CC-BY-NC 4.0 Tanja Lumetsberger

Every observation counts!

The City Nature Challenge (short: CNC) is an annual nature competition between regions that takes place in spring (usually at the end of April, beginning of May) and is held simultaneously in various cities and regions worldwide. On four consecutive days, people around the world document the diversity of wild animal, plant and fungi species in their region using photos and sound recordings and share them on iNaturalist. Together with others the observations are then identified to species level on iNaturalist.

The CNC was invented by the Natural History Museum of Los Angeles County and the California Academy of Sciences in 2016 and is organized by them since then annually. 2018 the CNC went globally, and hundreds of cities and regions are participating since then in this friendly challenge every year: Which region makes the most observations? Which region has the most species? Which region can motivate the most participants?

All observation of wild organisms in the participating regions count!

Since 2020, several Austrian cities and region are also participating in this international event. The CNC is organized by each of the participating cities or regions on their own. The “City Nature Challenges in Austria” project acts as an umbrella project for these participating cities and regions in Austria.

The aim of the CNC is to reacquaint people with their local biodiversity, to arouse curiosity and to discover nature on their doorstep. You can use the observation platform iNaturalist to exchange ideas with other nature lovers and learn and improve your knowledge of the species by identifying species together with others. This data helps research, administration, and nature conservation: it contributes to a better understanding of the status of species and their distribution in Austria. Due to the large number of observations, robust data on phenology can be obtained, area expansions of invasive species or of rare/sensitive species can be detected, and rediscoveries and new finds are also possible.

When?

The next City Nature Challenge takes place from April 26th to 29th 2024. Planning for the 2025 CNC event already starts in October 2024. 

Participate

Everyone can participate in the City Nature Challenge by making observations or help identifying observations to species level! No registration to the project is necessary. All you need is a camera (smartphone or digicam) and a free iNaturalist account for uploading the photos. In Salzburg and Vorarlberg, Observation.org and the ObsIdentify app are used to collect data. The use of both platforms is free of charge.

Now, simply take photos of wild animal, plant or fungi species between April 26th and 29th 2024 in the participating regions and post them on iNaturalist. That is all it takes for your observation to count in the City Nature Challenge! 

You can also help identify species on iNaturalist submitted during the CNC. Or simply tell your family, friends or colleagues that the CNC is happening in their region. 

iNaturalist is a citizen science platform where everyone can post images or sound recordings of their species observations and identify it together with other users. It is run by the California Academy of Sciences and the National Geographic Society. Beside the documentation of biodiversity users can also get in exchange with each other over the platform. 

What’s with the data?

The observations reported to iNaturalist during the course of the CNC can be viewed and used by any user of the observation platform. So they are freely available. In addition, verified observations (which have the status of "research grade") are shared with GBIF "Global Biodiversity Information Facility" – an international biodiversity database – used by scientists worldwide for their research. In addition, the observations are also available in the Austrian Biodiversity Atlas with a slight delay.

Through your iNaturalist account, you can control how your observations and photos may be used (by providing a Creative Commons license) and you can also remove your observations at any time by deleting your account.

Podcast episode

In April 2023, coordinator of the region Krems-Wachau-Melk, Tanja Lumetsberger, presented futher insights and details about the City Nature Challenge in our podcast Wissen macht Leute. You can listen to the episode here (in German). 

Further information

Further information on the City Nature Challenges in Austria and how you can be part of it can be found on our project website.

Information on the official international project can be found at www.citynaturechallenge.org (in English).

Implementing organisations 2023

The City Nature Challenge is organized on a global scale by the Natural History Museum of Los Angeles County and the California Academy of Sciences.

cnc20 organizedlockup full

Published in Current projects
(C) Kaarel Kaisel
Thursday, 22 April 2021

Looking for Cowslips

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!

Morph drawing DE

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.

Published in Current projects
Schwebfliege auf Kornblume, Christina Bischof, Juni 2020, HBLFA Raumberg-Gumpenstein
Friday, 12 February 2021

PolliDiversity 2.0

Compared to PolliDiversity, PolliDiversity 2.0. is still about creating habitats for insects, but the tasks of the citizen scientists have changed somewhat due to usability. The project was offered for the first time at the Citizen Science Award in 2021. In 2022, the second round took place in a modified form. Due to career changes of the project participants, the project will not be offered in 2023, but further project runs are planned for the future.

