Diversification of macrophytes within aquatic nature-based solutions (NBS) developing under urban environmental conditions across European cities
Type
Journal article
Language
English
Date issued
2025
Author
Debbaut, Robrecht
Carreira, Vladimíra Dekan
Karttunen, Krister
Lehti, Niko
Muñoz, Silvia Martin
Pereira, Ana Júlia
Pinho, Pedro
Schoelynck, Jonas
Staes, Jan
Tetzlaff, Doerthe
Warter, Maria Magdalena
Vierikko, Kati
Faculty
Wydział Inżynierii Środowiska i Inżynierii Mechanicznej
PBN discipline
environmental engineering, mining and energy
Journal
Ecological Indicators
ISSN
1470-160X
Volume
172
Number
March 2025
Pages from-to
art. 113331
Abstract (EN)
his article explores the diversification of macrophytes in aquatic nature-based solutions (NBS) under urban conditions across European cities, highlighting their role in enhancing climate resilience, biodiversity, and ecosystem quality. While aquatic NBS have been studied for engineering and social aspects, comprehensive biological analyses, particularly across geographical gradients, have been lacking. This research, part of the BiNatUr project, investigates macrophyte richness in aquatic NBS in five European cities: Belgium, Finland, Germany, Poland, and Portugal. The study involved 120 sites, with each city contributing 12 sites representing restored or constructed ponds and streams in both altered and natural states.
Surveys conducted used 10-meter quadrats to assess the abundance of macrophytes, which were identified to species level. The analysis included emergent, submerged, and floating plants, using Ellenberg indicator values (EIV) for ecological preferences related to light, temperature, continentality, moisture, pH, and nutrient levels. A total of 103 aquatic plant species were identified, with significant variability in species richness and abundance among the cities. Helsinki had the highest species richness, averaging 7.25 species per site, while Berlin had the lowest at 3.54 species per site. Macrophyte abundance was highest in Finland and Poland, with 44.8% and 35.7% coverage, respectively, and lowest in Germany at 12.2%.
Detrended Correspondence Analysis (DCA) highlighted significant differences in macrophyte community structures, with Lisbon showing a unique species composition.
The study underscores the diversity of macrophytes in urban aquatic NBS across Europe, emphasizing their value as biodiversity hotspots in urban settings. These findings provide crucial insights into macrophyte abundance, species richness, and ecological characteristics, contributing to the understanding of aquatic ecosystems under high stress in cities and informing conservation and urban planning initiatives
Surveys conducted used 10-meter quadrats to assess the abundance of macrophytes, which were identified to species level. The analysis included emergent, submerged, and floating plants, using Ellenberg indicator values (EIV) for ecological preferences related to light, temperature, continentality, moisture, pH, and nutrient levels. A total of 103 aquatic plant species were identified, with significant variability in species richness and abundance among the cities. Helsinki had the highest species richness, averaging 7.25 species per site, while Berlin had the lowest at 3.54 species per site. Macrophyte abundance was highest in Finland and Poland, with 44.8% and 35.7% coverage, respectively, and lowest in Germany at 12.2%.
Detrended Correspondence Analysis (DCA) highlighted significant differences in macrophyte community structures, with Lisbon showing a unique species composition.
The study underscores the diversity of macrophytes in urban aquatic NBS across Europe, emphasizing their value as biodiversity hotspots in urban settings. These findings provide crucial insights into macrophyte abundance, species richness, and ecological characteristics, contributing to the understanding of aquatic ecosystems under high stress in cities and informing conservation and urban planning initiatives
License
CC-BY-NC-ND - Attribution-NonCommercial-NoDerivatives
CC-BY-NC-ND - Attribution-NonCommercial-NoDerivatives Open access date
March 12, 2025