Water Loss From Bagged Leaves During Storage: Why and When?
leaf energy balance
leaf metabolic heating
leaf water potential
pressure chamber
Journal
Plant, cell & environment
ISSN: 1365-3040
Titre abrégé: Plant Cell Environ
Pays: United States
ID NLM: 9309004
Informations de publication
Date de publication:
13 Oct 2024
13 Oct 2024
Historique:
revised:
06
09
2024
received:
18
07
2024
accepted:
28
09
2024
medline:
14
10
2024
pubmed:
14
10
2024
entrez:
14
10
2024
Statut:
aheadofprint
Résumé
In ecophysiology leaves are frequently stored for hours after sampling before measuring their leaf water potential (Ψ
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Subventions
Organisme : This work was supported by the Israeli Ministry of Agriculture (grant no. 20-03-0054) to Uri Hochberg and by the Austrian Science Fund FWF (grant no. M 3204-B) to Feng Feng.
Informations de copyright
© 2024 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.
Références
Assouline, S., U. Hochberg, and A. Silber. 2021. “The Impact of Tree Phenology on the Response of Irrigated Avocado: The Hysteretic Nature of the Maximum Trunk Daily Shrinkage.” Agricultural Water Management 256: 107104.
Barzilai, O., M. Avraham, Y. Wagner, A. Dag, and U. Hochberg. 2022. “To −8 MPA and Back: In‐Situ Annual Water Relation in Non‐Irrigated Olive Trees.” Journal of Plant Hydraulics 8: e001‐e001.
Blackman, C. J., and T. J. Brodribb. 2011. “Two Measures of Leaf Capacitance: Insights Into the Water Transport Pathway and Hydraulic Conductance in Leaves.” Functional Plant Biology 38, no. 2: 118–126.
Boyer, J. S. 1995. Measuring the Water Status of Plants and Soils. San Diego: Academic Press.
Corraide da Silva, L., D. Oliveira Filho, H. M. Acioli Imbuzeiro, and P. M. Barros Monteiro. 2022. “Analysis of Different Condensing Surfaces for Dew Harvesting.” Water Supply 22, no. 1: 697–706.
Duursma, R. A., C. J. Blackman, R. Lopéz, N. K. Martin‐StPaul, H. Cochard, and B. E. Medlyn. 2019. “On the Minimum Leaf Conductance: Its Role in Models of Plant Water Use, and Ecological and Environmental Controls.” New Phytologist 221, no. 2: 693–705.
Escalona, J. M., S. Fuentes, M. Tomás, S. Martorell, J. Flexas, and H. Medrano. 2013. “Responses of Leaf Night Transpiration to Drought Stress in Vitis vinifera L.” Agricultural water management 118: 50–58.
Gersony, J. T., U. Hochberg, F. E. Rockwell, M. Park, P. P. G. Gauthier, and N. M. Holbrook. 2020. “Leaf Carbon Export and Nonstructural Carbohydrates in Relation to Diurnal Water Dynamics in Mature Oak Trees.” Plant Physiology 183, no. 4: 1612–1621.
Guzmán‐Delgado, P., J. Mason Earles, and M. A. Zwieniecki. 2018. “Insight into the Physiological Role of Water Absorption Via the Leaf Surface From a Rehydration Kinetics Perspective.” Plant, Cell & Environment 41, no. 8: 1886–1894.
Hochberg, U., A. Degu, A. Fait, and S. Rachmilevitch. 2013. “Near Isohydric Grapevine Cultivar Displays Higher Photosynthetic Efficiency and Photorespiration Rates Under Drought Stress as Compared with Near Anisohydric Grapevine Cultivar.” Physiologia Plantarum 147, no. 4: 443–452.
Lidon, P., E. Perrot, and A. D. Stroock. 2021. “Nonisothermal Effects on Water Potential Measurement in a Simple Geometry.” Physical Review Fluids 6: 023801.
Moynihan, M. R., A. Ordentlich, and I. Raskin. 1995. “Chilling‐Induced Heat Evolution in Plants.” Plant Physiology 108, no. 3: 995–999.
Naor, A., and M. Peres. 2001. “Pressure‐Increase Rate Affects the Accuracy of Stem Water Potential Measurements in Deciduous Fruit Trees Using the Pressure‐Chamber Technique.” Journal of Horticultural Science and Biotechnology 76, no. 6: 661–663.
Ordentlich, A., R. A. Linzer, and I. Raskin. 1991. “Alternative Respiration and Heat Evolution in Plants.” Plant Physiology 97, no. 4: 1545–1550.
Rockwell, F. E., N. M. Holbrook, and A. D. Stroock. 2014. “The Competition Between Liquid and Vapor Transport in Transpiring Leaves.” Plant Physiology 164: 1741–1758.
Rodriguez‐Dominguez, C. M., A. Forner, S. Martorell, et al. 2022. “Leaf Water Potential Measurements Using the Pressure Chamber: Synthetic Testing of Assumptions Towards Best Practices for Precision and Accuracy.” Plant, Cell & Environment 45, no. 7: 2037–2061.
Sack, L., W. K. Cornwell, L. S. Santiago, et al. 2010. “A Unique Web Resource for Physiology, Ecology and the Environmental Sciences: Prometheuswiki.” Functional Plant Biology 37: 687–693.
Schymanski, S. J., D. Or, and M. Zwieniecki. 2013. “Stomatal Control and Leaf Thermal and Hydraulic Capacitances Under Rapid Environmental Fluctuations.” PLoS One 8, no. 1: e54231.
Slatyer, R. O., and S. A. Taylor. 1960. “Terminology in Plant‐ and Soil‐Water Relations.” Nature 187: 922–924.
Tomasella, M., A. Calderan, A. Mihelčič, et al. 2023. “Best Procedures for Leaf and Stem Water Potential Measurements in Grapevine: Cultivar and Water Status Matter.” Plants 12, no. 13: 2412.
Wang, R., L. Zhang, S. Zhang, J. Cai, and M. T. Tyree. 2014. “Water Relations of Robinia pseudoacacia L.: Do Vessels Cavitate and Refill Diurnally or Are R‐Shaped Curves Invalid in Robinia?” Plant, Cell & Environment 37, no. 12: 2667–2678.