L
Lingli Lu
Researcher at Zhejiang University
Publications - 63
Citations - 3271
Lingli Lu is an academic researcher from Zhejiang University. The author has contributed to research in topics: Sedum alfredii & Hyperaccumulator. The author has an hindex of 29, co-authored 62 publications receiving 2535 citations. Previous affiliations of Lingli Lu include Swedish University of Agricultural Sciences & Agency for Science, Technology and Research.
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Enhanced root-to-shoot translocation of cadmium in the hyperaccumulating ecotype of Sedum alfredii
TL;DR: A greatly enhanced rate of root-to-shoot translocation was the pivotal process expressed in the Cd hyperaccumulator HE S. alfredii, and there was a 3–5 times higher Cd concentration in xylem sap of the HE in contrast to the NHE.
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Cellular sequestration of cadmium in the hyperaccumulator plant species Sedum alfredii
Shengke Tian,Lingli Lu,John M. Labavitch,Xiaoe Yang,Zhenli He,Hening Hu,Ritimukta Sarangi,Matthew Newville,Joel Commisso,Patrick O. Brown +9 more
TL;DR: Results indicate that a majority of Cd in HE accumulates in the parenchyma cells, especially in stems, and is likely associated with calcium pathways and bound with organic acid (malate), which is indicative of a critical role of vacuolar sequestration of CD in the HE S. alfredii.
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Nitrate reductase-mediated early nitric oxide burst alleviates oxidative damage induced by aluminum through enhancement of antioxidant defenses in roots of wheat (Triticum aestivum).
Chengliang Sun,Lingli Lu,Lijuan Liu,Wenjing Liu,Yan Yu,Xiaoxia Liu,Yan Hu,Chong Wei Jin,Xianyong Lin +8 more
TL;DR: It is suggested that an NR-mediated early NO burst plays an important role in Al resistance of wheat through modulating enhanced antioxidant defense to adapt to Al stress.
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Unique Rhizosphere Micro-characteristics Facilitate Phytoextraction of Multiple Metals in Soil by the Hyperaccumulating Plant Sedum alfredii
TL;DR: The rhizosphere characteristics of Sedum alfredii, particularly the unique bacterial rhizobiome of a hyperaccumulator, are revealed that might provide a new approach to facilitating heavy metal phytoextraction.
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Uptake, Translocation, and Remobilization of Zinc Absorbed at Different Growth Stages by Rice Genotypes of Different Zn Densities
Chunyong Wu,Lingli Lu,Xiaoe Yang,Ying Feng,Yanyan Wei,Hulin Hao,Peter J. Stoffella,Zhenli He +7 more
TL;DR: Results indicate that Zn density in rice grains is closely associated with the ability to translocate Zn from old tissues to new tissues at both early and late growth stages and with phloem remobilization of ZN from leaves and stems to grains.