The aim of PolliDiversity 2.0. is to get as many people as possible excited about biodiversity and pollinators in their environment. Through active participation in research, the intrinsic motivation to actively engage in biodiversity conservation can be promoted. The goal of the citizen scientists will be to document the phenological development of plant species and then observe which pollinators visit these areas and at what time.

What are the tasks of the participating citizen scientists?

The main task of the citizen scientists is to document how the different plant species in the ReNatura wildflower mixture Gumpensteiner BW3 develop phenologically. Another task will be to observe the pollinators that visit the flowering areas. The resulting data will on the one hand provide interesting insights into the plant species in the flowering mixture and on the other hand valuable contributions to research into the lifestyles of the pollinators.

Documentation of phenological development

For the documentation of the phenological development of the flowering areas, a template is handed out to the citizen scientists to be completed for the documentation. The time of sowing, budding, flowering and plant growth should be documented. Different parameters such as outdoor temperature, weather and altitude are also included.

Observation of pollinators and data collection

When observing pollinators, the focus should be on wild bees in particular. Participants will also be given a simple identification key to assist them. Data collection is done via the platform of the Austrian Nature Conservation Union www.naturbeobachtung.at. There is a separate comment function where the project "PolliDiversity 2.0" is to be indicated.

Planting the flowering area

Citizen scientists receive seeds of the ReNatura wildflower mixture Gumpensteiner BW3 for an area of approx. 5 m². The seeds can be sown in your own garden or optionally in pots, which is why it is also possible to participate without having your own garden. The following plant species are sown:

Yarrow (Achillea millefolium), Field chamomile (Anthemis arvensis), Dyer's chamomile (Anthemis tinctoria), Kidney vetch (Anthyllis vulneraria), common marigold (Calendula officinalis), Caraway (Carum carvi), Cornflower (Centaurea cyanus), Brown Knapweed (Centaurea jacea), Centaurea pseudophrygia, Scabiosa (Centaurea scabiosa), Common Chicory (Cichorium intybus), Meadow Buttercup (Crepis biennis), Wild Carrot (Daucus carota), Carthusian Carinthia (Dianthus carthusianorum), Viper's Head (Echium vulgare), Widow's-flower (Knautia arvensis), Dandelion (Leontodon hispidus), Marguerite (Leucanthemum vulgare), Kidney Clover (Lotus corniculatus), Chamomile (Matricaria chamomilla), Yellow Clover (Medicago lupulina), White Sweetclover (Melilotus albus), Sweet Yellow Clover (Melilotus officinalis), Evening Primrose (Oenothera biennis), Sainfoin (Onobrychis viciifolia), Corn Poppy (Papaver rhoeas), meadow sage (Salvia pratensis), red campion (Silene dioica), common glue (Silene vulgaris), hare clover (Trifolium arvense), field clover (Trifolium campestre), small clover (Trifolium dubium), red clover (Trifolium pratense), black mullein (Verbascum nigrum), Sticky Catchfly (Silene viscaria) - all certified according to G-Zert®.

In the best case, the flowering area should be established as early as March (as soon as the first early flowering plants become visible), but by the end of April at the latest.

Which materials will be made available to the participating citizen scientists?

In order to enable citizen scientists to identify and participate in the project, the following information materials will be prepared and made available in digital form:

  • Info workshop on Zoom
  • Digital materials for participants: Experiment instructions, information materials on pollinators and identification keys for the selected pollinators.
  • Template for the documentation of phenological development

The project materials are only available in German. 

Further details on the project

The task of the citizen scientists is to document how the flowering areas develop: When do the seeds emerge? What is the temperature? What was the weather like in the past weeks? How tall are the plants after another two weeks? When do the first plants start to flower? If no plants come up, what could be the reason - have birds or snails been seen?

Furthermore, the citizen scientists should determine on several days from May to the end of July (depending on the flowering time of the plants) which plant species is preferred as a food source by certain wild bee species and other pollinators. Monitoring should be carried out on as many days as possible at three different times of day during daylight hours. The weather also plays a role, as wild bees are more likely to be seen in sunny weather but less likely to be seen in rain or strong winds.

How will the data of the participating citizen scientists be handled?

The data will be treated strictly confidentially and in accordance with the EU General Data Protection Regulation.

How can interested parties register?

