- Title
- Soil urease functional stability to Hg pollution: An ecotoxicological perspective
- Creator
- Huang, Hui; Tian, Haixia; Li, Yan; Wang, Ziquan; Yang, Tiantian; Qian, Rui; Megharaj, Mallavarapu; He, Wenxiang
- Relation
- Ecotoxicology Vol. 33, p. 839-848
- Publisher Link
- http://dx.doi.org/10.1007/s10646-024-02782-8
- Publisher
- Springer
- Resource Type
- journal article
- Date
- 2024
- Description
- Mercury (Hg) is a persistent soil pollutant, and its toxicity can be evaluated using soil enzyme indicators. However, a thorough understanding of how the enzyme resists and remains resilient to Hg stress is essential, as it significantly impacts the accuracy of toxicity assessments. Therefore, it is worthwhile to understand the functional stability of urease in soil under Hg pollution. This study compares the effects of Hg at different concentrations and exposure times on soil urease. Results indicate that soil urease activity was enhanced in the first two hours under low levels of Hg pollution, decreased after six hours of acute Hg pollution, and reached its maximum reduction in 24 hours. The urease in fluvo-aquic soil, with higher soil organic matter showed higher resistance to Hg acute pollution than that in red soil. Over a longer aging process, soil urease activity gradually recovered with time. Hormesis effects were observed in red soil under high Hg stress after 30 days, showing the strong resilience of urease enzyme function to Hg pollution. The ecological dose, ED10, (the Hg concentration causing a 10% reduction in soil urease activity) ranged from 0.09 to 0.59 mg kg−1 under short-term exposure, and was lower than that under a longer aging process (0.28 to 2.71 mg kg−1). Further, aging reduced the Hg ecotoxicity due to decreased Hg availability and the resilience of soil urease activity. This indicates that the risk of Hg pollution estimated by soil urease as an indicator depends on exposure time and enzyme stability. These factors need consideration in heavy metal pollution assessments using soil enzymes.
- Subject
- Hg; urease; ecological dose; pollution time; enzyme stability; resilience
- Identifier
- http://hdl.handle.net/1959.13/1511930
- Identifier
- uon:56570
- Identifier
- ISSN:0963-9292
- Language
- eng
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