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Auteurs principaux: Restrepo-Acevedo, Ana Maria, Guo, Jessica, Novick, Kimberly, Humphrey, Vincent, Zweifel, Roman, Konings, Alexandra G, Koch, George, Knowles, John, Anderegg, Leander D L, Peters, Jennifer M R, Paligi, Sharath, Schenk, H Jochen, Beverly, Daniel, Magh, Ruth-Kristina, Yao, Yitong, Hackmann, Christina A, Bohrer, Gil, Browne, Marvin, Carminati, Andrea, Kannenberg, Steven A
Format: Artículo científico
Langue:en
Publié: The New phytologist 2026
Sujets:
Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/42087530/
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author Restrepo-Acevedo, Ana Maria
Guo, Jessica
Novick, Kimberly
Humphrey, Vincent
Zweifel, Roman
Konings, Alexandra G
Koch, George
Knowles, John
Anderegg, Leander D L
Peters, Jennifer M R
Paligi, Sharath
Schenk, H Jochen
Beverly, Daniel
Magh, Ruth-Kristina
Yao, Yitong
Hackmann, Christina A
Bohrer, Gil
Browne, Marvin
Carminati, Andrea
Kannenberg, Steven A
author_facet Restrepo-Acevedo, Ana Maria
Guo, Jessica
Novick, Kimberly
Humphrey, Vincent
Zweifel, Roman
Konings, Alexandra G
Koch, George
Knowles, John
Anderegg, Leander D L
Peters, Jennifer M R
Paligi, Sharath
Schenk, H Jochen
Beverly, Daniel
Magh, Ruth-Kristina
Yao, Yitong
Hackmann, Christina A
Bohrer, Gil
Browne, Marvin
Carminati, Andrea
Kannenberg, Steven A
Restrepo-Acevedo, Ana Maria
Guo, Jessica
Novick, Kimberly
Humphrey, Vincent
Zweifel, Roman
Konings, Alexandra G
Koch, George
Knowles, John
Anderegg, Leander D L
Peters, Jennifer M R
Paligi, Sharath
Schenk, H Jochen
Beverly, Daniel
Magh, Ruth-Kristina
Yao, Yitong
Hackmann, Christina A
Bohrer, Gil
Browne, Marvin
Carminati, Andrea
Kannenberg, Steven A
collection PubMed - marine biology
contents Continuous monitoring of plant water potential: sensor-based approaches and best practices. Restrepo-Acevedo, Ana Maria Guo, Jessica Novick, Kimberly Humphrey, Vincent Zweifel, Roman Konings, Alexandra G Koch, George Knowles, John Anderegg, Leander D L Peters, Jennifer M R Paligi, Sharath Schenk, H Jochen Beverly, Daniel Magh, Ruth-Kristina Yao, Yitong Hackmann, Christina A Bohrer, Gil Browne, Marvin Carminati, Andrea Kannenberg, Steven A Water Plants Soil Plant water potential is a central integrator of plant water status, linking hydraulic function with physiological performance and ecosystem water dynamics across species and systems. This review is motivated by the need to capture these dynamics under rapidly changing environmental conditions, which are often missed by discrete measurements. We evaluate the main approaches for continuous monitoring of plant water potential, including direct in situ sensors, indirect methods based on plant water content, and remote-sensing proxies. We discuss the principles, measurement mechanisms, practical constraints, and environmental sensitivities of each approach. Relative to traditional methods, such as pressure chambers, continuous measurements offer major advantages by resolving rapid variation in water status and strengthening inference on plant-soil-atmosphere interactions. These approaches are especially valuable under dynamic field conditions, where temporal variability in vapor pressure deficit, soil moisture, temperature, and radiation strongly shapes hydraulic behavior. We conclude that continuous monitoring has substantial potential to advance plant and ecosystem science, but wider application will depend on careful interpretation and greater harmonization across comparable methodologies. By synthesizing core principles, methodological challenges and best practices, this review provides a practical framework for researchers and practitioners applying continuous water potential measurements.
format Artículo científico
id pubmed_42087530
institution PubMed
language en
publishDate 2026
publisher The New phytologist
record_format pubmed
spellingShingle Continuous monitoring of plant water potential: sensor-based approaches and best practices.
Restrepo-Acevedo, Ana Maria
Guo, Jessica
Novick, Kimberly
Humphrey, Vincent
Zweifel, Roman
Konings, Alexandra G
Koch, George
Knowles, John
Anderegg, Leander D L
Peters, Jennifer M R
Paligi, Sharath
Schenk, H Jochen
Beverly, Daniel
Magh, Ruth-Kristina
Yao, Yitong
Hackmann, Christina A
Bohrer, Gil
Browne, Marvin
Carminati, Andrea
Kannenberg, Steven A
Water
Plants
Soil
Continuous monitoring of plant water potential: sensor-based approaches and best practices. Restrepo-Acevedo, Ana Maria Guo, Jessica Novick, Kimberly Humphrey, Vincent Zweifel, Roman Konings, Alexandra G Koch, George Knowles, John Anderegg, Leander D L Peters, Jennifer M R Paligi, Sharath Schenk, H Jochen Beverly, Daniel Magh, Ruth-Kristina Yao, Yitong Hackmann, Christina A Bohrer, Gil Browne, Marvin Carminati, Andrea Kannenberg, Steven A Water Plants Soil Plant water potential is a central integrator of plant water status, linking hydraulic function with physiological performance and ecosystem water dynamics across species and systems. This review is motivated by the need to capture these dynamics under rapidly changing environmental conditions, which are often missed by discrete measurements. We evaluate the main approaches for continuous monitoring of plant water potential, including direct in situ sensors, indirect methods based on plant water content, and remote-sensing proxies. We discuss the principles, measurement mechanisms, practical constraints, and environmental sensitivities of each approach. Relative to traditional methods, such as pressure chambers, continuous measurements offer major advantages by resolving rapid variation in water status and strengthening inference on plant-soil-atmosphere interactions. These approaches are especially valuable under dynamic field conditions, where temporal variability in vapor pressure deficit, soil moisture, temperature, and radiation strongly shapes hydraulic behavior. We conclude that continuous monitoring has substantial potential to advance plant and ecosystem science, but wider application will depend on careful interpretation and greater harmonization across comparable methodologies. By synthesizing core principles, methodological challenges and best practices, this review provides a practical framework for researchers and practitioners applying continuous water potential measurements.
title Continuous monitoring of plant water potential: sensor-based approaches and best practices.
topic Water
Plants
Soil
url https://pubmed.ncbi.nlm.nih.gov/42087530/