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global analysis of xylem vessel length in woody plants

بواسطة Tobin, Michael F. , Jacobsen, Anna L. , Hacke, Uwe G. , Ewers, Frank W. , Pratt, R. Brandon

في Botany / Cavitation flow / cavitation resistance / data collection / hydraulic architecture / hydraulic conductivity / Hydraulics / Magnoliophyta / Magnoliopsida - anatomy & histology / Nonnative species / Organ Size / Phylogenetics / Phylogeny / Plant growth / Plant roots / Plant Stems - anatomy & histology / Plants / Porosity / roots / Shrubs / SPECIAL PAPER / Stems / trees / vessel diameter / vessel length / water relations / Wood - anatomy & histology / Wood structure / woody plants / Woody vines / Xylem / Xylem - anatomy & histology

2012

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global analysis of xylem vessel length in woody plants

بواسطة Tobin, Michael F. , Jacobsen, Anna L. , Hacke, Uwe G. , Ewers, Frank W. , Pratt, R. Brandon

2012

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global analysis of xylem vessel length in woody plants

بواسطة Tobin, Michael F. , Jacobsen, Anna L. , Hacke, Uwe G. , Ewers, Frank W. , Pratt, R. Brandon

2012

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Journal Article

global analysis of xylem vessel length in woody plants

Tobin, Michael F.,

Jacobsen, Anna L.,

Hacke, Uwe G.,

Ewers, Frank W.,

Pratt, R. Brandon

2012

نظرة عامة

• Premise of the study: Vessels are the chief conduit for long-distance water transport in the majority of flowering plants. Vessel length is a key trait that determines plant hydraulic efficiency and safety, yet relatively little is known about this xylem feature.• Methods: We used previously published studies to generate a new global data set of vessel length in woody plants. These data were used to examine how evolutionary history, plant habit, environment, and growth ring porosity influenced vessel length. We also examined the relationship between mean vessel length and mean vessel diameter and maximum vessel length.• Key results: Data on mean vessel length were available for stems of 130 species and on maximum vessel length for stems of 91 species. A phylogenetic analysis indicated that vessel length did not exhibit significant phylogenetic signal. Liana species had longer vessel lengths than in tree or shrub species. Vessel diameter was not predictive of mean vessel length, but maximum vessel length strongly predicted mean vessel length. Vessel length did not vary between species that differed in growth ring porosity.• Conclusions: Many traits often assumed to be linked to vessel length, including growth ring porosity and vessel diameter, are not associated with vessel length when compared interspecifically. Sampling for vessel length has been nonrandom, e.g., there are virtually no data available for roots, and sampling for environment has been confounded with sampling for habit. Increased knowledge of vessel length is key to understanding the structure and function of the plant hydraulic pathway.

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الناشر

Botanical Society of America,Botanical Society of America, Inc

موضوع

Botany

/ Cavitation flow

/ cavitation resistance

/ data collection

/ hydraulic architecture

/ hydraulic conductivity

/ Hydraulics