Interested parties are welcome to register by e-mail. Please send registrations and queries to: This email address is being protected from spambots. You need JavaScript enabled to view it.

Citizen Science Seminar

In 2021, poject coordinator Verena Mayer held a lecture about "PolliDiversity" as part of the lecture series "Citizen Science Seminar" at the University of Natural Resources and Life Sciences Vienna (BOKU): "'PolliDiversity' - pollinator diversity in your own environment" (in German). At the end of this page you can watch the video recording of the lecture.  

Project coordination:

Mag. Verena Mayer
Dipl. Ing. Renate Mayer

Other contributors:

Dr. Wilhelm Graiss

Published in Project archive
(c) iStock.com/winyuu
Wednesday, 17 June 2020

Pollen Diary

The Pollen Diary was launched back in 2009 as a scientific project as part of a master's thesis at the WU Vienna Executive Academy. Meanwhile it has become an important service for pollen allergy sufferers in 13 European countries: Austria, Germany, Switzerland, France, Great Britain, Sweden, Finland, Croatia, Hungary, Lithuania, Serbia, Slovenia and Turkey. The number of users is growing every year, not at least because of the projects that were made possible by the Pollen Diary, such as the pollen app, the exposure map and the personalized pollen information.

Users have the possibility to document their own allergic complaints (intensity and symptoms) together with their medication intake. This gives an overview of the pollen allergy and allows them to compare the symptoms with the measured pollen concentrations on a continuous basis as well as at the end of the stress phase of the allergy. In addition, it is possible to download an excel file with all entries. There, all data are summarized and additionally correlation calculations of pollen count and symptoms are provided. This is a first step towards the identification of the trigger. And even after the diagnosis by a specialist, the pollen diary is a valuable support for patients and medics to track the success of a therapy, the administration of medication or the course of the pollen allergy.

To make such a service possible in the first place, the Pollen Diary is linked to the European pollen database, and can therefore be used without any problems in all countries where it is already available. Special attention has been paid to easy handling as well as to compliance with the latest EU directives on data protection (more under the terms of use of the Pollen Diary).

Since 2013, the pollen diary can also be accessed via the "Pollen" app on Android and iOS. If a user documents complaints, a personalised pollen forecast is available free of charge, tailored to the personal reaction profile. Via the app, users can also get the stress forecast and other practical helpers for the everyday life of an allergy sufferer, which are offered free of charge on the homepage of the Austrian Pollen Warning Service.

Europe-wide pollen information is reached via this portal: www.polleninfo.org.

Image gallery

Published in Current projects
(C) Christian R. Vogl
Friday, 05 June 2020

Homegrown

“Homegrown - There is nothing like a homegarden”

Project description

With their variety of plant species and the experience of the gardeners, rural home gardens constitute an integral component of the cultivated landscape in the Lienz district, East Tyrol. Together with pupils of the BG/BRG Lienz school (and biology, math/physics and English teachers), scientists are investigating rural home gardens, including stocks of plant species and the use of plants. These results will be compared with those taken 20 years ago from the same gardens and will help to identify changes in gardens and their cultivation. These diachronic perspectives allow a precise and empirically established overview of changes in rural home gardens in the countryside of an industrial and services-focused state, in the context of demographic and economic changes and the search for a new identity.

To gain a better understanding of the local perception of the significance of rural home gardens, observations from gardeners and their neighbours concerning ecosystem services in gardens and their significance will also be recorded.

The project will also investigate cultivation techniques that adapt to extreme weather or ensure sustainable growth. It will also find out why people grow gardens and which values and approaches guide their behaviour or actions in gardens.

As part of an additional citizen science module, the local population in East Tyrol and Oberen Drautal will be combined. The module appeals to gardeners who are interested in taking surveys in their gardens, according to methodological direction and by monitoring their gardens, so as to demonstrate the material and immaterial ecosystem services in gardens. These gardeners and the cooperating young people will be trained in simple quantitative and qualitative survey methods for this purpose. This will take into account the opportunities that depend on the education and experience of each individual participant.

The starting point for developing analogue survey tools for the researching gardeners is a universal T-card office planner (49 x 47.3 cm, 7 panels, light grey) with 20 slots and 7 columns. The card slot system provides a weekday structure (Monday to Sunday), an hourly structure (6 a.m. to 10 p.m.) and six variables for recording ecosystem services.

