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2. Impacts of diffuse urban stressors on stream benthic communities and ecosystem functioning: A review

Author

Colls, Miriam, Viza, Aida, Zufiarre, Aitziber, Camacho-Santamans, Alba, Laini, Alex, Gonzalez-Ferreras, Alexia Maria, Filipe, Ana Filipa, Perez-Calpe, Ana Victoria, Freixa, Anna, Lupon, Anna, Santamans, Anna C., Pradhan, Arunava, Espinosa, Carmen, Vera-Trujillo, Carmen, Gutierrez-Canovas, Cayetano, Mendoza-Lera, Clara, Bruno, Daniel, Mercado-Bettin, Daniel, Morant, Daniel, Batista, Daniela, Cunillera-Montcusi, David, Graca, Diana, Vico-Oton, Eduard, Estevez, Edurne, Leon-Palmero, Elizabeth, Suarez, Ena Lucia, Fenoy, Encarnacion, Lima, Eva, Picazo, Felix, Oficialdegui, Francisco J., Keck, Francois, Gionchetta, Giulia, Sabas, Ibor, Perez-Silos, Ignacio, Antunes, Ilisa, Alvarez-Manzaneda, Inmaculada, de Guzman, Ioar, Fernandes, Isabel, da Silva, Janine Pereira, Wei, Jing, Montes-Perez, Jorge Juan, Trabulo, Jose, Ledesma, Jose L. J., Fernandez-Calero, Jose Maria, Ramiao, Jose Pedro, Rubio-Rios, Juan, Gonzalez-Trujillo, Juan David, Barral-Fraga, Laura, Jimenez, Laura, Vendrell-Puigmitja, Lidia, Bertrans, Lluis, Gomez-Gener, Lluis, Rovelli, Lorenzo, Bistarelli, Lukas Thuile, Sanchez-Morales, Marc, Cabrerizo, Marco J., Aranguren-Gassis, Maria, Argudo, Maria, Navarro-Ramos, Maria J., Atristain, Miren, Lopez-Rojo, Naiara, Valiente, Nicolas, Perujo, Nuria, Pereda, Olatz, Llanos-Paez, Oriana, Belmar, Oscar, Tascon-Pena, Osvaldo, Rodriguez-Lozano, Pablo, de Pedro, Raquel Sanchez, Arias-Real, Rebeca, Bolpagni, Rossano, del Campo, Ruben, Poblador, Silvia, Guareschi, Simone, Hilgert, Stephan, Duarte, Sofia, Rodriguez-Castillo, Tamara, Chonova, Teofana, Conejo-Orosa, Teresa, Cespedes, Vanessa, Granados, Veronica, Osorio, Victor, Vazquez, Victor, Martin-Velez, Victor, Romero, Ferran, Colls, Miriam, Viza, Aida, Zufiarre, Aitziber, Camacho-Santamans, Alba, Laini, Alex, Gonzalez-Ferreras, Alexia Maria, Filipe, Ana Filipa, Perez-Calpe, Ana Victoria, Freixa, Anna, Lupon, Anna, Santamans, Anna C., Pradhan, Arunava, Espinosa, Carmen, Vera-Trujillo, Carmen, Gutierrez-Canovas, Cayetano, Mendoza-Lera, Clara, Bruno, Daniel, Mercado-Bettin, Daniel, Morant, Daniel, Batista, Daniela, Cunillera-Montcusi, David, Graca, Diana, Vico-Oton, Eduard, Estevez, Edurne, Leon-Palmero, Elizabeth, Suarez, Ena Lucia, Fenoy, Encarnacion, Lima, Eva, Picazo, Felix, Oficialdegui, Francisco J., Keck, Francois, Gionchetta, Giulia, Sabas, Ibor, Perez-Silos, Ignacio, Antunes, Ilisa, Alvarez-Manzaneda, Inmaculada, de Guzman, Ioar, Fernandes, Isabel, da Silva, Janine Pereira, Wei, Jing, Montes-Perez, Jorge Juan, Trabulo, Jose, Ledesma, Jose L. J., Fernandez-Calero, Jose Maria, Ramiao, Jose Pedro, Rubio-Rios, Juan, Gonzalez-Trujillo, Juan David, Barral-Fraga, Laura, Jimenez, Laura, Vendrell-Puigmitja, Lidia, Bertrans, Lluis, Gomez-Gener, Lluis, Rovelli, Lorenzo, Bistarelli, Lukas Thuile, Sanchez-Morales, Marc, Cabrerizo, Marco J., Aranguren-Gassis, Maria, Argudo, Maria, Navarro-Ramos, Maria J., Atristain, Miren, Lopez-Rojo, Naiara, Valiente, Nicolas, Perujo, Nuria, Pereda, Olatz, Llanos-Paez, Oriana, Belmar, Oscar, Tascon-Pena, Osvaldo, Rodriguez-Lozano, Pablo, de Pedro, Raquel Sanchez, Arias-Real, Rebeca, Bolpagni, Rossano, del Campo, Ruben, Poblador, Silvia, Guareschi, Simone, Hilgert, Stephan, Duarte, Sofia, Rodriguez-Castillo, Tamara, Chonova, Teofana, Conejo-Orosa, Teresa, Cespedes, Vanessa, Granados, Veronica, Osorio, Victor, Vazquez, Victor, Martin-Velez, Victor, and Romero, Ferran

