Zhenguo Shen scite author profile

Chemically enhanced phytoextraction has been proposed as an effective approach to removing heavy metals from contaminated soil through the use of high biomass plants.Using pot experiments, the effects of the application of EDTA, EDDS and citric acid on the uptake of Cu, Pb, Zn and Cd by corn (Zea mays L. cv. Nongda 108) and bean (Phaseolus vulgaris L. white bean) plants were studied. The results showed that EDDS was more effective than EDTA at increasing the concentration of Cu in corn and beans.The application of 5 mmol kg -1 soil EDDS application to soil significantly increased concentrations of Cu in shoots , with maximum levels of 2060 and 5130 mg kg -1 DW in corn and beans, respectively, which were 45-fold and 135-fold higher than that in the corresponding control plants to which chelate had not been applied. Concentrations of Zn in shoots were also higher in the plants treated with EDDS than in those treated with EDTA. For Pb and Cd, EDDS was less effective than EDTA. The maximum Cu This is the Pre-Published Version.2 phytoextraction was found with the EDDS treatment. The application of EDTA and EDDS also significantly increased the shoot-to-root ratios of the concentrations of Cu, Pb, Zn and Cd in both plant species. The results of metal extraction with chelates showed that EDDS was more efficient at solubilizing Cu and Zn than EDTA, and that EDTA was better at solubilizing Pb and Cd than EDDS.

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Uptake and transport of zinc in the hyperaccumulator Thlaspi caerulescens and the non‐hyperaccumulator Thlaspi ochroleucum

Shen

Zhao

McGrath

1997

Plant Cell & Environment

257

182

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Growth and zinc uptake of the hyperaccumulator species Thiaspi caerulescens ,1. & C. Presl and the non-hyperaccumulator species Thiaspi ochroleucum Boiss. & Heldr. were compared in solution culture experiments. T. caerulesecns was able to tolerate 500 mmol m"' (32-5 g m"') Zn in solution without growth reduction, and up to 1000 mmol m""^ (65 g m~"^) Zn without showing visible toxic symptoms but with a 25% decrease in dry matter (DM) yield. Up to 28 g kg"' of Zn in shoot DM was obtained in healthy plants of T. caerulescens. In contrast, 7'. ochroleucum suffered severe phytotoxicity at 500 mmol m~^ Zn. Marked differences were shown in Zn uptake, distribution and re-distribution between the two species. T. caerulescens had much higher concentrations of Zn in the shoots, whereas T. ochroleucum accumulated higher concentrations of Zn in the roots. When an external supply of 500 mmol m"^ Zn was withheld, 89% of the Zn accumulated previously in the roots of T. caerulescens was transported to tbe shoots over a 33 d period, whereas in 7". ochroleucum only 32% was transported. T. caerulescens was shown to have a greater internal requirement for Zn than other plants. Increasing the supply of Zn from 1 to 10 mmol m~' gave a 19% increase in the total DM of this species. Even the shoots from the 1 mmol m'^ Zn treatment which showed Zn deficiency contained 10 times greater Zn concentrations than the widely reported critical value for Zn deficiency to occur in many other plant species. The results obtained suggest that strongly expressed constitutive sequestration mechanisms exist in the hyperaccumulator 7'. caeruleseens, wbicb detoxify the large amount of Zn present in shoot tissues and decrea.se its physiological availability in tbe cytosol. Both T. caerulescens and T. ochroleiietim had constitutively high concentrations of malate in shoots, which were little affected by different Zn treatments. Although malate may play a role in Zn chelation because of tbe high concentrations present, it cannot explain the species specificity of Zn tolerance and hyperaccumulation.

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Lead Phytoextraction from Contaminated Soil with High‐Biomass Plant Species

et al. 2002

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In this study, cabbage [Brassica rapa L. subsp. chinensis (L.) Hanelt cv. Xinza No 1], mung bean [Vigna radiata (L.) R. Wilczek var. radiata cv. VC-3762], and wheat (Triticum aestivum L. cv. Altas 66) were grown in Pb-contaminated soils. Application of ethylenediaminetetraacetic acid (EDTA) (3.0 mmol of EDTA/kg soil) to the soil significantly increased the concentrations of Pb in the shoots and roots of all the plants. Lead concentrations in the cabbage shoots reached 5010 and 4620 mg/kg dry matter on Days 7 and 14 after EDTA application, respectively. EDTA was the best in solubilizing soil-bound Pb and enhancing Pb accumulation in the cabbage shoots among various chelates (EDTA, diethylenetriaminepentaacetic acid [DTPA], hydroxyethylenediaminetriacetic acid [HEDTA], nitrilotriacetic acid [NTA], and citric acid). Results of the sequential chemical extraction of soil samples showed that the Pb concentrations in the carbonate-specifically adsorbed and Fe-Mn oxide phases were significantly decreased after EDTA treatment. The results indicated that EDTA solubilized Pb mainly from these two phases in the soil. The relative efficiency of EDTA enhancing Pb accumulation in shoots (defined as the ratio of shoot Pb concentration to EDTA concentration applied) was highest when 1.5 or 3.0 mmol EDTA/kg soil was used. Application of EDTA in three separate doses was most effective in enhancing the accumulation of Pb in cabbage shoots and decreased mobility of Pb in soil compared with one- and two-dose application methods. This approach could help to minimize the amount of chelate applied in the field and to reduce the potential risk of soluble Pb movement into ground water.

