Effects of combined drought and pathogen stress on growth, resistance and gene expression in young Norway spruce trees

Drought-induced mortality is a major direct effect of climate change on tree health, but drought can also affect trees indirectly by altering their susceptibility to pathogens. Here, we report how a combination of mild or severe drought and pathogen infection affected the growth, pathogen resistance and gene expression in potted 5-year-old Norway spruce trees [Picea abies (L.) Karst.]. After 5 weeks of drought, trees were inoculated with the fungal pathogen Endoconidiophora polonica. Combined drought-pathogen stress over the next 8 weeks led to significant reductions in the growth of drought-treated trees relative to well-watered trees and more so in trees subjected to severe drought. Belowground, growth of the smallest fine roots was most affected. Aboveground, shoot diameter change was most sensitive to the combined stress, followed by shoot length growth and twig biomass. Both drought-related and some resistance-related genes were upregulated in bark samples collected after 5 weeks of drought (but before pathogen infection), and gene expression levels scaled with the intensity of drought stress. Trees subjected to severe drought were much more susceptible to pathogen infection than well-watered trees or trees subjected to mild drought. Overall, our results show that mild drought stress may increase the tree resistance to pathogen infection by upregulating resistance-related genes. Severe drought stress, on the other hand, decreased tree resistance. Because drought episodes are expected to become more frequent with climate change, combined effects of drought and pathogen stress should be studied in more detail to understand how these stressors interactively influence tree susceptibility to pests and pathogens.

Automated summary

Drought-induced mortality is a major direct effect of climate change on tree health. However, drought can also indirectly affect trees by altering their susceptibility to pathogens. This study investigated the combined effects of drought and pathogen infection on the growth, pathogen resistance, and gene expression in Norway spruce trees. The results showed that severe drought stress decreased tree resistance to pathogen infection, while mild drought stress increased resistance by upregulating resistance-related genes. Given the expected increase in drought episodes due to climate change, further research is needed to understand how these stressors interact and influence tree susceptibility to pests and pathogens.