Hydraulic differences between flowers and leaves are driven primarily by pressure-volume traits and water loss

Hydraulic differences between flowers and leaves are driven primarily by pressure-volume traits and water loss Article

An, Yi-Dong, Roddy, Adam B, Zhang, Tian-Hao et al. (2023). Hydraulic differences between flowers and leaves are driven primarily by pressure-volume traits and water loss . Frontiers in Plant Science, 14 10.3389/fpls.2023.1130724

Open Access International Collaboration

cited authors

An, Yi-Dong; Roddy, Adam B; Zhang, Tian-Hao; Jiang, Guo-Feng

sustainable development goals

SDG 13: Climate Action
SDG 15: Life On Land

authors

Roddy, Adam

publication date

May 31, 2023

published in

Frontiers in Plant Science Journal

keywords

ANGIOSPERM
CAVITATION RESISTANCE
DROUGHT
EFFICIENCY
EVOLUTION
INTERVESSEL PIT MEMBRANES
LEAF VEIN
Life Sciences & Biomedicine
Plant Sciences
REPRODUCTIVE EFFORT
Science & Technology
VASCULAR PLANTS
XYLEM FUNCTION
drought tolerance
flower
hydraulics
leaf
minimum cuticular conductance
photosynthesis
water relations
xylem

Digital Object Identifier (DOI)

https://doi.org/10.3389/fpls.2023.1130724

FIU Discovery

Hydraulic differences between flowers and leaves are driven primarily by pressure-volume traits and water loss Article

Overview

cited authors

sustainable development goals

authors

publication date

published in

Research

keywords

Identifiers

Digital Object Identifier (DOI)

Additional Document Info

volume