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Chemical Forms of Pb, Zn and Cu in the Sediment Profiles of the Pearl River Estuary

Shen

Wai

et al. 2001

Marine Pollution Bulletin

288

111

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Effects of silicon on salinity tolerance of two barley cultivars

Liang

Shen

et al. 1996

Journal of Plant Nutrition

194

115

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Chemical methods and phytoremediation of soil contaminated with heavy metals

et al. 2000

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Alternative Splicing Plays a Critical Role in Maintaining Mineral Nutrient Homeostasis in Rice (Oryza sativa)

et al. 2018

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Alternative splicing (AS) of pre-mRNAs promotes transcriptome and proteome diversity and plays important roles in a wide range of biological processes. However, the role of AS in maintaining mineral nutrient homeostasis in plants is largely unknown. To clarify this role, we obtained whole transcriptome RNA sequencing data from rice (Oryza sativa) roots grown in the presence or absence of several mineral nutrients (Fe, Zn, Cu, Mn, and P). Our systematic analysis revealed 13,291 alternatively spliced genes, representing ∼53.3% of the multiexon genes in the rice genome. As the overlap between differentially expressed genes and differentially alternatively spliced genes is small, a molecular understanding of the plant's response to mineral deficiency is limited by analyzing differentially expressed genes alone. We found that the targets of AS are highly nutrient-specific. To verify the role of AS in mineral nutrition, we characterized mutants in genes encoding Ser/Arg (SR) proteins that function in AS. We identified several SR proteins as critical regulators of Zn, Mn, and P nutrition and showed that three SR protein-encoding genes regulate P uptake and remobilization between leaves and shoots of rice, demonstrating that AS has a key role in regulating mineral nutrient homeostasis in rice.

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Carbon monoxide enhances salt tolerance by nitric oxide‐mediated maintenance of ion homeostasis and up‐regulation of antioxidant defence in wheat seedling roots

Xie

Ling

Han³

et al. 2008

Plant Cell & Environment

153

110

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Salt stress induced an increase in endogenous carbon monoxide (CO) production and the activity of the CO synthetic enzyme haem oxygenase (HO) in wheat seedling roots. In addition, a 50% CO aqueous solution, applied daily, not only resulted in the enhancement of CO release, but led to a significant reversal in dry weight (DW) and water loss caused by 150 mM NaCl treatment, which was mimicked by the application of two nitric oxide (NO) donors sodium nitroprusside (SNP) and diethylenetriamine NO adduct (DETA/NO). Further analyses showed that CO, as well as SNP, apparently up-regulated H + -pump and antioxidant enzyme activities or related transcripts, thus resulting in the increase of K/Na ratio and the alleviation of oxidative damage. Whereas, the CO/NO scavenger haemoglobin (Hb), NO scavenger or synthetic inhibitor methylene blue (MB) or N G -nitro-L-arginine methyl ester hydrochloride (L-NAME) differentially blocked these effects. Furthermore, CO was able to mimic the effect of SNP by strongly increasing NO release in the root tips, whereas the CO-induced NO signal was quenched by the addition of L-NAME or cPTIO, the specific scavenger of NO. The results suggested that CO might confer an increased tolerance to salinity stress by maintaining ion homeostasis and enhancing antioxidant system parameters in wheat seedling roots, both of which were partially mediated by NO signal.

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Zhenguo Shen

Enhanced phytoextraction of Cu, Pb, Zn and Cd with EDTA and EDDS

Uptake and transport of zinc in the hyperaccumulator Thlaspi caerulescens and the non‐hyperaccumulator Thlaspi ochroleucum

Lead Phytoextraction from Contaminated Soil with High‐Biomass Plant Species

Chemical Forms of Pb, Zn and Cu in the Sediment Profiles of the Pearl River Estuary

Effects of silicon on salinity tolerance of two barley cultivars

Chemical methods and phytoremediation of soil contaminated with heavy metals

Alternative Splicing Plays a Critical Role in Maintaining Mineral Nutrient Homeostasis in Rice (Oryza sativa)

Carbon monoxide enhances salt tolerance by nitric oxide‐mediated maintenance of ion homeostasis and up‐regulation of antioxidant defence in wheat seedling roots

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