MAIN CONCLUSION: Drought tolerance was greater in the whole lichen than in its isolated photobiont. Cell turgor state has an influence on the functionality of photosynthetic process in lichens. Irreversible thermodynamics is widely used to describe the water relations of vascular plants. However, poikilohydrous organisms like lichens and aeroterrestrial microalgae have seldom been studied using this approach. Water relations of lichens are generally addressed without separate analysis of the mycobiont and photobiont, and only few studies have correlated changes in photosynthetic efficiency of dehydrating lichens to accurate measurements of their water potential components. We measured water potential isotherms and chlorophyll a fluorescence in the lichen Flavoparmelia caperata harvested in different seasons, as well as in its isolated photobiont, the green alga Trebouxia gelatinosa, either exposed to water stress cycles or fully hydrated. No significant seasonal trends were observed in lichen water relations parameters. Turgor loss point and osmotic potential of the whole thallus were significantly lower than those measured in the photobiont, while differences between the water stressed photobiont and controls were not significant. Dehydration-induced drop of F v/F m was correlated with turgor loss, revealing that the photosynthetic activity of lichens partly depends on their turgor level. We provided one of the first quantitative evidences of the influence that turgor status could exert on the functionality of photosynthetic processes in lichens.
MAIN CONCLUSION: Drought tolerance was greater in the whole lichen than in its isolated photobiont. Cell turgor state has an influence on the functionality of photosynthetic process in lichens. Irreversible thermodynamics is widely used to describe the water relations of vascular plants. However, poikilohydrous organisms like lichens and aeroterrestrial microalgae have seldom been studied using this approach. Water relations of lichens are generally addressed without separate analysis of the mycobiont and photobiont, and only few studies have correlated changes in photosynthetic efficiency of dehydrating lichens to accurate measurements of their water potential components. We measured water potential isotherms and chlorophyll a fluorescence in the lichen Flavoparmelia caperata harvested in different seasons, as well as in its isolated photobiont, the green alga Trebouxia gelatinosa, either exposed to water stress cycles or fully hydrated. No significant seasonal trends were observed in lichen water relations parameters. Turgor loss point and osmotic potential of the whole thallus were significantly lower than those measured in the photobiont, while differences between the water stressed photobiont and controls were not significant. Dehydration-induced drop of F v/F m was correlated with turgor loss, revealing that the photosynthetic activity of lichens partly depends on their turgor level. We provided one of the first quantitative evidences of the influence that turgor status could exert on the functionality of photosynthetic processes in lichens.
Entities:
Keywords:
Chlorophyll fluorescence; Desiccation tolerance; Flavoparmelia caperata; Osmotic potential; Trebouxia gelatinosa; Turgor loss point
Authors: Ilse Kranner; W John Cram; Margret Zorn; Sabine Wornik; Isao Yoshimura; Edith Stabentheiner; Hartwig W Pfeifhofer Journal: Proc Natl Acad Sci U S A Date: 2005-02-14 Impact factor: 11.205
Authors: Francisco Gasulla; Pedro Gómez de Nova; Alberto Esteban-Carrasco; José M Zapata; Eva Barreno; Alfredo Guéra Journal: Planta Date: 2009-09-23 Impact factor: 4.116
Authors: Oliver Binks; Patrick Meir; Lucy Rowland; Antonio Carlos Lola da Costa; Steel Silva Vasconcelos; Alex Antonio Ribeiro de Oliveira; Leandro Ferreira; Bradley Christoffersen; Andrea Nardini; Maurizio Mencuccini Journal: New Phytol Date: 2016-03-22 Impact factor: 10.151
Authors: Beatriz Fernández-Marín; Marina López-Pozo; Alicia V Perera-Castro; Miren Irati Arzac; Ana Sáenz-Ceniceros; Claudia Colesie; Asunción De Los Ríos; Leo G Sancho; Ana Pintado; José M Laza; Sergio Pérez-Ortega; José I García-Plazaola Journal: Ann Bot Date: 2020-01-06 Impact factor: 4.357
Authors: Marina López-Pozo; Daniel Ballesteros; José Manuel Laza; José Ignacio García-Plazaola; Beatriz Fernández-Marín Journal: Front Plant Sci Date: 2019-09-20 Impact factor: 5.753