountain ecosystems of the Karawanken Geopark. You can actively contribute by photographing foreign plants in the Karawanken Geopark and uploading them to iNaturalist.
Using the iNaturalist app, you can photograph any animal or plant. The app identifies the species using artificial intelligence, and the iNaturalist community can confirm or improve your discovery, enhancing the quality of observations over time.
Information about the five most common species in the Karawanken Geopark, their impact, and recognition tips can be found in our project journal on iNaturalist.
Video 1: What is iNaturalist?
No participant data is analyzed in this project. By joining, participants agree to iNaturalist's terms of use. Users control what data is visible to others when creating iNaturalist data, and settings can be managed in account details on the platform.
This project is co-funded by the INTERREG Central Europe project HUMANITA - Human-Nature Interactions and Impacts of Tourism Activities on Protected Areas, supported by the Interreg CENTRAL EUROPE Program 2021-2027 with co-financing from the European Regional Development Fund (ERDF). The project's total budget is EUR 2,396,346.70, with EUR 1,917,077.36 funded by ERDF.
For questions or more information, please contact:
Project Management, FH Kärnten: Lilia Schmalzl (This email address is being protected from spambots. You need JavaScript enabled to view it.)
Project Management EVTZ Geopark Karawanken: Urosh Grabner (This email address is being protected from spambots. You need JavaScript enabled to view it.)
Detective work for amphibian protection - for the first time, amphibian screening is being carried out throughout Austria by detecting their DNA traces in water - and everyone can take part. Amphibians - including frogs, toads, toads, salamanders and newts - are strictly protected in Austria. Nevertheless, populations are continuously and in some cases dramatically declining, which is mainly due to habitat loss.
Natural, private garden ponds can play an important role. They act as important possible retreats, but are usually not accessible to the public. In addition, there are often small and amphibian-rich waters that are only known to those familiar with the area. This is where citizen scientists come into play: Their efforts make a valuable contribution to species records and data on the distribution of the amphibian fungus Batrachochytrium dendrobatidis, or Bd.
Interessierte aus ganz Österreich konnten sich bis Ende März bewerben, Ende April wurden 1.120 Beprobungskits versendet. Über eine kinderleichte Probennahme können die kostbaren DNA-Spuren, die von Lebewesen im Wasser hinterlassen werden, herausgefiltert werden. Durch eine einfache Wasserprobe kann also die Artenvielfalt im Teich, sowie das Vorkommen von Bd erfasst werden. Dazu wird der fertige Filter an die Uni gesandt, im High-Tech Labor analysiert und bioinformatisch ausgewertet. Die Ergebnisse werden im Herbst 2024 veröffentlicht.
Market garden centres work according to so-called bio-intensive methods. This means utilising the maximum possible natural yield potential on the land. This yield potential results from the respective location, the climatic conditions (temperature, precipitation, wind, etc.), the production methods and, to a large extent, the soil itself. Beside the type of soil and texture, the thickness of the individual soil layers, the condition of the soil in terms of soil fertility and soil health is of enormous importance for market gardeners. While the term soil fertility refers more to the function of productivity (mineral, physical and biological aspects), the term soil health is defined more systemically and expanded to include other soil functions. In addition to the productivity function, the water storage function, the habitat function for plants and soil organisms and their diversity, the nutrient management function and the climate function as a carbon store are relevant for market garden centres. In order to run a market garden successfully and sustainably, the soil condition in terms of its fertility and health must not only be maintained, but even improved in the course of cultivation. The goal in every market garden is therefore not only sustainable soil management, but also regenerative soil management. In this project, soil data such as aggregate stability, soil structure, temperature, moisture, infiltration, degree of mulch cover and compaction data are collected according to scientific principles. Data such as the degree of mulch coverage is collected directly from the gardeners, as we collect the data at 14-day intervals. The respective test facilities and test questions were customised together with the respective farm, as we attach great importance to practical questions.
For this project, participation is closed.
