Authors
Jonathan F Jupke, Sebastian Birk, Apostolos Apostolou, Jukka Aroviita, Annette Baattrup-Pedersen, Peter Baláži, Libuše Barešová, Saúl Blanco, María Borrego-Ramos, Herman van Dam, Elias Dimitriou, Christian K Feld, Maria Teresa Ferreira, Gana Gecheva, Joan Gomà, Nikola Hanžek, Ida Marie Haslev, Tsvetelina Isheva, Aurélien Jamoneau, Jenny Jyrkänkallio-Mikkola, Maria Kahlert, Ioannis Karaouzas, Satu Maaria Karjalainen, Adriana Olenici, Piotr Panek, Petr Paril, Edwin THM Peeters, Marek Polášek, Didier Pont, Audrone Pumputyte, Leonard Sandin, Lucia Sochuliaková, Janne Soininen, Igor Stanković, Michal Straka, Mirela Šušnjara, Tapio Sutela, Juliette Tison-Rosebery, Marija Gligora Udovič, Michiel Verhofstad, Petar Žutinić, Ralf B Schäfer
Publication date
2023/10/20
Journal
Science of the Total Environment
Volume
896
Pages
165081
Publisher
Elsevier
Description
Typology systems are frequently used in applied and fundamental ecology and are relevant for environmental monitoring and conservation. They aggregate ecosystems into discrete types based on biotic and abiotic variables, assuming that ecosystems of the same type are more alike than ecosystems of different types with regard to a specific property of interest. We evaluated whether this assumption is met by the Broad River Types (BRT), a recently proposed European river typology system, that classifies river segments based on abiotic variables, when it is used to group biological communities. We compiled data on the community composition of diatoms, fishes, and aquatic macrophytes throughout Europe and evaluated whether the composition is more similar in site groups with the same river type than in site groups of different river types using analysis of similarities, classification strength, typical species …
Total citations
20242
Scholar articles
JF Jupke, S Birk, A Apostolou, J Aroviita… - Science of the Total Environment, 2023