Novel Patterns of Photosynthetic Activity Within Canopies of Poplar Stands with Different Densities

Novel Patterns of Photosynthetic Activity Within Canopies of Poplar Stands with Different Densities

(1) Background: Planting density is an important factor affecting the yield of poplar per unit area. Therefore, determining the optimal height of the photosynthetic canopy layer for different planting densities is critical. (2) Methods: This study takes <i>Populus euramericana</i> ‘N3016...

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Bibliographic Details
Main Authors: Taijin Zhang, Xiaoting Liu, Qinhui Zhang, Hui Xiao, Yunong Han, Zhenghua Xing, Fusen Wang, Xiyang Zhao
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Plants
Subjects:
canopy layer
leaf traits
photosynthetic traits
planting density
<i>Populus euramericana</i> ‘N3016’ × <i>Populus ussuriensis</i>
Online Access:https://www.mdpi.com/2223-7747/14/6/898
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Summary:(1) Background: Planting density is an important factor affecting the yield of poplar per unit area. Therefore, determining the optimal height of the photosynthetic canopy layer for different planting densities is critical. (2) Methods: This study takes <i>Populus euramericana</i> ‘N3016’ × <i>Populus ussuriensis</i> as the research object. According to on the average tree height, diameter at breast height, and crown width of the stand, one standard tree was selected from each planting density for the experiment. The canopy of the standard tree was divided into five canopy layers from top to bottom, and the first-order lateral branches of each canopy layer were divided into three sites from outside to inside. The photosynthesis and leaf traits at various positions in different canopy layers were measured. (3) Results: The results revealed significant differences in photosynthetic and leaf traits at different positions of different canopy layers under different planting densities. As the canopy layer gradually declined, photosynthetic traits revealed that instantaneous photosynthetic rate (Pn), transpiration rate (Tr), and stomatal conductance (Gs) gradually decreased, while intercellular CO<sub>2</sub> concentration (Ci) increased. Moreover, water use efficiency (WUE) initially increased and then decreased under an 825 trees·ha<sup>−1</sup> (D3) planting density. Leaf traits revealed that as leaf length (LL) gradually decreased, leaf width (LW), leaf area (LA), and leaf water content (LWC) gradually increased. Under three planting densities, leaf traits were negatively correlated with Pn, Tr, WUE, and Gs, but positively correlated with Ci. (4) Conclusions: As the planting density decreased, the photosynthetic capacity of poplar gradually increased. With a planting density of D3, all canopy layers were able to carry out efficient photosynthesis, and all living branches within the canopy were functional. However, under the planting density of 1650 trees·ha<sup>−1</sup> (D1) and 1089 trees·ha<sup>−1</sup> (D2), canopy layers 1 to 4 could perform effective photosynthesis, while the photosynthetic capacity of canopy layer 5 was relatively weak. This study reveals the interactive effects of canopy position and stand density on leaf physiological and morphological traits, providing new insights into the photosynthetic efficiency and growth strategies of poplar under different planting densities. It also offers theoretical support for optimizing stand management and enhancing productivity.
ISSN:2223-7747

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