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Response of the root anatomical structure of Carex moorcroftii to habitat drought in the Western Sichuan Plateau of China.
Yang, Jia-Ying; Wang, Hong-Bin; Zhang, Da-Cai.
Affiliation
  • Yang JY; Key Laboratory of National Forestry and Grassland Administration On Biodiversity Conservation in Southwest China, Southwest Forestry University, Bailongsi 300#, Kunming, Yunnan, 650224, China.
  • Wang HB; Key Laboratory of National Forestry and Grassland Administration On Biodiversity Conservation in Southwest China, Southwest Forestry University, Bailongsi 300#, Kunming, Yunnan, 650224, China.
  • Zhang DC; Key Laboratory of National Forestry and Grassland Administration On Biodiversity Conservation in Southwest China, Southwest Forestry University, Bailongsi 300#, Kunming, Yunnan, 650224, China. dczhang24@163.com.
Planta ; 259(6): 131, 2024 Apr 23.
Article in En | MEDLINE | ID: mdl-38652171
ABSTRACT
MAIN

CONCLUSION:

The anatomical structures of Carex moorcroftii roots showing stronger plasticity during drought had a lower coefficient of variation in cell size in the same habitats, while those showing weaker plasticity had a higher coefficient of variation. The complementary relationship between these factors comprises the adaptation mechanism of the C. moorcroftii root to drought. To explore the effects of habitat drought on root anatomy of hygrophytic plants, this study focused on roots of C. moorcroftii. Five sample plots were set up along a soil moisture gradient in the Western Sichuan Plateau to collect experimental materials. Paraffin sectioning was used to obtain root anatomy, and one-way ANOVA, correlation analysis, linear regression analysis, and RDA ranking were applied to analyze the relationship between root anatomy and soil water content. The results showed that the root transverse section area, thickness of epidermal cells, exodermis and Casparian strips, and area of aerenchyma were significantly and positively correlated with soil moisture content (P < 0.01). The diameter of the vascular cylinder and the number and total area of vessels were significantly and negatively correlated with the soil moisture content (P < 0.01). The plasticity of the anatomical structures was strong for the diameter and area of the vascular cylinder and thickness of the Casparian strip and epidermis, while it was weak for vessel diameter and area. In addition, there was an asymmetrical relationship between the functional adaptation of root anatomical structure in different soil moisture and the variation degree of root anatomical structure in the same soil moisture. Therefore, the roots of C. moorcroftii can shorten the water transport distance from the epidermis to the vascular cylinder, increase the area of the vascular cylinder and the number of vessels, and establish a complementary relationship between the functional adaptation of root anatomical structure in different habitats and the variation degree of root anatomical structure in the same habitat to adapt to habitat drought. This study provides a scientific basis for understanding the response of plateau wetland plants to habitat changes and their ecological adaptation strategies. More scientific experimental methods should be adopted to further study the mutual coordination mechanisms of different anatomical structures during root adaptation to habitat drought for hygrophytic plants.
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Full text: 1 Database: MEDLINE Main subject: Soil / Water / Ecosystem / Plant Roots / Carex Plant / Droughts Country/Region as subject: Asia Language: En Journal: Planta Year: 2024 Type: Article Affiliation country: China

Full text: 1 Database: MEDLINE Main subject: Soil / Water / Ecosystem / Plant Roots / Carex Plant / Droughts Country/Region as subject: Asia Language: En Journal: Planta Year: 2024 Type: Article Affiliation country: China