On the universal T-card planner, the gardeners use the provided weekday and time scales with differently coloured slots to record the following specific information in writing about the individual ecosystem services during the recording period:

  • Provisioning services, such as the yield of vegetables and fruits from the home garden (name of the person harvesting, time and duration, name of the harvested fruits and vegetables, the amount harvested and its respective use).
  • Regulating services, such as birds, insects or pests in the home garden (name of the observing person, time and duration, name and number of birds, insects or pests observed).
  • Cultural services, such as cultivation techniques in the home garden (name of the person cultivating, time and duration, tools used, etc.) or activities in the home garden when used as a place for relaxation and leisure.

The time spent in the garden will be recorded with a simple stopwatch. Some plant materials will be weighed out with simple, easily available kitchen scales. The card slots will be placed somewhere protected from weather or positioned where they are in the gardener’s view. This location will be decided on site with the gardener.

The duration of collections using the card slot system will be calculated at at least a week and will then be passed on to another gardener. Seven card slot systems will be prepared. The recordings ran from 1 August to 31 August 2018.

Through the participation of citizen scientists, a continuous observation and record of local perception (emic viewpoint) of the ecosystem services of home gardens is guaranteed. The methods were proposed by a gardener from the region being researched and were discussed/considered together with other gardeners from the area. The citizen scientists were actively involved in data acquisition and collection, data analysis and interpretation and the publication of results in the project report, scientific journals and conferences and in local media (dolomitenstadt.at). The collected data was continuously documented and stored by scientific guardians. Interim and final results were returned to the participating gardeners as part of the “give back” culture in the citizen science final event (“Gartenfest”).

Project collaborators

Heidemarie Pirker

Brigitte Vogl-Lukasser

Partners

BG/BRG Lienz (Renate Hölzl, Arno Oberegger, Hansjörg Schönfelder and the pupils of class 6b (from academic year 2018/2019: 7b).

Marie-Luise Wohlmuth (workshops on soil biology)

Ramona Walder (photography)

Peter Werlberger (video)

Gerhard Pirkner (dolomitenstadt.at)

Germain Weber & Team (Faculty of Psychology, University of Vienna)

Christian Ragger (REVITAL - Integrative Naturraumplanung GmbH)

SpSc Logo de mitbmwfw 72dpi rgb

Image gallery

(Click on an image to enlarge)

Published in Project archive
PublicDomainPictures, Pixabay Lizenz (https://bit.ly/2Hdz7mz)
Thursday, 04 June 2020

Ragweed Finder

The Ragweed Finder was developed in 2017 by the Austrian Pollen Information Service at MedUni Vienna and has also been available to download as an app for Android and iOS since 2019.

The Ragweed Finder consists of four components:

  1. Specimen report
  2. Ragweed distribution map
  3. Information about Ragweed
  4. Manual to recognize ragweed

Specimen report

The most important data such as location, population size and symptoms can be entered quickly using the specimen report. Uploading a photo is mandatory, otherwise a reported specimen cannot be verified by the experts of the Ragweed Finder team. Users can decide whether to report by name or anonymously (only via email address).

Ragweed distribution map

Already verified specimen reports of ragweed are listed herein within the current season. The number of symbols amounts to the number of reports displayed on the map. The colouring around the specimen sites indicate the symptom intensity.

About Ragweed

What is ragweed? Where does it grow? What is known about ragweed pollen allergy? What can be done? These and other questions are answered in this compilation of the most important information about ragweed.

Recognize Ragweed

Some ragweed pollen allergy sufferers do not know their allergy trigger and may walk along an infested field without recognizing the plant. However, in order to report ragweed, a reliable identification of the plant is required. Many photos as well as a short instruction on how to take convincing pictures turns the interested citizen into a ragweed expert.

What happens with the specimen reports?

First of all, the specimen reports have to be evaluated. Each verified report is then transferred to the distribution map. Users will be informed about the evaluation of their specimen report via e-mail. The verified specimen reports are forwarded once a week to the responsible institutions/federal state governments. This enables the authorities to set appropriate corrective actions (e.g. mowing) and locate ragweed hotspots.

So far, there is no comprehensive legal obligation to report or remove ragweed in Austria. Only in Burgenland a law to control and prevent the spread of ragweed was passed in 2021.

