Groundwater Depth Drives Carbon Pools and Population Dynamics in Deep‐Rooted Desert Plants of a Hyper‐Arid Ecosystem
Caibian Huang, Zhiqiang Ma, Bo Zhang, Fanjiang Zeng, Shaomin Zhang

TL;DR
This study shows how groundwater depth affects carbon storage and population dynamics in desert shrubs in hyper-arid regions.
Contribution
The study reveals a density–growth trade-off and recruitment threshold in desert shrubs due to groundwater depth.
Findings
Groundwater depth regulates carbon allocation and plant performance in desert shrubs.
Population density decreases while individual biomass increases with deeper groundwater.
Carbon pools support persistence but cannot offset the negative impact of deep groundwater.
Abstract
Groundwater plays a crucial role in supporting vegetation in hyper‐arid regions, yet its regulatory effects on deep‐rooted plants remain poorly understood. This study examined Alhagi sparsifolia Shap., a groundwater‐dependent desert shrub at the southern Tarim Basin, over 4 years (2021–2024). We investigated how groundwater depth (2.5, 4.5, 11.0 m) influences population dynamics, biomass, and non‐structural carbohydrates (NSCs). Our findings reveal that groundwater depth critically regulates carbon allocation and plant performance. NSC content exhibited nonlinear responses, with soluble sugars and starch reduced at 4.5 m depth, but elevated at 11.0 m. While total carbon content remained stable, its seasonal and interannual fluctuations were significant. Population density decreased, while individual biomass increased with groundwater depth, indicating a density–growth trade‐off. At…
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Taxonomy
TopicsPlant Water Relations and Carbon Dynamics · Biocrusts and Microbial Ecology · Plant nutrient uptake and metabolism
