Lamei Lei
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Explore the profile of Lamei Lei including associated specialties, affiliations and a list of published articles.
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16
Citations
40
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Recent Articles
1.
Xiao L, Jiang Y, Chen Z, Peng L, Tang Y, Lei L
Microorganisms
. 2025 Jan;
12(12.
PMID: 39770810
Taste and odor (T/O) compounds are a global threat in drinking water, mainly produced by cyanobacteria in freshwater environments. Temperature plays a crucial role in regulating geosmin dynamics in temperate...
2.
Lu Z, Cai Q, Lai S, Chen N, Huang L, Liu Y, et al.
Water Res
. 2023 Dec;
250:121010.
PMID: 38142507
Cylindrospermopsin (CYN) can induce phytoplankton community to secrete alkaline phosphatase (ALP), which is one of the important strategies for the bloom-forming cyanobacterium Raphidiopsis to thrive in extremely low-phosphorus (P) waters....
3.
Lei L, Lai S, Liu W, Li Y, Zhang H, Tang Y
Front Microbiol
. 2023 Nov;
14:1292277.
PMID: 38033554
Feeding effects are crucial for evaluating the capacity of zooplankton to regulate phytoplankton populations within freshwater ecosystems. To examine the impact of the bloom-forming cyanobacteria , which occurs in tropical...
4.
Lu Z, Ye J, Chen Z, Xiao L, Lei L, Han B, et al.
Water Res
. 2022 Mar;
214:118215.
PMID: 35228039
Nutrient storage is considered a critical strategy for algal species to adapt to a fluctuating nutrient supply. Luxury phosphorus (P) uptake into storage of polyphosphate extends the duration of cyanobacterial...
5.
Lei L, Lei M, Cheng N, Chen Z, Xiao L, Han B, et al.
Front Microbiol
. 2021 Dec;
12:793544.
PMID: 34899674
Raphidiopsis raciborskii (previously ) can produce cylindrospermopsin (CYN) which is of great concern due to its considerable toxicity to human and animals. Its CYN-producing (toxic) and non-CYN-producing (non-toxic) strains co-exist...
6.
Lu Z, Lei L, Lu Y, Peng L, Han B
Environ Pollut
. 2021 Aug;
290:117946.
PMID: 34425369
Potentially toxic Cylindrospermopsis raciborskii blooms are of emerging concerns, as its scale is spreading from tropical regions to high latitudes, increasing the risk of aquatic biota being exposed to cylindrospermopsin...
7.
Tang Q, Lei L, Zhao L, Gu J, Xiao L, Han B
Ecotoxicology
. 2021 Feb;
30(5):936-944.
PMID: 33534070
Changes in water level and flushing rate directly affect to a large extent the biomass of harmful cyanobacteria, and drive the shift of phytoplankton composition between cyanobacteria dominance/non-dominance in eutrophic...
8.
Peng L, Tang Q, Gu J, Lei L, Chen W, Song L
Ecotoxicology
. 2020 May;
29(6):790-800.
PMID: 32424447
Bioaccumulation of microcystins (MCs) has been widely observed in aquatic vertebrates and invertebrates, but its seasonal and specific variations remain unclear. In the present study, dissolved MCs in water, algal...
9.
Lin Q, Chen Q, Peng L, Xiao L, Lei L, Jeppesen E
Water Res
. 2020 May;
180:115841.
PMID: 32422412
Stocking of bigheaded carp (mainly Hypophthalmichthys nobilis and H. molitrix) is commonly used in (sub)tropical Chinese reservoirs to control phytoplankton, but with ambiguous results. Whether these carp act as a...
10.
Lei L, Huang H, Peng L, Yang Y, Xiao L, Han B
Ecotoxicology
. 2020 May;
29(6):771-779.
PMID: 32385599
Many cyanobacterial species co-occur commonly in a freshwater ecosystem and can be consumed simultaneously by zooplankton. Both Microcystis aeruginosa and Cylindrospermopsis raciborskii are the dominant species and coexist in eutrophic...