AUTHOR=Paljakka Teemu , Rissanen Kaisa , Vanhatalo Anni , Salmon Yann , Jyske Tuula , Prisle Nønne L. , Linnakoski Riikka , Lin Jack J. , Laakso Tapio , Kasanen Risto , Bäck Jaana , Hölttä Teemu 

TITLE=Is Decreased Xylem Sap Surface Tension Associated With Embolism and Loss of Xylem Hydraulic Conductivity in Pathogen-Infected Norway Spruce Saplings?

JOURNAL=Frontiers in Plant Science

VOLUME=11

YEAR=2020

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2020.01090

DOI=10.3389/fpls.2020.01090

ISSN=1664-462X

ABSTRACT=<p>Increased abiotic stress along with increasing temperatures, dry periods and forest disturbances may favor biotic stressors such as simultaneous invasion of bark beetle and ophiostomatoid fungi. It is not fully understood how tree desiccation is associated with colonization of sapwood by fungi. A decrease in xylem sap surface tension (σ<sub>xylem</sub>) as a result of infection has been hypothesized to cause xylem embolism by lowering the threshold for air-seeding at the pits between conduits and disruptions in tree water transport. However, this hypothesis has not yet been tested. We investigated tree water relations by measuring the stem xylem hydraulic conductivity (K<sub>stem</sub>), σ<sub>xylem</sub>, stem relative water content (RWC<sub>stem</sub>), and water potential (Ψ<sub>stem</sub>), and canopy conductance (g<sub>canopy</sub>), as well as the compound composition in xylem sap in Norway spruce (<italic>Picea abies</italic>) saplings. We conducted our measurements at the later stage of <italic>Endoconidiophora polonica</italic> infection when visible symptoms had occurred in xylem. Saplings of two clones (44 trees altogether) were allocated to treatments of inoculated, wounded control and intact control trees in a greenhouse. The saplings were destructively sampled every second week during summer 2016. σ<sub>xylem</sub>, K<sub>stem</sub> and RWC<sub>stem</sub> decreased following the inoculation, which may indicate that decreased σ<sub>xylem</sub> resulted in increased embolism. g<sub>canopy</sub> did not differ between treatments indicating that stomata responded to Ψ<sub>stem</sub> rather than to embolism formation. Concentrations of quinic acid, myo-inositol, sucrose and alkylphenol increased in the xylem sap of inoculated trees. Myo-inositol concentrations also correlated negatively with σ<sub>xylem</sub> and K<sub>stem</sub>. Our study is a preliminary investigation of the role of σ<sub>xylem</sub> in <italic>E. polonica</italic> infected trees based on previous hypotheses. The results suggest that <italic>E. polonica</italic> infection can lead to a simultaneous decrease in xylem sap surface tension and a decline in tree hydraulic conductivity, thus hampering tree water transport.</p>