Slope position- mediated soil environmental filtering drives plant community assembly processes in hilly shrublands of Guilin, China

Chen, Kunquan; Pan, Yuanfang; Li, Yeqi; Cheng, Jiaying; Lin, Haili; Zhuo, Wenhua; He, Ya‐Ling; Fang, Yaocheng; Jiang, Yong

doi:10.3389/fpls.2022.1074191

Cited by 5 publications

(2 citation statements)

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“…On the steepest slopes, trees grow in the middle slope area, where the terrain is relatively flat. This area has rich soil nutrients and moderate levels of temperature, moisture, and light [45]. These factors might be the cause of why soil class 4 has higher a DCR and LCR compared to soil slope class 3.…”

Section: Tree Morphometricmentioning

confidence: 99%

“…Conversely, for damar trees, the down-slope position shows a consistently higher BD value across all slope classes (refer to Table 2). This variation is attributed to soil texture, influenced by the clay fraction [45]. The disparity in BD values between rain trees and damar trees is likely due to the placement of damar trees in more open areas, leading to disturbances and increased soil compaction.…”

Section: Soil Physic Propertiesmentioning

confidence: 99%

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Clarifying the Main Root Distribution of Trees in Varied Slope Environments Using Non-Destructive Root Detection

Taufiqurrachman,

Syafitri,

Rahman

et al. 2023

Forests

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Tree stability relies on the characteristics of both root and crown structures. However, studying root systems is challenging due to their underground location, often requiring destructive methods for assessment. Non-destructive approaches offer potential solutions, such as the root detector tool. However, research in this area remains limited and requires further development. This study aims to evaluate the root detector tool by inspecting the radial root distribution in trees with different tree crown shapes, both excurrent (Agathis loranthifolia) and decurrent (Samanea saman), which grow in various soil slopes and soil slope positions. In addition, we establish correlations between tree morphometry, the physical properties of soil, root attributes, sound wave velocity, and their relationship. Based on the results, it was found that the root detector tool is effective in evaluating root distribution, including identifying the main root. The slope position of the tree in a slope class influences the radial distribution of the main roots. This is related to the crown growth as indicated by the direction of its crown. Principal Component Analysis (PCA) findings suggest that parameter morphometric and soil and root properties data clustering align with slope position rather than slope class.

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Section: Tree Morphometricmentioning

confidence: 99%

Section: Soil Physic Propertiesmentioning

confidence: 99%