Your search keyword '"Petrussa Elisa"' showing total 102 results

101. Summer drought stress: differential effects on cane anatomy and non-structural carbohydrate content in overwintering Cabernet Sauvignon and Syrah vines

Author

Marco Zancani, Elisa Petrussa, Enrico Braidot, Enrico Peterlunger, Paola Beraldo, Alberto Calderan, Jose Carlos Herrera, Andrea Nardini, Paolo Sivilotti, Rachele Falchi, Valentino Casolo, Falchi, Rachele, Petrussa, Elisa, Zancani, Marco, Casolo, Valentino, Beraldo, Paola, Nardini, Andrea, Sivilotti, Paolo, Calderan, Alberto, Herrera, Jose Carlo, Peterlunger, Enrico, and Braidot, Enrico

Subjects

0106 biological sciences, 0301 basic medicine, Environmental Engineering, Starch, lcsh:QR1-502, carbohydrates, Growing season, Plant anatomy, drought, Biology, Photosynthesis, 01 natural sciences, lcsh:Microbiology, lcsh:Physiology, Industrial and Manufacturing Engineering, 03 medical and health sciences, chemistry.chemical_compound, lcsh:Zoology, Grapevine, lcsh:QL1-991, Cultivar, Cane, Overwintering, 2. Zero hunger, lcsh:QP1-981, food and beverages, biology.organism_classification, 6. Clean water, Horticulture, 030104 developmental biology, chemistry, visual_art, visual_art.visual_art_medium, Bark, 010606 plant biology & botany

Abstract

Grapevines store non-structural carbohydrates (NSC) during late summer to sustain plant development at the onset of the following spring’s growth. Starch is the main stored carbohydrate, found in the wood-ray parenchyma of roots and canes. Although the relationship between hydraulic and plant photosynthetic performance is well-recognized, little research has been done on the long-term effects of drought in grapevines adopting different strategies to cope with water stress (i.e. isohydric and anisohydric). We performed our study by exposing two different grape cultivars (Syrah and Cabernet Sauvignon) to a short but severe drought stress, at two stages of the growing season (July and September). No marked differences in the physiological and hydraulic responses of the two varieties were found, probably due to our experimental conditions. However, anatomical and biochemical characterization of overwintering canes pointed out several interesting outcomes. We found a significant and parallel increase of starch and medullar ray number in both cultivars exposed to early water stress. We hypothesize that stressed vines limited their carbon allocation to growth, while shifting it to starch accumulation, with a most evident effect in the period of intense photosynthetic activity. We also speculate that a different aptitude to osmotic adjustment may underlay variation in starch increase and the specific involvement of bark NSC in the two cultivars.

Published

2019

102. Effects of prolonged drought on stem non-structural carbohydrates content and post-drought hydraulic recovery in Laurus nobilis L.: The possible link between carbon starvation and hydraulic failure

Author

Valentino Casolo, Elisa Petrussa, Francesco Boscutti, Andrea Nardini, Fabio Raimondo, Maria A. Lo Gullo, Patrizia Trifilò, Trifilò, Patrizia, Casolo, Valentino, Raimondo, Fabio, Petrussa, Elisa, Boscutti, Francesco, Lo Gullo, Maria Assunta, and Nardini, Andrea

Subjects

0106 biological sciences, 0301 basic medicine, Irrigation, Time Factors, Physiology, Turgor pressure, Carbohydrates, Carbon starvation, Drought, Hydraulic failure, Non-structural carbohydrate, Water relations, Xylem refilling, Xylem transport, Water relation, Plant Science, Laurus, 01 natural sciences, 03 medical and health sciences, Laurus nobilis, food, Stress, Physiological, Xylem, Botany, Hydrostatic Pressure, Genetics, Osmotic pressure, Dehydration, Chemistry, fungi, Water stress, food and beverages, food.food, Horticulture, 030104 developmental biology, Carbon starvation, Drought, Hydraulic failure, Non-structural carbohydrates, Xylem transport, Xylem refilling, Water relations, Non-structural carbohydrates, Carbohydrate Metabolism, 010606 plant biology & botany

Abstract

Drought-induced tree decline is a complex event, and recent hypotheses suggest that hydraulic failure and carbon starvation are co-responsible for this process. We tested the possible role of non-structural carbohydrates (NSC) content on post-drought hydraulic recovery, to verify the hypothesis that embolism reversal represents a mechanistic link between carbon starvation and stem hydraulics. Measurements were performed in laurel plants subjected to similar water stress levels either over short or long term, to induce comparable embolism levels. Plants subjected to mild and prolonged water shortage (S) showed reduced growth, adjustment of turgor loss point driven by changes in both osmotic potential at full turgor and bulk modulus of elasticity, a lower content of soluble NSC and a higher content of starch with respect to control (C) plants. Moreover, S plants showed a lower ability to recover from xylem embolism than C plants, even after irrigation. Our data suggest that plant carbon status might indirectly influence plant performance during and after drought via effects on xylem hydraulic functioning, supporting the view of a possible mechanistic link between the two processes.

Published

2017