What can we do to protect our wetlands and floodplains in Europe? What does the water management need to implement measure for the benefit of both the environment and the human society?
The Horizon Europe project Restore4Life aims at offering an online system that supports the restoration of wetlands in Europe. One important aspect is the development of easily applicable and meaningful methods to assess the state and functionality of wetlands before and after the restoration. This enables us to see whether the measures are sustainable for the future of the wetlands, for the climate and for us.
The integrity of wetlands can be assessed via a multitude of factors. Biodiversity indicates the health of the ecosystem, plant biomass shows how much carbon can be stored. In order to assess these data across Europe, we need methods which can be used also by non-experts. Together with Citizen Scientists, we want to develop, adapt, test, and optimize such methods so that we can offer them to other countries willing to implement restoration activities. We especially invite school classes to participate in our project.
The opportunities for joining the project are manifold: you can determine bird species via their songs, estimate the diameter and height of trees, evaluate orthophotos and satellite images, and many other things.
Where:
The development of child- and youth-friendly cities is becoming increasingly important due to the deteriorating quality of life in urban areas. An important contribution to this relates to the provision of urban green suitable for young people and their involvement in the future design of urban landscapes. However, it must be taken into account that children and the youth make demands on urban green that are often not sufficiently known and which differ from what adults need and from what adults consider important for children and the youth. As a result, the participation of young people in the collection, evaluation and communication of what is important to them with regard to urban green plays an important role. But the involvement of young people in participatory initiatives is difficult, often falls short of expectations and is linked to various open questions, such as what are suitable tools and strategies to inspire and involve children and the youth in participatory initiatives.
With regard to these challenges, „u3Green“ pursues three goals:
Within the framework of various participation formats young people are involved in achieving the “u3Green” project goals using various methods (participatory design, participatory mapping, spatial data science, visual/ cartographic communication) and IT and geoinformatics tools (including ESRI applications). On the one hand, this refers to the participation of school students from the partner schools in workshops and spotlight events in order to discuss questions related to the challenges mentioned above and to develop initial solutions. On the other hand, school students from the partner schools contribute to the detailed answering of the questions within the framework of internships and workshop camps lasting several days.
Especially through the participation formats, "u3Green" supports the training of specialist knowledge and skills in the STEM field (i.e. teaching and study subjects relating to mathematics, computer science, natural sciences and technology) and other "soft skills" (e.g. science literacy) - in addition to an improved consideration of urban green spaces for young people in planning processes and an increased building of social awareness regarding urban green.
Co-operation partners: Österreichischer Dachverband für Geoinformation, Private Pädagogische Hochschule der Diözese Linz, Salzburger Institut für Raumordnung und Wohnen, Spatial Services GmbH;
Partners from Economy and Society: Naturpark Weißbach, Universität 55-PLUS, Paris Lodron Universität Salzburg, Wissensstadt Salzburg;
Participating schools: Akademisches Gymnasium Salzburg, ASO Stadt Salzburg, BG Zaunergasse, Salzburg, BORG Oberndorf, Holztechnikum Kuchl, Werkschulheim Felbertal; BG & BRG Keimgasse Mödling
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@projekt.u3green Wir brauchen deine Stimme! ☀️ #u3green #plus_1622 #fyp #foryoupage #fy ♬ clocks - -
u3Green is funded by the Federal Ministry of Education, Science and Research in the Sparkling Science 2.0 program
The AmphiBiom project is focused on the study of the European green toad in Austria. With the support of Citizen Scientists, we investigate the distribution of this endangered amphibian species, which, as a typical pioneer species, can quickly colonize newly emerging water bodies.
Therefore, the European green toad is an ideal species for projects to investigate the distribution status through call monitoring and the installation of small water bodies with the support of the Citizen Science Community. With AmphiBiom we want to show that everyone can support the survival of this protected species with just a little effort. Already through these small but valuable measures, the general awareness that is needed to better understand species and habitat protection measures, is strengthened.
