CARPINO CARpaneda for Participation, InclusioN and Observation of biodiversity change
Authors/Creators
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1.
Ca' Foscari University of Venice
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2.
University of Padua
Description
In September 2024, a community science initiative was held within the project CARPINO (CARpaneda for Participation, InclusioN and Observation of biodiversity change) funded by the program Impetus for Citizen Science. The activities involved 19 participants in assessing the status of biodiversity, soil, and water quality in the area of Carpaneda, Vicenza, Italy. The activities, organized by a team of 7 scientist-activists, aimed to raise awareness among participants about the environmental health of the Carpaneda area, collecting data for future studies and for dialogue with local institutions.
The first day workshop focused on theoretical training about the socio-environmental context and monitoring methodologies. Participants received training on data collection and analysis techniques, focusing on soil, water, plants, and pollinators. On the following two days, participants carried out field sampling, collecting soil and water samples and monitoring plant and insect life, especially pollinators. Tools such as colorimetric kits, turbidity meters, and apps for species identification were used. The third day was dedicated to the preliminary analysis of the collected data, which was then presented in a final meeting. The data gathered, including soil and water quality indicators, will provide a foundation for the ecological management of the area.
The files summarize the data collected for the environmental matrices that were considered.
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CARPINO CARpaneda for Participation, InclusioN and Observation of biodiversity change is co-funded under the IMPETUS project, itself funded by the European Union's Horizon Europe program and implemented by King's College London, Ars Electronica, EUSEA, Nesta, Science for Change, T6 Ecosystems srl, Zabala Innovation Consulting.
It is produced by La Piccionaia in collaboration with LIES Laboratory of Economic and Social Inquiry, VeZ Veneto Ecology Z Generation, Rooted Science, Rural Spaces and Urban Woods Laboratory, Vicentina Community for Agroecology, Cascina Carpaneda Common Good Assembly, Iuav University of Venice and AISO Italian Association of Oral History.
Files
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Additional details
Dates
- Copyrighted
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2024-12
References
- Shepherd, G. (2000). Visual soil assessment: field guide for cropping. https://organic-farmknowledge.org/tool/30582
- Assessment, F. V. S. (2008). Field Guides. FAO: Rome, Italy. https://www.fao.org/4/i0007e/i0007e01.pdf
- Miguel-Chinchilla, L., Heasley, E., Loiselle, S. and Thornhill, I., 2019. Local and landscape influences on turbidity in urban streams: a global approach using citizen scientists. Freshwater Science, 38(2), pp.303-320. https://researchspace.bathspa.ac.uk/11994/
- Pollard, E. (1977). A method for assessing changes in the abundance of butterflies. Biological conservation, 12(2), 115-134. https://doi.org/10.1016/0006-3207(77)90065-9
- Hegland, S. J., & Totland, Ø. (2005). Relationships between species' floral traits and pollinator visitation in a temperate grassland. Oecologia, 145, 586-594. https://doi.org/10.1007/s00442-005-0165-6
- Kraus, D., Bütler, R., Krumm, F., Lachat, T., Larrieu, L., Mergner, U., Paillet, Y., Rydkvist, T., Schuck, A., and Winter, S., 2016. Catalogo dei microhabitat degli alberi - Elenco di riferimento da campo. Integrate+ Documento Tecnico 13. 16p. DOI: 10.13140/RG.2.2.16984.60165
- Rita Bütler, Thibault Lachat, Frank Krumm, Daniel Kraus, Laurent Larrieu (2022) Guida da campo ai dendromicrohabitat. https://www.wsl.ch/it/pubblicazioni/guida-da-campo-ai-dendromicrohabitat/
- Bütler R., Lachat T., Krumm F., Kraus D., Larrieu L. (2021) Know, protect and promote habitat trees. WSL Fact sheet 64. Birmensdorf: Swiss Federal Institute WSL. 12 p. https://www.waldwissen.net/en/forest-ecology/nature-conservation/know-protect-and-promote-habitat-trees
- Goodburn, J.M., Lorimer, C.G., 1998. Cavity trees and coarse woody debris in old-growth and managed northern hardwood forests in Wisconsin and Michigan. Can. J. For. Res. 28, 427–438. htps://doi.org/10.1139/x98-014
- Brunet, J., Isacsson, G., 2009. Influence of snag characteristics on saproxylic beetle assemblages in a south Swedish beech forest. J. Insect Conserv. 13, 515–528. https://doi.org/10.1007/s10841-008-9200-3
- Hegarty, S., Hayes, A., Regan, F., Bishop, I.J., and Clinton, R., 2021 Using citizen science to understand river water quality while filling data gaps to meet United Nations Sustainable Development Goal 6 objectives. Science of the Total Environment, Volume 783. https://doi.org/10.1016/j.scitotenv.2021.146953
- Freshwater Watch. https://www.freshwaterwatch.org/pages/explore-our-data