Highlights:

  1. For the first time, a tool for recording ragweed plants is available free of charge for all of Austria.
  2. The ragweed distribution map is available for the public.
  3. Thanks to a guideline and a checklist for reporting ragweed specimen, anyone can identify and report ragweed.

Ragweed pollen allergy sufferers can be an active support to contain the uncontrolled spread of ragweed!

20230509 Polleninformation Logo Web 01

Published in Current projects
(c) by Citree
Wednesday, 03 June 2020

Citree

With the Citizen Science Project "CITREE" a crowdsourcing instrument for monitoring the growth of urban trees, will be developed and used. It builds on the "Sparkling Science" project "Woody Woodpecker", which deals with the growth, structure and function of wood.

Urban trees fulfill a variety of functions, such as improving the microclimate and air, noise protection or the design of public spaces. Monitoring of urban trees is important because climate change leads to an intensification of stress on the trees. In cities, trees are exposed to extreme heat and drought and are additionally affected by other stress factors such as pollutant emissions, limited root space, salt stress or pest infestation. Therefore, trees in cities are "living laboratories" that allow analyses of stress mechanisms and estimates of future developments. CITREE is intended to provide a tool for monitoring urban trees and thus create a bridge between citizens and their trees: On the one hand citizens can participate in the monitoring process, on the other hand they can see and learn how their trees grow. This feedback will also be used to present the work of public institutions (e.g. city nurseries) and will enable school projects on urban trees and urban ecology.

DSC 0176 (c) CITREE

CITREE is based on easy to install and cheap band-dendrometers, with which the trunk circumference and thus the growth can be measured. Dendrometers installed on urban trees are read by citizens who have access to the CITREE database via QR code and smartphone. The CITREE database collects the growth data of all trees and makes it available to involved citizens, the public, public institutions and researchers.

SKETCHendversion

The main work packages of the project are:

  1. Selection/modification of suitable dendrometers
  2. Development of an installation system
  3. Development of the CITREE database
  4. Test and optimization of the developed systems under urban conditions
  5. Data analysis and
  6. Installation of the systems in Austrian cities.

The project will be carried out at the Institute of Botany, University of Innsbruck and will benefit from the long experience in the field of science communication of the PI (Stefan Mayr) and his staff. The development of the CITREE database is carried out in cooperation with the University of Ghent and the company Phyto-IT, Belgium. A cooperation with the School of Education, University of Innsbruck serves the didactical optimization. For the installation in Austrian cities, city nurseries and researchers will be contacted to collect a first broader data set on the growth of urban trees. In the long term, CITREE is to be further developed into CITREE-EU, thus enabling a monitoring network in European cities.

Tasks and roles in the project:

  • Citizen Scientists:enter the numbers read from the dendrometer and receive a graphical display of the calculated tree diameter including the previous history.
  • Tree patrons: Select trees, install dendrometers according to instructions, collect information on the location and condition of these trees. Can download the records of the database.
  • Research assistants: handle special cases (resetting dendrometer, removing obvious mismeasurements...), tracking patterns of growth, vandalism, etc.
  • IT-assistant: Creating new trees in the database and on the homepage

If you have any questions about the project, or are interested in participating in the project, please write to This email address is being protected from spambots. You need JavaScript enabled to view it..

Published in Current projects
Foto Zoomspiel Wiese (c) by Lacon
Wednesday, 03 June 2020

Nature conservation monitoring

We take care of our meadows and alpine pastures!

For more than a decade, hundreds of farmers have been saying "We look at our meadows and alpine pastures!".

The regular observations of the more than 700 participants impressively show that on more than 80 % of the monitoring plots in extensive grassland the number of individuals of the species observed has remained the same or even increased.

By observing the animals and plants every year, the perspective with which the farmers perceive their meadow changes and a process of more conscious action is set in motion.

Background

In monitoring extensive grassland, participants look at which management practices promote or inhibit the occurrence of individual plant and animal species.

The Austria-wide observations of plant and animal diversity provide new insights into the benefits of management in extensive grassland. (By extensive grassland we mean species-rich meadows that are mowed a maximum of two to three times a year or not at all or only slightly fertilized and gentle grazing.)

The species-rich grassland has been displaced by a frightening 90% since the 1960s due to structural changes in agriculture and land use change! The last occurrences of colorful flower meadows are therefore landscapes with a high number of species and important retreat areas for plant and animal diversity in Austria!

