Natalie McMann scite author profile

There is a long-standing idea that the timing of leaf production in seasonally cold climates is linked to xylem anatomy, specifically vessel diameter because of the hydraulic requirements of expanding leaves.We tested for a relationship between the timing of leaf out and vessel diameter in 220 plants in three common gardens accounting for species' phylogenetic relationships. We investigated how vessel diameter related to wood porosity, plant height and leaf length. We also used dye perfusion tests to determine whether plants relied on xylem produced during the previous growing season at the time of leaf out.In all three gardens, there was later leaf out in species with wider vessels. Ring-porous species had the widest vessels, exhibited latest leaf out and relied less on xylem made during the previous growing season than diffuse-porous species. Wood anatomy and leaf phenology did not exhibit a phylogenetic signal.The timing of leaf out is correlated with wood anatomy across species regardless of species' geographic origin and phylogenetic relationships. This correlation could be a result of developmental and physiological links between leaves and wood or tied to a larger safety efficiency trade-off.

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Early spring flowers rely on xylem hydration but are not limited by stem xylem conductivity

McMann

Peichel

Savage

2021

New Phytologist

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Many woody plants produce large floral displays early in the spring when xylem transport can be variable and often reduced. To determine whether stem hydraulics impact floral water use, we quantified floral transpiration and tested whether it was correlated with stem xylem conductivity in five temperate woody species that flower before producing leaves.We measured inflorescence gas exchange, examined the relationship between diffusive conductance and inflorescence morphology, and estimated the amount of water supplied to an inflorescence by the phloem. We also tested for correlation between transpiration and native stem xylem conductivity for branches with leaves and branches with flowers.The flowers of our study species obtain most of their water from the xylem. Diffusive conductance was higher in small inflorescences, but water content and daily transpiration rates were greater for larger inflorescences. We found no correlation between floral transpiration per branch and stem xylem conductivity within species.The data suggest that inflorescence water loss during anthesis is not limited by the xylem in our study species. We highlight the impact of floral morphology on hydraulic traits and encourage exploration into temporal shifts in floral hydration.

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Floral gas exchange data observed from cut and intact inflorescences and during a heating experiment in 2018 on woody plants growing in Duluth, MN

McMann¹,

Peichel²,

Savage³

2021

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Floral and leaf gas exchange and stem hydraulic conductance data observed from 2017 to 2018 on woody plants growing in Minnesota

McMann¹,

Peichel²,

Savage³

2021

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Plant phenology and floral anatomy data observed from 2017 to 2020 on woody plants growing in Minnesota

McMann¹,

Peichel²,

Savage³

2021

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Natalie McMann

Leaf out time correlates with wood anatomy across large geographic scales and within local communities

Early spring flowers rely on xylem hydration but are not limited by stem xylem conductivity

Floral gas exchange data observed from cut and intact inflorescences and during a heating experiment in 2018 on woody plants growing in Duluth, MN

Floral and leaf gas exchange and stem hydraulic conductance data observed from 2017 to 2018 on woody plants growing in Minnesota

Plant phenology and floral anatomy data observed from 2017 to 2020 on woody plants growing in Minnesota

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