Vertical Stratification Drives Divergent Spatial Trade‐Offs Among Xylem Cell Types in Angiosperm Trees of a Mountain Forest in Eastern China
Qihang Yang, Yuxin Hong, Hugh Morris, Faguang Pu, Zuhua Song, Xijin Zhang, Kun Song

TL;DR
This study shows how trees in different forest layers in China adapt their xylem structures to balance water transport, support, and storage functions.
Contribution
The study reveals divergent xylem cell allocation strategies in canopy and understory trees due to vertical forest stratification.
Findings
Canopy trees maintain higher vessel fractions compared to understory trees for enhanced water transport.
Understory trees show a stronger fiber–parenchyma trade-off, indicating divergent growth strategies.
Xylem trade-offs vary across vertical strata, reflecting adaptation to different ecological pressures.
Abstract
Vertical stratification in forests acts as an ecological filter, driving woody plants to evolve specialized survival strategies. Angiosperms, in particular, develop secondary xylem with three interdependent functions—water transport, mechanical support, and storage. Trade‐offs between these functions vary with resource heterogeneity and environmental pressures. Balancing these functions is based on trade‐offs in xylem structure, particularly in the xylem space allocation of vessels, fibers, and parenchyma fractions. However, how plants optimize these trade‐offs along forest vertical strata remains unexplored. Anatomical methods were used to determine the fractions of vessels, fibers, and parenchyma in the secondary xylem of 119 individuals within a multilayered forest in eastern China. Ternary plots and standardized major axis analyses were employed to evaluate variations in trade‐offs…
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Taxonomy
TopicsPlant Water Relations and Carbon Dynamics · Tree-ring climate responses · Tree Root and Stability Studies
