Lixiao Ni
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Explore the profile of Lixiao Ni including associated specialties, affiliations and a list of published articles.
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49
Citations
93
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Recent Articles
1.
Zhang Y, Shi J, Ma Y, Zhu C, Shao C, Ni L, et al.
Bull Environ Contam Toxicol
. 2025 Mar;
114(3):37.
PMID: 40053096
Artemisinin algaecide (AMA) had a significant inhibitory effect on algae in our previous study, but the impact on coexisting submerged plants was unclear. In this study, we investigated the impacts...
2.
Yin L, Shi K, Yin Y, Zhang Y, Xu L, An J, et al.
J Hazard Mater
. 2025 Jan;
487:137205.
PMID: 39818060
Harmful algal blooms are a critical eco-environmental issue with severe impacts on aquatic ecosystems and human health. Tannic acid (TA) has been suggested as an effective algal bloom control, but...
3.
Yin L, Yin Y, Xu L, Zhang Y, Shi K, Wang J, et al.
J Hazard Mater
. 2024 Dec;
485:136886.
PMID: 39689566
Tetrabromobisphenol A (TBBPA) poses significant ecological risks owing to its toxicity; however, its specific effects on toxin-producing cyanobacteria in aquatic environments remain poorly understood. This study systematically investigated the effects...
4.
Ma Y, Zhu X, Ni L, Du C, Sang W, Xu C, et al.
J Hazard Mater
. 2024 Nov;
480:136511.
PMID: 39549401
Carbon pools and microbial carbon metabolism can be significantly altered due to the diverse organic matter properties and low pH characteristics of artemisinin sustained-release algaecides (ASAs). These effects have still...
5.
Sang W, Du C, Ni L, Li S, Ma Y, Hamad A, et al.
J Hazard Mater
. 2024 Nov;
480:136461.
PMID: 39531823
Cyanobacterial harmful algal blooms (CyanoHABs) in Taihu Lake pose a persistent environmental challenge. This study investigated the inhibitory effects of artemisinin algaecide (AMA) on cyanobacteria in Taihu Lake and assessed...
6.
Ma Y, Zhu X, Ni L, Du C, Sang W, Xu C, et al.
J Hazard Mater
. 2024 Oct;
480:136182.
PMID: 39427356
The artemisinin sustained-release algaecides (ASAs) have been proven to be a safe and effective mean of inhibiting cyanobacteria in laboratory experiments. However, their effectiveness and impacts on ecosystem functions (EF)...
7.
Du C, Sang W, Abbas M, Xu C, Jiang Z, Ma Y, et al.
J Hazard Mater
. 2024 Jul;
477:135273.
PMID: 39047561
Algal blooms can produce substantial amounts of algal organic matter (AOM). Microplastics (MPs) in aquatic environments inevitably interact with AOM. Meanwhile, the aging and type of MPs may increase the...
8.
Abbas M, Ni L, Du C
Environ Technol
. 2024 Jul;
46(7):977-990.
PMID: 38972299
Crude oil spills significantly impact aquatic ecosystems, necessitating innovative remediation strategies. Microalgae-based bioremediation, particularly with , offers a promising solution. This study introduces a novel framework that evaluates the combined...
9.
Abbas M, Ni L, Du C
Int J Phytoremediation
. 2024 Jun;
26(12):1914-1922.
PMID: 38847151
Crude oil spills imperil aquatic ecosystems globally, prompting innovative solutions such as microalgae-based bioremediation. This study explores the potential of and , for crude oil spill phycoremediation under mixotrophic conditions...
10.
Wang J, Yin L, Liu W, Shi K, Zhang Y, He H, et al.
J Environ Manage
. 2024 May;
360:121232.
PMID: 38801804
Surfactant pollution is escalatitheng in eutrophic waters, but the effect of surfactant charge properties on the physiological and biochemical properties of toxin-producing microalgae remains inadequately explored. To address this gap,...