Abstract

Catchment urbanisation results in urban streams being exposed to a multitude of stressors. Notably, stressors originating from diffuse sources have received less attention than stressors originating from point sources. Here, advances related to diffuse urban stressors and their consequences for stream benthic communities are summarised by reviewing 92 articles. Based on the search criteria, the number of articles dealing with diffuse urban stressors in streams has been increasing, and most of them focused on North America, Europe, and China. Land use was the most common measure used to characterize diffuse stressor sources in urban streams (70.7 % of the articles characterised land use), and chemical stressors (inorganic nutrients, xenobiotics, metals, and water properties, including pH and conductivity) were more frequently reported than physical or biological stressors. A total of 53.3 % of the articles addressed the impact of urban stressors on macroinvertebrates, while 35.9 % focused on bacteria, 9.8 % on fungi, and 8.7 % on algae. Regarding ecosystem functions, almost half of the articles (43.5 %) addressed changes in community dynamics, 40.3 % addressed organic matter decomposition, and 33.9 % addressed nutrient cycling. When comparing urban and non-urban streams, the reviewed studies suggest that urbanisation negatively impacts the diversity of benthic organisms, leading to shifts in community composition. These changes imply functional degradation of streams. The results of the present review summarise the knowledge gained to date and identify its main gaps to help improve our understanding of urban streams.

Published
2024
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6. Water diversion and pollution interactively shape freshwater food webs through bottom‐up mechanisms.

Author

de Guzman, Ioar, Altieri, Paula, Elosegi, Arturo, Pérez‐Calpe, Ana Victoria, von Schiller, Daniel, González, Jose M., Brauns, Mario, Montoya, José M., and Larrañaga, Aitor

Subjects
*WATER diversion, *FOOD chains, *WATER pollution, *ECOSYSTEM management, *STABLE isotope analysis, *RIVER pollution
Abstract

Water diversion and pollution are two pervasive stressors in river ecosystems that often co‐occur. Individual effects of both stressors on basal resources available to stream communities have been described, with diversion reducing detritus standing stocks and pollution increasing biomass of primary producers. However, interactive effects of both stressors on the structure and trophic basis of food webs remain unknown. We hypothesized that the interaction between both stressors increases the contribution of the green pathway in stream food webs. Given the key role of the high‐quality, but less abundant, primary producers, we also hypothesized an increase in food web complexity with larger trophic diversity in the presence of water diversion and pollution. To test these hypotheses, we selected four rivers in a range of pollution subject to similar water diversion schemes, and we compared food webs upstream and downstream of the diversion. We characterized food webs by means of stable isotope analysis. Both stressors directly changed the availability of basal resources, with water diversion affecting the brown food web by decreasing detritus stocks, and pollution enhancing the green food web by promoting biofilm production. The propagation of the effects at the base of the food web to higher trophic levels differed between stressors. Water diversion had little effect on the structure of food webs, but pollution increased food chain length and trophic diversity, and reduced trophic redundancy. The effects at higher trophic levels were exacerbated when combining both stressors, as the relative contribution of biofilm to the stock of basal resources increased even further. Overall, we conclude that moderate pollution increases food web complexity and that the interaction with water abstraction seems to amplify this effect. Our study shows the importance of assessing the interaction between stressors to create predictive tools for a proper management of ecosystems. [ABSTRACT FROM AUTHOR]

Published
2022
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