Forest pathogens with higher damage potential due to climate change in Europe

TitleForest pathogens with higher damage potential due to climate change in Europe
Publication TypeJournal Article
Year of Publication2008
AuthorsLa Porta, N., Capretti P., Thomsen I. M., Kasanen R., Hietala A. M., & Von Weissenberg K.
JournalCanadian Journal of Plant Pathology
Volume30
Pagination177-195
KeywordsDrought, epidemiology, forest diseases, Global change, Global warming, opportunistic fungi, pathogenic fungi, predisposition, review, Temperature, water stress
Abstract

Abstract Most atmospheric scientists agree that climate changes are going to increase the mean temperature in Europe with increased frequency of climatic extremes, such as drought, floods, and storms. Under such conditions, there is high probability that forests will be subject to increased frequency and intensity of stress due to climatic extremes. Therefore, impacts of climate change on forest health should be carefully evaluated. Given these assumptions, several fungal diseases on trees may become more devastating because of the following factors: (i) abiotic stresses, such as drought and flooding, are known to predispose trees to several pathogens; (ii) temperature and moisture affect pathogen sporulation and dispersal, and changes in climatic conditions are likely to favour certain pathogens; (iii) migration of pathogens triggered by climatic change may increase disease incidence or geographical range, when pathogens encounter new hosts and (or) new potential vectors; and (iv) new threats may appear either because of a change in tree species composition or because of invasive species. If infection success is dependent on temperature, higher mean temperatures may lead to more attacks. Pathogens that have been of importance in southern Europe may spread northward and also upward to mountains. Pathogens with evolutionary potential for greater damage should be identified to estimate the magnitude of the threat and to prepare for the changing conditions. A review of the above-mentioned cases is presented. Some priorities to improve the ability to predict impacts of climate change on tree diseases are discussed.