Affiliation:
1. Institute of Technology University of Tartu Tartu Estonia
Abstract
AbstractClimate change‐associated rise in VPD (atmospheric vapor pressure deficit) results in increased plant transpiration and reduced stomatal conductance, photosynthesis, biomass, and yield. High VPD‐induced stomatal closure of Arabidopsis is an active process regulated via the kinase SnRK2.6 (OPEN STOMATA 1, OST1). Here, we performed gas exchange, leaf water potential and rosette growth measurements to study, whether (1) high VPD‐induced stomatal closure is detected in plants carrying loss‐of‐function mutations in OST1 (ost1‐3) when they are grown at reduced soil water content or measured at increased air temperature; (2) ost1‐3 plants expressing OST1 construct with no ABA‐activation domain, but intact ABA‐independent activation, show stronger stomatal VPD response compared with ost1‐3 plants; and (3) rosette area and biomass of ost1‐3 are more affected by growth at high VPD compared with Col‐0. The stomata of well‐watered ost1‐3 plants were insensitive to high VPD regardless of air temperature, but in deficit‐irrigated ost1‐3, leaf water potential decreased the most and stomata closed at high VPD. Differences between VPD‐induced stomatal closures of ost1‐3 plants and ost1‐3 plants expressing OST1 with no ABA‐activation domain point at gradual VPD‐induced ABA‐independent activation of OST1. High VPD conditions led to similar reductions in rosette area and specific leaf area of well‐watered Col‐0 and ost1‐3 plants. Rosette dry mass was unaffected by high VPD. Our results show that OST1 loss‐of‐function plants display conditional stomatal closure and no extra sensitivity of rosette area growth compared with Col‐0 wildtype under high VPD conditions.
Subject
Cell Biology,Plant Science,Genetics,General Medicine,Physiology
Cited by
5 articles.
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