2016
DOI: 10.3389/fpls.2016.01681
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Allometric Trajectories and “Stress”: A Quantitative Approach

Abstract: The term “stress” is an important but vague term in plant biology. We show situations in which thinking in terms of “stress” is profitably replaced by quantifying distance from functionally optimal scaling relationships between plant parts. These relationships include, for example, the often-cited one between leaf area and sapwood area, which presumably reflects mutual dependence between sources and sink tissues and which scales positively within individuals and across species. These relationships seem to be s… Show more

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Cited by 31 publications
(23 citation statements)
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“…Inverse scaling of H v with H max may, therefore, also be obtained if K s scaled with H max more than proportionally. Negative scaling of H v with H max may also be obtained if tall trees grow relatively less sapwood than shorter plants (for a given leaf area) to minimise sapwood construction and/or maintenance costs, instead of hydraulic resistance (Anfodillo et al ., ; Fajardo et al ., ). An inverse relationship between H v and K s is expected because of functional balance between water supply and demand (Whitehead & Jarvis, ; see derivation in the Supplementary Information Methods S1) and it has been found empirically before for smaller datasets (Choat et al ., ; Gleason et al ., ).…”
Section: Introductionmentioning
confidence: 99%
“…Inverse scaling of H v with H max may, therefore, also be obtained if K s scaled with H max more than proportionally. Negative scaling of H v with H max may also be obtained if tall trees grow relatively less sapwood than shorter plants (for a given leaf area) to minimise sapwood construction and/or maintenance costs, instead of hydraulic resistance (Anfodillo et al ., ; Fajardo et al ., ). An inverse relationship between H v and K s is expected because of functional balance between water supply and demand (Whitehead & Jarvis, ; see derivation in the Supplementary Information Methods S1) and it has been found empirically before for smaller datasets (Choat et al ., ; Gleason et al ., ).…”
Section: Introductionmentioning
confidence: 99%
“…Below, conduits progressively increase in diameter (Anfodillo et al ., ), thus confining most of the total hydraulic resistance within a short distance from the apices of stem and branches (Petit & Anfodillo, ; Petit et al ., ). In addition, longer xylem path lengths in taller trees and limitations to photosynthesis imply that maintenance costs and biomass production are more expensive on a leaf area basis (Buckley & Roberts, ; Anfodillo et al ., ). In this respect, it has been shown that larger leaf biomass can be sustained along branches under drier conditions when the annual investment in primary and secondary growth is reduced, and more rings contribute to the total sapwood conductance (Petit et al ., ; Sterck & Zweifel, ).…”
Section: Introductionmentioning
confidence: 99%
“…In the case of forests, the adaptation of vegetation properties to water availability is well documented (Grier & Running 1977). Some authors (Anfodillo et al 2016) have argued against the use of the term "stress" to describe long-term conditions that lead to adaptations such as slow growth rates or small leaf area. Indeed, Anfodillo et al (2016) show that these adaptations allow plants to maximize their fitness in the given environment.…”
Section: Definitionsmentioning
confidence: 99%
“…Some authors (Anfodillo et al 2016) have argued against the use of the term "stress" to describe long-term conditions that lead to adaptations such as slow growth rates or small leaf area. Indeed, Anfodillo et al (2016) show that these adaptations allow plants to maximize their fitness in the given environment. In this review, the term stress is used in the narrow sense of physiological drought.…”
Section: Definitionsmentioning
confidence: 99%