2025, Lopes-Lima, Manuel, Aldridge, David C., Álvarez, María G., Araujo, Rafael, Barea-Azcón, José Miguel, Bikashvili, Ani, Bragado, Dolores, Bylyna, Lilia, Carlevaro, Anna, Černecký, Ján, Cherot, Frédéric, Cichy, Anna, Collas, Frank, Csányi, Béla, Douda, Karel, Ercoli, Fabio, Fehér, Zoltán, Ferreira-Rodríguez, Noé, Froufe, Elsa, Geist, Juergen, Gil, Maria G., Gołdyn, Bartłomiej, Golski, Janusz Lech, Gomes-dos-Santos, André, Gumpinger, Clemens, Halabowski, Dariusz, Harbar, Olexander, Kamocki, Andrzej, Karaouzas, Ioannis, Labecka, Anna Maria, Lajtner, Jasna, Larsen, Bjørn Mejdell, Lavictoire, Louise, Lewin, Iga, Lipinskaya, Tatsiana, Madeira, M. José, Magerøy, Jon H., Moorkens, Evelyn, Morales, Javier, Motte, Grégory, Mumladze, Levan, Nakamura, Keiko, Ondina, Paz, Österling, Martin, Outeiro, Adolfo, Ożgo, Małgorzata, Patzner, Robert A., Paunovic, Momir, Pereira, Joana, Petkevičiūtė, Romualda, Prié, Vincent, Reis, Joaquim, Riccardi, Nicoletta, Richling, Ira, Romero, Rafael, Sablon, Rose, Sandaas, Kjell, Severijns, Nathal, Shevchuk, Larysa, Sîrbu, Ioan, Skawina, Aleksandra, Son, Mikhail O., Sousa, Ronaldo, Spikkeland, Ingvar, Stanevičiūtė, Gražina, Stanicka, Anna, Stöckl, Katharina, Stunżėnas, Virmantas, Taskinen, Jouni, Teixeira, Amílcar, Thielen, Frankie, Timm, Henn, Todorov, Milcho, Tomović, Jelena, Tończyk, Grzegorz, Trichkova, Teodora, Urbanič, Gorazd, Urbańska, Maria, Väinölä, Risto, Varandas, Simone, Vercauteren, Thierry, Vicentini, Heinrich, Zając, Katarzyna, Zając, Tadeusz

2025, Deng, Binglin, Riccardi, Nicoletta, Urbańska, Maria, Marjomäki, Timo J., Andrzejewski, Wojciech, Taskinen, Jouni

AbstractThe Enemy Release Hypothesis (ERH) proposes that the success of bioinvasions is attributable to lower enemy pressure on invasive species compared to native ones, giving a competitive advantage for invaders. In line with the hypothesis, we previously observed in northern European bodies of fresh water that invasive bivalves were subject to lower parasite pressure than sympatric native mussels. Here, we investigated ERH in three southern European lakes, where the native mussels are rapidly declining and being replaced by non-native bivalves. In total, 679 bivalves (n of individuals per species per lake varying from 12 to 187) were collected during 2016–2018. Ten parasite taxa were found. The mean lake-specific number of parasite taxa in the native mussels (Anodonta exulcerata, A. cygnea, A. anatina and Unio elongatulus) was 2.6 times that in the invasive bivalves (Dreissena polymorpha, Corbicula fluminea and Sinanodonta woodiana). Similarly, the mean lake-specific sum of prevalences of infection by different parasite taxa in the native mussels was 3.4 times that in the invasive bivalves. Notable was the complete lack of parasites in C. fluminea. Thus, the results supported the Enemy Release Hypothesis and were in accordance with previous results from northern Europe, suggesting, on average, a lower parasite pressure in invasive bivalves than in sympatric native mussels. As parasites are usually harmful, this may contribute to the observed successful invasion of non-native freshwater bivalves in Europe.

2023, Ferreira-Rodríguez, Noé, Beggel, Sebastian, Geist, Juergen P., Modesto, Vanessa, Österling, Martin, Riccardi, Nicoletta, Sousa, Ronaldo, Urbańska, Maria

2023, Sousa, Ronaldo, Zając, Tadeusz, Halabowski, Dariusz, Aksenova, Olga V., Bespalaya, Yulia V., Carvalho, Francisco, Castro, Paulo, Douda, Karel, da Silva, Janine P., Ferreira‐Rodríguez, Noé, Geist, Juergen, Gumpinger, Clemens, Labecka, Anna M., Lajtner, Jasna, Lewin, Iga, Lopes‐Lima, Manuel, Meira, Alexandra, Nakamura, Keiko, Nogueira, Joana Garrido, Ondina, Paz, Ożgo, Małgorzata, Reis, Joaquim, Riccardi, Nicoletta, Shumka, Spase, Son, Mikhail O., Teixeira, Amílcar, Thielen, Frankie, Urbańska, Maria, Varandas, Simone, Wengström, Niklas, Zając, Katarzyna, Zieritz, Alexandra, Aldridge, David C.

