Longbin Huang
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Explore the profile of Longbin Huang including associated specialties, affiliations and a list of published articles.
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55
Citations
253
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Recent Articles
1.
Yue N, Zhao H, Hu P, Zhang Y, Tian C, Kong C, et al.
J Nanobiotechnology
. 2025 Jan;
23(1):65.
PMID: 39891249
Probiotics have been proposed as a potential strategy for managing ulcerative colitis (UC). However, the underlying mechanisms mediating microbiota-host crosstalk remain largely elusive. Here, we report that Limosilactobacillus reuteri (L....
2.
Zhang T, Wu Z, Ge L, Shang J, Huang Y, Liu Y, et al.
Environ Pollut
. 2024 Jul;
358:124492.
PMID: 38960117
Immobilization and stabilization of heavy metals (HMs) in sulfidic and metallic tailings are critical to long-term pollution control and sustainable ecological rehabilitation. This study aims to unravel immobilization mechanisms of...
3.
Ao J, Huang S, Liao S, Huang L, Zhong E, Zhao P, et al.
Endoscopy
. 2024 Jan;
56(S 01):E13-E14.
PMID: 38194981
No abstract available.
4.
Li Z, Wu S, Yi Q, Liu Y, Wang J, Nguyen T, et al.
Environ Sci Technol
. 2023 Dec;
57(51):21779-21790.
PMID: 38091466
Arbuscular mycorrhizal (AM) fungi play an important role in organic matter (OM) stabilization in Fe ore tailings for eco-engineered soil formation. However, little has been understood about the AM fungi-derived...
5.
Yi Q, You F, Li Z, Wu S, Chan T, Lu Y, et al.
Environ Sci Technol
. 2023 Dec;
57(51):21744-21756.
PMID: 38085882
Mineral weathering and alkaline pH neutralization are prerequisites to the ecoengineering of alkaline Fe-ore tailings into soil-like growth media (i.e., Technosols). These processes can be accelerated by the growth and...
6.
Liu Y, Wu Z, Zhang T, Zhao J, Shen C, Tang H, et al.
Sci Total Environ
. 2023 Dec;
912:169163.
PMID: 38072279
Hardpan-based profiles naturally formed under semi-arid climatic conditions have substantial potential in rehabilitating sulfidic tailings, resulting from their aggregation microstructure regulated by Fe-Si cements. Nevertheless, eco-engineered approaches for accelerating the...
7.
Liao S, Li B, Huang L, Qiu Q, Yang G, Ren J, et al.
Endoscopy
. 2023 Aug;
55(S 01):E977-E979.
PMID: 37604447
No abstract available.
8.
Wu S, Bougoure J, Wang J, Thomsen L, Chan T, Yi Q, et al.
Environ Sci Technol
. 2023 Aug;
57(33):12325-12338.
PMID: 37574860
Organic matter (OM) formation and stabilization are critical processes in the eco-engineered pedogenesis of Fe ore tailings, but the underlying mechanisms are unclear. The present 12 month microcosm study has...
9.
Wu S, Fu W, Rillig M, Chen B, Zhu Y, Huang L
New Phytol
. 2023 Aug;
242(4):1417-1425.
PMID: 37529867
Arbuscular mycorrhizal (AM) fungi play an important role in soil organic matter (SOM) formation and stabilization. Previous studies have emphasized organic compounds produced by AM fungi as persistent binding agents...
10.
Wu S, Liu Y, Southam G, Nguyen T, Konhauser K, You F, et al.
iScience
. 2023 Jul;
26(7):107102.
PMID: 37485366
Ecological engineering of soil formation in tailings is an emerging technology toward sustainable rehabilitation of iron (Fe) ore tailings landscapes worldwide, which requires the formation of well-organized and stable soil...