Amphibians are among the most threatened animal taxa in Austria and worldwide. The reasons for this include habitat destruction and degradation, fungal diseases, and changes in land use. For some amphibian species, despite many disturbances, agricultural areas or even cities also represent important habitats. The natural spawning grounds of the European green toad, are steppe lakes filled after rainfall or ponds formed after flooding with strong sunlight. With a few exceptions, the natural spawning habitats of the European green toad have largely disappeared in Europe. In addition to these near-natural water bodies, artificial water bodies or puddles filled after rain showers are often accepted by European green toads today.
The disappearance of fallow land and closure of gaps between buildings, leads to a deterioration of the conservation status of the green toad in rural areas as well as in inner-city areas. Countermeasures, such as the provision of replacement habitats, can prevent this negative development. The initiative for the creation of small water bodies, which is scientifically accompanied in the AmphiBiom project, not only forms an additional spawning offer for green toads and other threatened amphibians (e.g., Yellow-bellied toad). It gives us the opportunity to study the succession and progressive colonization of water bodies by diverse pioneer fauna.
This project uses Citizen Science to study this pioneer species in order to investigate its distribution in areas that are often inaccessible for research (e.g., private gardens) and to actively involve citizens in the project.
In addition to creating new habitats for the green toad and other amphibians, we are also using the power of citizen science to launch an Austria-wide, app-based amphibian call monitoring programme. With its high-pitched warbling, the green toad is certainly one of the most beautiful calling amphibians in Austria, but it is not the only one with a characteristic song. For example, tree frogs and toads can also be clearly identified by their song. As part of the AmphiBiom project, we invite interested people to use our mobile phone app "AmphiApp" to record amphibian calls in their neighbourhood and thus contribute to the knowledge about the distribution of these protected animals.
In a further step, the complementary evaluation of already existing protection measures will clarify in which areas such measures (still) make sense, or where they could contribute to the resurgence of populations classified as extinct.
If you would like to learn more, you can listen to the Wissen macht Leute podcast episode about the project (in German). More information can be found here.
Dieses Projekt wird durch den Biodiversitätsfonds des Bundesministeriums für Klimaschutz, Umwelt, Energie, Mobilität, Innovation und Technologie gefördert.
The shrinking town of Eisenerz lies at the foot of the Erzberg mountain, Austria’s largest and best-known site of extraction of iron ore. The post-industrial town is experiencing a rural exodus, which concerns women in particular. The spatial practices of mining areas have been under-researched using inclusive methods. Mining is predominantly narrated in male, heroic narratives, while counter-narratives of repair, care, reproduction and maintenance are mostly overlooked.
Within this complex field, the project focuses on intersectional feminist perspectives on an area of exhaustion; it will collect feminist post-extractive stories to broaden the perception of mining areas and strengthen the focus on feminist narrations for future perspectives. We ask: Which practices contribute to the continuance of the community? The project shows and discusses the spatial practices of repair amid extraction with multiple actors. We work with local associations to reach diverse groups.
Thinking and knowing with the diverse, often surprising, actors and their practices, the citizen scientists shape the project on several levels: they collect and locate stories of practices, they research private archives, and they report and sometimes even organize. Processes of mutual learning take place in meetings and shared activities, and through the process of transformation into drawings by the East Styrian artist Roswitha Weingrill. Based on collaborative science and an affirmative and inclusive approach, citizens are involved in decisions on many levels, especially concerning their contributions and their representation. The collected knowledge will contribute to creating imaginations of future stories of a liveable community. With the help of artistic methods, these will be illustrated and made accessible in public discussions.
Via strategies of making visible, bringing together, and anticipating and activating futures, and also with the help of artistic tools of knowledge production, this project will show practices as constant reparative counter-practices amid extraction. An ethical, intersectional framework of feminist citizen science will revive the margins of how we know about environmental exploitation to deliver a complex, yet profound, image of a polyphonic Anthropocene that allows for imagining dynamic assemblages after exploitation.