By regularly observing the development of indicator species, the meaning of different agri-environmental measures (ÖPUL) such as contractual nature conservation, organic farming (BIO) and environmentally friendly and biodiversity-promoting management (UBB) is made understandable and it is observed at farm level whether agricultural subsidies also have an effect on the area.

The nature conservation monitoring will show which type of management is well suited for the type of meadow under consideration and therefore leads to safe stocks of the observed indicator species. As a result, management requirements can be better evaluated on the basis of feedback from farmers and funding can be awarded in a targeted manner.

Participate

All farmers with (potentially) extensive meadows and pastures who take part in the agri-environmental measure ÖPUL “Organic farming (BIO)” or “Environmentally friendly and biodiversity-promoting management (UBB)” can take part. At the beginning there is an enrollment by an ecologist. It is agreed which indicator species are to be observed and counted annually. The participants then document the indicator species and the management of the meadow every year and enter the data on the online platform www.naturschutzmonitoring.at.

Project duration: until 2029

Information on participation:

  • Hotline: +43 677 643 130 71
  • Mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

Quotations of participants

„This year I deliberately left a patch of rambling bellflowers so that they could sow seeds. Now I am already curious whether they will be more next year!“

„This project is going places. My son wanted to reforest our rough pasture some time ago, because the fodder is worth nothing and mowing takes a lot of time. Since your expert showed him that there are a lot of rare animals and plants living in it, he hasn't said anything about it. He even helps me counting now.“

„What makes me particularly happy is that for once it is not about control or money, but about seeing and appreciating the beautiful aspects of our work.“

You can also follow the ÖKL on FacebookInstagram and YouTube for further information.

Project management

Barbara Steurer
Österreichisches Kuratorium für Landtechnik und Landentwicklung (ÖKL)
Gußhausstraße 6
1040 Wien, Austria
www.oekl.at

Published in Current projects
Gämsheide (c) by Christina Schwann

This project of the Austrian Alpine Association - a biodiversity monitoring above the timberline - increases our knowledge about alpine animal and plant species, their habitats and about the interrelationships of our actions and the effects on this sensitive living environment. The collected data on the 20 animal and plant species contribute to scientific questions on biodiversity in the Alps.

Message

Which animals live and which plants grow in our mountains? Within the framework of "Vielfalt bewegt! Alpenverein from young to old" the Austrian Alpine Club investigates the most elevated habitats in Austria - a project for mountain enthusiasts and everyone who wants to become one!

This project overseen by the Austrian Alpine Club is planned as a long-term study and should contribute to the preservation and promotion of biological diversity in the Alps. Biodiversity monitoring in the highest habitats in Austria is intended to inspire people with an affinity for the mountains.

Like all citizen science projects, this project also depends on its voluntary helpers, who observe typical animal and plant species of the Alpine region over a longer period of time and condense and pass on their knowledge about the Alpine habitat.

Aims of the project

The purpose of monitoring is to develop appropriate measures on the basis of the knowledge gathered, which can reduce the decline of species and secure or improve habitats for endangered species in the long term. The consequences of climate change (migration of some species to higher regions or changes in food resources) can also be demonstrated in this way. On the one hand, distribution maps are to be generated to provide information on the occurrence of the individual species and, on the other hand, the data are to be made available for publications etc. on request.

The project offers mountaineers the opportunity to experience nature consciously and attentively again in contrast to summit attempt and pressure to perform.

The project "Vielfalt bewegt! Alpenverein from young to old" provides knowledge about alpine species and the connections to the conservation of biological diversity in alpine habitats in an age-appropriate form for children, youths, parents and grandparents. The pillar for the long-term continuation of the project idea is the intergenerational exchange about nature, its habitats and species. Parents and grandparents become multipliers. In the course of this, cooperation with "Alpenvereinsjugend", which has been active in education for sustainable development for a long time, is also strengthened.

Procedure

Different indicator species, which have their habitat above the forest line, were selected on the basis of various criteria  - including alpine ptarmigan, mountain avens, oak spider or mountain azalea.

Observations are made at any time and on any hike, as the whim takes you!

