Kärvemo, Simon
- Department of Ecology, Swedish University of Agricultural Sciences
Research article2020Peer reviewedOpen access
Meurling, Sara; Kärvemo, Simon; Chondrelli, Niki; Cortazar-Chinarro, Maria; Åhlen, David; Brookes, Lola; Nyström, Per; Stenberg, Marika; Garner, Trenton W. J.; Höglund, Jacob; Laurila, Anssi
The chytrid fungus Batrachochytrium dendrobatidis (Bd) has caused worldwide declines in amphibian populations. While Bd is widespread in southern and central Europe, its occurrence and distribution in northernmost Europe is mostly unknown. We surveyed for Bd in breeding anurans in Sweden by sampling 1917 amphibians from 101 localities and 3 regions in Sweden (southern, northern and central). We found that Bd was widespread in southern and central Sweden, occurring in all 9 investigated species and in 45.5% of the 101 localities with an overall prevalence of 13.8%. No infected individuals were found in the 4 northern sites sampled. The records from central Sweden represent the northernmost records of Bd in Europe. While the proportion of sites positive for Bd was similar between the southern and central regions, prevalence was much higher in the southern region. This was because southern species with a distribution mainly restricted to southernmost Sweden had a higher prevalence than widespread generalist species. The nationally red-listed green toad Bufotes variabilis and the fire-bellied toad Bombina bombina had the highest prevalence (61.4 and 48.9%, respectively). Across species, Bd prevalence was strongly positively, correlated with water temperature at the start of egg laying. However, no individuals showing visual signs of chytridiomycosis were found in the field. These results indicate that Bd is widespread and common in southern and central Sweden with southern species, breeding in higher temperatures and with longer breeding periods, having higher prevalence. However, the impact of Bd on amphibian populations in northernmost Europe remains unknown.
Chytridiomycosis; Emerging infectious disease; Real-time PCR; Temperature tolerence
Diseases of Aquatic Organisms
2020, Volume: 140, pages: 209-218
Ecology
DOI: https://doi.org/10.3354/dao03502
https://res.slu.se/id/publ/109630