Differences in Leaf Functional Traits of Quercus rehderiana Hand.-Mazz. in Forests with Rocky and Non-Rocky Desertification in Southwest China

Quercus rehderiana Hand.-Mazz. belongs to Quercus sect. Heteroallenes ’ of the Fagaceae family. It is widely distributed in forests with rocky and non-rocky desertification in Guizhou Province of Southwest China. However, our knowledge of the adaptation strategies of Quercus in forests with rocky de...

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Bibliographic Details
Published in:Forests 2024-08, Vol.15 (8), p.1439
Main Authors: Xiao-Long, Bai, Tu, Feng, Zou, Shun, He, Bin, Chen, Yang, Wang-Jun, Li
Format: Article
Language:English
Subjects:
Adaptation
Carbon
China
Climate change
Comparative analysis
Composition
Desertification
Drought
Environmental aspects
Epidermis
Forest management
Forests
functional traits
Leaf area
Leaves
Magnesium
Mesophyll
Nutrient concentrations
Oak
Phosphorus
Physiological aspects
Physiology
Plant tissues
Potassium
Principal components analysis
Quercus
Quercus rehderiana
rocky desertification forest
Software
Soil analysis
Soil environment
Thickness
Vegetation
Water shortages
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Summary:Quercus rehderiana Hand.-Mazz. belongs to Quercus sect. Heteroallenes ’ of the Fagaceae family. It is widely distributed in forests with rocky and non-rocky desertification in Guizhou Province of Southwest China. However, our knowledge of the adaptation strategies of Quercus in forests with rocky desertification is surprisingly lacking. In this study, 16 leaf traits (morphological, anatomical, and chemical) of Quercus rehderiana were investigated in 15 individuals in five 20 × 20 m quadrants of forests with rocky and non-rocky desertification. The aim was to analyze their strategies of adaptation to arid and poor-soil environments in forests with rocky desertification. The results showed that Quercus rehderiana leaves in forests with rocky desertification had a greater leaf thickness, specific leaf area, abaxial epidermis thickness, and sponge mesophyll thickness but a lower leaf area than in forests with non-rocky desertification. Quercus rehderiana leaves in forests with rocky desertification had higher calcium and magnesium concentrations and a higher N:P ratio but lower potassium and phosphorus concentrations than in forests with non-rocky desertification. The results of principal component analysis showed that forests with rocky desertification tended to show resource-conserving strategies with thicker leaf tissue and a lower nutrient concentration, while forests with non-rocky desertification tended to show resource acquisition strategies with a greater leaf area and potassium concentration. In resource-poor environments, species that adopt conservative resource strategies are more likely to survive; therefore, we forecasted that more conservative, slow-growing Quercus rehderiana will be more stable over time.
ISSN:1999-4907
1999-4907
DOI:10.3390/f15081439