AbstractEurope has a long history of human pressure on freshwater ecosystems. As pressure continues to grow and new threats emerge, there is an urgent need for conservation of freshwater biodiversity and its ecosystem services. However, whilst some taxonomic groups, mainly vertebrates, have received a disproportionate amount of attention and funds, other groups remain largely off the public and scientific radar. Freshwater mussels (Bivalvia, Unionida) are an alarming example of this conservation bias and here we point out six conceptual areas that need immediate and long‐term attention: knowledge, threats, socioeconomics, conservation, governance and education. The proposed roadmap aims to advance research, policy and education by identifying the most pressing priorities for the short‐ and long‐term conservation of freshwater mussels across Europe.

2025, Zieritz, Alexandra, Brian, Joshua I., Sousa, Ronaldo, Aldridge, David C., Atkinson, Carla L., Douda, Karel, Vaughn, Caryn, Bespalaya, Yulia, Richmond, Tabitha, Ćmiel, Adam M., Crisp, Alma, Dobler, Andreas H., Ercoli, Fabio, Esteves, Eduardo, Ferreira‐Rodríquez, Noé, Geist, Juergen, González, Irene Sánchez, Halabowski, Dariusz, Hoos, Philipp, Hopper, Garrett W., Hyvärinen, Heini, Ilarri, Martina, Lewin, Iga, Lipińska, Anna M., Mageroy, Jon H., Nizzoli, Daniele, Ollard, Isobel, Österling, Martin, Riccardi, Nicoletta, Rock, Sebastian L., Sjönberg, Tuomo, Taskinen, Jouni, Urbanič, Gorazd, Urbańska, Maria, Yu, Qingqing, Vaz, Ana Sofia

AbstractFreshwater bivalves are globally distributed, diverse, and common in benthic communities. Many taxa, particularly in the most species‐rich order, Unionida, are declining due to anthropogenic stressors, while a small number of non‐native species have become increasingly abundant and widespread, commonly replacing native bivalve assemblages. To understand how these global changes may impact ecosystems and people, we conducted a meta‐analysis of existing literature quantifying the ecological functions (= supporting or intermediate ecosystem services) and regulating ecosystem services of freshwater bivalves (hereafter “ecosystem services”). Random effects meta‐analysis modeling across 447 case studies revealed a positive effect on human health, safety, or comfort of freshwater bivalve ecosystem services overall and specifically, via effects on native macrofauna, microorganisms, wastes, and pollutants, and the physico‐chemical condition or quantity of sediments. Generally, effects of native species and species within the orders Unionida and Venerida were more significant and positive than those of other freshwater bivalves. No significant overall effect was found for ecosystem services related to zooplankton, algae, invasive species, and the physico‐chemical condition of ambient water. Moreover, a significant bias toward publication of positive results existed for studies quantifying ecosystem services related to algae. These findings illustrate the global importance of the ecosystem services of freshwater bivalves and highlight the need for large‐scale conservation and restoration efforts for their species and populations globally, including those of common species. Our findings also question common assumptions of strong and ubiquitous effects of freshwater bivalves on algae and water condition, cautioning against extrapolating observations across systems.

2025, Deng, Binglin, Riccardi, Nicoletta, Nie, Pin, Urbańska, Maria, Marjomäki, Timo J., Andrzejewski, Wojciech, Ożgo, Małgorzata, Nakamura, Keiko, Taskinen, Jouni

Invasive freshwater bivalves harm native species, ecosystems and biodiversity, and incur economic costs. The enemy release hypothesis posits that invasive species are released from enemies during the invasion process, giving them a competitive advantage in the new environment. We compared parasitism in two invasive freshwater bivalves, Sinanodonta woodiana and Corbicula fluminea between their original range (China) and invaded range (Europe). For S. woodiana , the average sample‐size‐standardized population‐specific parasite taxon richness was 2.1 times as high, and sum of prevalence was 3.0 times as high in the native range (3 populations, 81 individuals studied) as in the invaded range (6 populations, 210 individuals studied). For C. fluminea , the average standardized population‐specific parasite taxon richness was 1.3 and sum of prevalences was 27.5 in the native range (4 populations, 749 individuals studied), whereas all European C. fluminea were free of parasites (7 populations, 418 individuals studied). The results demonstrate loss of parasites as a result of invasion. Previous studies have shown that parasite pressure on S. woodiana and C. fluminea in the invaded range in Europe is, on average, lower than on sympatric native freshwater mussel populations. Together, these results support one aspect of the enemy release hypothesis: invasive bivalves experience reduced parasite loads as a result of invasion, which may contribute to their success, given the costs typically imposed by parasitism.