Climate change is predicted to drive geographical range shifts that will result in changes in species diversity and functional composition and have potential repercussions for ecosystem functioning. However, the effect of these changes on species composition and functional diversity (FD) remains unclear, especially for mammals, specifically bats. We used species distribution models and a comprehensive ecological and morphometrical trait database to estimate how projected future climate and land-use changes could influence the distribution, composition, and FD of the European bat community. Future bat assemblages were predicted to undergo substantial shifts in geographic range and trait structure. Range suitability decreased substantially in southern Europe and increased in northern latitudes. Our findings highlight the potential for climate change to drive shifts in bat FD, which has implications for ecosystem function and resilience at a continental scale. It is important to incorporate FD in conservation strategies. These efforts should target species with key functional traits predicted to be lost and areas expected to experience losses in FD. Conservation strategies should include habitat and roost protection, enhancing landscape connectivity, and international monitoring to preserve bat populations and their ecosystem services.
Changes in community composition and functional diversity of European bats under climate change / Fialas, Penelope C.; Santini, Luca; Russo, Danilo; Amorim, Francisco; Rebelo, Hugo; Novella‐fernandez, Roberto; Marques, Francisco; Domer, Adi; Vella, Adriana; Martinoli, Adriano; Figurek, Aleksandra; Tsoar, Asaf; Sandor, Attila; Ibanez, Carlos; Korine, Carmi; Kerbiriou, Christian; Voigt, Christian; Mifsud, Claire; Jére, Csaba; Ridha, Dalhoumi; Preatoni, Damiano; Hamidović, Daniela; Tidenberg, Eeva‐maria; Çoraman, Emrah; Mathews, Fiona; Lison, Fulgencio; Joanna, Furmankiewicz; Petersons, Gunars; Loumassine, Hiba; Garin, Inazio; Csősz, István; Liira, Jaan; Juste, Javier; Julien, Jean François; Van Der Kooij, Jeroen; Darija, Josić; Aihartza, Joxerra; Eldegard, Katrine; Phelps, Kendra; Olival, Kevin J.; Marina, Kipson; Ancillotto, Leonardo; Grzegorz, Lesiński; Barti, Levente; Salazar, Lisette Cantú; Bosso, Luciano; Rodrigues, Luisa; Hamel, Luke; Uhrin, Marcel; Mas, Maria; Cerekovic, Natasa; Toshkova, Nia; Roche, Niamh; Kalda, Oliver; Aizpurua, Ostaizka; Georgiakakis, Panagiotis; Kanuch, Peter; Presetnik, Primož; Bilgin, Rasit; Mckay, Reed April; Dina, Rnjak; Goran, Rnjak; Ireneusz, Ruczyński; Sørås, Rune; Robert, Solène; Aulagnier, Stéphane; Kramer‐schadt, Stephanie; Gazaryan, Suren; Bücs, Szilárd‐lehel; Yorulmaz, Tarkan; Stjernberg, Torsten; Liukko, Ulla‐maija; Nistreanu, Victoria; Vintulis, Viesturs; Radchuk, Viktoriia; Puig‐montserrat, Xavier; Bas, Yves; Zagmajster, Maja; Zegarek, Marcin; Vida, Zrnčić; Razgour, Orly. - In: CONSERVATION BIOLOGY. - ISSN 0888-8892. - (2025). [10.1111/cobi.70025]
Changes in community composition and functional diversity of European bats under climate change
Santini, LucaSecondo
Conceptualization
;
2025
Abstract
Climate change is predicted to drive geographical range shifts that will result in changes in species diversity and functional composition and have potential repercussions for ecosystem functioning. However, the effect of these changes on species composition and functional diversity (FD) remains unclear, especially for mammals, specifically bats. We used species distribution models and a comprehensive ecological and morphometrical trait database to estimate how projected future climate and land-use changes could influence the distribution, composition, and FD of the European bat community. Future bat assemblages were predicted to undergo substantial shifts in geographic range and trait structure. Range suitability decreased substantially in southern Europe and increased in northern latitudes. Our findings highlight the potential for climate change to drive shifts in bat FD, which has implications for ecosystem function and resilience at a continental scale. It is important to incorporate FD in conservation strategies. These efforts should target species with key functional traits predicted to be lost and areas expected to experience losses in FD. Conservation strategies should include habitat and roost protection, enhancing landscape connectivity, and international monitoring to preserve bat populations and their ecosystem services.| File | Dimensione | Formato | |
|---|---|---|---|
|
Fialas_Changes_2025.pdf
accesso aperto
Tipologia:
Versione editoriale (versione pubblicata con il layout dell'editore)
Licenza:
Creative commons
Dimensione
1.8 MB
Formato
Adobe PDF
|
1.8 MB | Adobe PDF |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
