Stable isotopic analysis of water utilization characteristics of four xerophytic shrubs in the Hobq Desert, Northern China

Wu Yongsheng; Liao Zilong; Yu Xiangqian; Yin Qiang; Wang Hui; Gao Li

doi:10.3389/fpls.2023.1103789

Stable isotopic analysis of water utilization characteristics of four xerophytic shrubs in the Hobq Desert, Northern China

Front Plant Sci. 2023 Jun 9:14:1103789. doi: 10.3389/fpls.2023.1103789. eCollection 2023.

Authors

Wu Yongsheng^{1

2}, Liao Zilong², Yu Xiangqian^{2

3}, Yin Qiang⁴, Wang Hui⁴, Gao Li⁴

Affiliations

¹ College of Geographical Science, Inner Mongolia Normal University, Hohhot, China.
² Institute of Water Resources for Pastoral Area, China Institute of Water Resources and Hydropower Research, Hohhot, China.
³ School of Earth Sciences and Engineering, Hohai University, Nanjing, China.
⁴ Institute of Grassland Research, Chinese Academy of Agricultural Sciences, Hohhot, China.

Abstract

Quantitative identification of water utilization characteristics of xerophytic shrubs is an important prerequisite for the selection and optimization of a regional artificial sand-fixing vegetation system. In this study, a hydrogen (δD) stable isotope technique was used to study the changes in water use characteristics of four typical xerophytic shrubs, Caragana korshinskii, Salix psammophila, Artemisia ordosica, and Sabina vulgaris in the Hobq Desert under light (4.8 mm after 1 and 5 days) and heavy (22.4 mm after 1 and 8 days) rainfall events. Under light rainfall, C. korshinskii and S. psammophila primarily used the 80-140 cm layer of soil water (37-70%) and groundwater (13-29%), and the water use characteristics did not change significantly after the light rainfall event. However, the utilization ratio of A. ordosica to soil water in the 0-40 cm layer increased from less than 10% on the first day after rain to more than 97% on the fifth day after rain, whereas the utilization ratio of S. vulgaris to soil water in the 0-40 cm layer also increased from 43% to nearly 60%. Under heavy rainfall, C. korshinskii and S. psammophila still used the 60-140 cm layer (56-99%) and groundwater (~15%), while the main water utilization depth of A. ordosica and S. vulgaris expanded to 0-100 cm. Based on the above results, C. korshinskii and S. psammophila primarily use the soil moisture of the 80-140 cm layer and groundwater, while A. ordosica and S. vulgaris use the soil moisture of the 0-100 cm layer. Therefore, the co-existence of A. ordosica and S. vulgaris will increase the competition between artificial sand-fixing plants, while the combination of the two plants with C. korshinskii and S. psammophila will avoid competition between artificial sand-fixing plants to some extent. This study provides important guidance for regional vegetation construction and sustainable management of an artificial vegetation system.

Keywords: Hobq desert; stable isotope; water source; water utilization; xerophytic shrubs.

Grants and funding

This study was jointly supported by the Science and Technology Program of the Inner Mongolia Autonomous Region (2019GG008, 2022YFDZ0036, MK0143A012022), the National Natural Science Foundation of China (42061017, 42072291), the Natural Science Foundation of Inner Mongolia Autonomous Region (2022MS04002), and the High-level Talent Research Start-up Funding Project of the Inner Mongolia Normal University (2020YJRC006).