@article{NosenkoHankeUheHeineetal.2021, author = {Nosenko, Tetyana and Hanke-Uhe, Manuel and Heine, Philip Alexander and Shahid, Afsheen and D{\"u}bel, Stefan and Rennenberg, Heinz and Schumacher, J{\"o}rg and Winkler, Jana Barbro and Schnitzler, J{\"o}rg-Peter and H{\"a}nsch, Robert and Kaufholdt, David}, title = {Plant Defense Proteins as Potential Markers for Early Detection of Forest Damage and Diseases}, series = {Frontiers in Forests and Global Change}, volume = {4}, journal = {Frontiers in Forests and Global Change}, publisher = {Frontiers}, issn = {2624-893X}, doi = {10.3389/ffgc.2021.654032}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:eb1-opus-2587}, pages = {5}, year = {2021}, abstract = {Over the last two decades, European forest ecosystems have been exposed to increasing stress associated with an increasing number, duration and severity of extreme events triggered by climate change (Dyderski et al., 2018). For forest plants, the concomitant stresses are not limited to direct detrimental effects of rising temperatures, drought and heavy rainfall, but also include enhanced virulence of native plant pathogens and herbivores and the introduction of new pests (Stenlid and Oliva, 2016). The detection of forest diseases at an early stage, when visible symptoms cannot yet be observed, is a crucial prerequisite to counteract regional spreading of pathogens. However, the effective monitoring of forest damage and diseases requires reliable and easy-to-use portable test systems.}, language = {en} } @article{HuMithoeferReicheltetal.2021, author = {Hu, Bin and Mith{\"o}fer, Axel and Reichelt, Michael and Eggert, Kai and Peters, Franziska S. and Ma, Ming and Schumacher, J{\"o}rg and Kreuzwieser, J{\"u}rgen and von Wir{\´e}n, Nicolaus and Rennenberg, Heinz}, title = {Systemic reprogramming of phytohormone profiles and metabolic traits by virulent Diplodia infection in its pine (Pinus sylvestris L.) host}, series = {Plant, Cell \& Environment}, volume = {44}, journal = {Plant, Cell \& Environment}, number = {8}, publisher = {Wiley}, issn = {0140-7791}, doi = {10.1111/pce.14061}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:eb1-opus-6571}, pages = {2744 -- 2764}, year = {2021}, abstract = {The widespread ascomycetous fungus Diplodia pinea is a latent, necrotrophic pathogen in Pinus species causing severe damages and world-wide economic losses. However, the interactions between pine hosts and virulent D. pinea are largely not understood. In the present study, systemic defence responses were investigated in non-inoculated, asymptomatic needles and roots of D. pinea infected saplings of two P. sylvestris provenances under controlled greenhouse conditions. Here, we show that D. pinea infection induced a multitude of systemic responses of the phytohormone profiles and metabolic traits. Shared systemic responses of both pine provenances in needles and roots included increased abscisic acid and jasmonic acid levels. Exclusively in the roots of both provenances, enhanced salicylic acid and reduced indole-3-acetic acid levels, structural biomass, and elevated activities of anti-oxidative enzymes were observed. Despite these similarities, the two pine provenances investigated different significantly in the systemic responses of both, phytohormone profiles and metabolic traits in needles and roots. However, the different systemic responses did not prevent subsequent destruction of non-inoculated needles, but rather prevented damage to the roots. Our results provide a detailed view on systemic defence mechanisms of pine hosts that are of particular significance for the selection of provenances with improved defence capacity.}, language = {en} }