Compact identification guides for the selected plants and animals should make it easier for the observers to track down the species during their hikes. Exciting and informative stories serve as a reminder. Data from nature observation, such as geographical location, altitude, weather or a description of the habitat of the indicator species, can then be entered in clearly structured questionnaires. As a matter of principle, observations are only made along existing hiking trails in order to conserve flora and fauna. 

To make monitoring a little easier, a handy mapping guide was designed that can easily be taken into the field in addition to the 20 revised identification guides. In the mapping guide, the monitoring is briefly introduced again and it is explained where, how and when the 20 species sought can best and most easily be found. Selected identification sheets as well as the mapping instructions can be downloaded at the bottom of this page. A continuously updated distribution map can be seen here. The nature diary presents 20 animal and plant species that are typical for the Alpine region and also describes many helpful tips and tricks for observing them.

To record the observations, you can either use the web portal "Diversity moves, Alpine Association" or the app of the project. You can take photos directly with your smartphone; your location is automatically determined by the GPS transmitter. This way, if the internet connection is up and running, the observation can be transmitted directly to the web portal. If there is no reception, the data is saved locally in the app and sent to the web portal as soon as a connection can be found again.

How can you participate?

To take part in "Diversity moves! Alpine Club from Young to Old", you can register for the project via the registration form on the website. As soon as the registration is completed, you will receive a confirmation from the project team and can get started right away.

Memo Game

Within the project "Diversity moves! Alpine Club from Young to Old" (Biodiversity Monitoring), a beautiful memo game with 32 pairs of cards has been created. The drawn illustrations show different alpine animal and plant species that have their habitat above the timberline. In the enclosed booklet, in addition to the game instructions, all species are explained and their special characteristics highlighted. Sustainably packaged in a handy cotton bag, the game takes up hardly any space.

Foto Memo klein

© Birgit Kantner

With the support of the federal government and the European Union within the framework of the implementation of the Austrian Programme for Rural Development 2014-2020.

Published in Project archive
CC BY Elisabeth Ziss
Tuesday, 02 June 2020

Heavy Metal City-Zen

We invite urban community gardens, garden projects or similar garden initiatives to take part in this project and research alongside us. The goal of this project is to scientifically assess the potential risk of heavy metal contamination in crop plants in Vienna’s city gardens.

Background

Urban gardening has become increasingly popular over the last two decades. However, gardeners are often concerned about their crops being contaminated by heavy metals.

Plant access to heavy metals is strongly influenced by the soil properties and the plants being cultivated. Through targeted soil management, it is possible to reduce the likelihood of heavy metals transferring to plants.

We want to learn whether the heavy metal content in plants grown in one variant (e.g. a mix with compost) differs from that of plants grown in a control variant (untreated urban soil).

How do we want to test this?

We need you for this! Become a citizen scientist and conduct a “pan test” in your urban garden with spinach and/or radishes. Plant and soil samples will be collected from these tests and an analysis for heavy metals will then be carried out in our laboratory.

The entire gardening community will benefit from involvement in this project. Together, we can collect the following information about the location of the garden:

  • Whether and to what extent your garden is polluted by heavy metals.
  • If there is contamination, whether the transfer of these heavy metals to plants can be reduced by selected soil treatments.
  • In addition, we will also work with you on site to determine soil and plant parameters, such as pH values, soil microbial activity and plant vitality. Through this, you can also receive more information about the condition of the soil on site and your soil treatment.

More information on the Heavy Metal City-Zen project can be found on the website.

Who can take part in the Heavy Metal City-Zen project?

  • People who are involved in a community garden, garden project or similiar garden initiative.
  • These gardens are in Vienna or an urban area surrounding Vienna.

What do I need to do to take part in the project?

Just send us an e-mail stating that you are interested in participating to: This email address is being protected from spambots. You need JavaScript enabled to view it.

Project results

The results from the project are presented in the corresponding blog post (in German).

 

Project management: Andrea Watzinger –  This email address is being protected from spambots. You need JavaScript enabled to view it.
Scientific project management: Rebecca Hood-Nowotny –  This email address is being protected from spambots. You need JavaScript enabled to view it.

Institute of Soil Research
Department of Forest and Soil Sciences
University of Natural Resources and Life Sciences, Vienna
Konrad-Lorenz-Strasse 24 | 3430 Tulln

For updates, please follow us on Facebook and Twitter.

The project was funded by the Austrian Science Fund (FWF).

fwf logo var2

Published in Project archive
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