Impact of Snow Cover on Photoinhibition and Winter Dessication in Evergreen Rhododendron Ferrugineum Leaves During Subalpine Winter
Overview
Affiliations
Effects of winter snow cover on photoinhibition and possible interactions with winter desiccation were investigated in situ in an evergreen subalpine woody species, Rhododendron ferrugineum L., at the alpine timberline (1950 m a.s.l.). Timing and duration of complete snow cover markedly influenced potential efficiency of photosystem II (PSII; F(v) /F(m)). Lack of snow cover led to severe but mostly reversible photoinhibition with F(v)/F(m) values as low as 0.05. Complete snow cover immediately stopped further reductions in PSII efficiency. Snow cover promoted recovery from photoinhibition, but only if, in addition to shading by snow, plants were exposed to nonfreezing temperatures close to 0 degrees C. The F(v)/F(m) ratio was closely related to minimum leaf temperatures because both photoinhibition and recovery from photoinhibition were strongly influenced by temperature. The period without major reductions in PSII efficiency lasted for only two months, reflecting the extremely short growing period in the subalpine environment. Compared with complete snow cover, incomplete snow cover led to significantly higher water losses as well as lower dehydration tolerance, because both osmotic adjustment and changes in turgor maintenance capacity were significantly reduced. Interactions between photoinhibition and winter desiccation were masked by the direct effects of freezing temperatures. However, both photoinhibition and winter desiccation are closely linked and occur together under field conditions in this evergreen subalpine woody species.
Spatial and Temporal Freezing Dynamics of Leaves Revealed by Time-Lapse Imaging.
Kane C, McAdam S Plant Cell Environ. 2024; 48(1):164-175.
PMID: 39253967 PMC: 11615429. DOI: 10.1111/pce.15118.
Recent advancements in the physiological, genetic, and genomic research on s for trait improvement.
Rawat S, Jugran A, Sharma H 3 Biotech. 2024; 14(6):164.
PMID: 38808301 PMC: 11128433. DOI: 10.1007/s13205-024-04006-6.
Vessels in a (L.) population do not trace temperature anymore at the alpine shrubline.
Piccinelli S, Francon L, Corona C, Stoffel M, Slamova L, Cannone N Front Plant Sci. 2023; 13:1023384.
PMID: 36714740 PMC: 9879627. DOI: 10.3389/fpls.2022.1023384.
Stegner M, Florl A, Lindner J, Plangger S, Schaefernolte T, Strasser A Physiol Plant. 2022; 174(6):e13793.
PMID: 36190477 PMC: 9828361. DOI: 10.1111/ppl.13793.
Winter Frosts Reduce Flower Bud Survival in High-Mountain Plants.
Wagner J, Gruber K, Ladinig U, Buchner O, Neuner G Plants (Basel). 2021; 10(8).
PMID: 34451552 PMC: 8400932. DOI: 10.3390/plants10081507.