Rare Earth Element Transfer from Soil to Navel Orange Pulp (Citrus sinensis Osbeck cv. Newhall) and the Effects on Internal Fruit Quality

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Abstract

The effects of soil rare earth element (REE) on navel orange quality and safety in rare earth ore areas have gained great attention. This study investigated the transfer characteristics of REE from soil to navel orange pulp ( Citrus sinensis Osbeck cv. Newhall) and examined the effects of soil REE on internal fruit quality in Xinfeng County, Jiangxi province, China. Path analysis showed that soil REE, pH, cation exchange capacity (CEC), and Fe oxide (Fe _ox) significantly affected pulp REE concentrations. A Freundlich-type prediction model for pulp REE was established: log[REE _pulp] = -1.036 + 0.272 log[REE _soil] - 0.056 pH - 0.360 log[CEC] + 0.370 log[Fe _ox] (n = 114, R ² = 0.60). From the prediction model, it was inferred that even when soil REE and Fe _ox were as high as 1038 mg kg ^-1 and 96.4 g kg ^-1, respectively, and pH and CEC were as low as 3.75 and 5.08 cmol kg ^-1, respectively, pulp REE concentrations were much lower than the food limit standard. Additionally, soil REE levels were significantly correlated with selected fruit quality indicators, including titratable acidity ( r = 0.52, P < 0.01), total soluble solids ( r = 0.48, P < 0.01) and vitamin C ( r = 0.56, P < 0.01). Generally, under routine methods of water and fertilization management, the cultivation of navel oranges in rare earth ore areas of south China with soil REE ranging from 38.6 to 546 mg kg ^-1 had improved in internal fruit quality.

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A long way ahead: understanding and engineering plant metal accumulation.

Stephan Clemens, Michael Palmgren, Ute Krämer (2002)

Some plants can hyperaccumulate metal ions that are toxic to virtually all other organisms at low dosages. This trait could be used to clean up metal-contaminated soils. Moreover, the accumulation of heavy metals by plants determines both the micronutrient content and the toxic metal content of our food. Complex interactions of transport and chelating activities control the rates of metal uptake and storage. In recent years, several key steps have been identified at the molecular level, enabling us to initiate transgenic approaches to engineer the transition metal content of plants.

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A human health risk assessment of rare earth elements in soil and vegetables from a mining area in Fujian Province, Southeast China.

Xiaofei Li, Zhibiao Chen, Zhiqiang Chen … (2013)

Contaminated food through dietary intake has become the main potential risk impacts on human health. This study investigated concentrations of rare earth elements (REEs) in soil, vegetables, human hair and blood, and assessed human health risk through vegetables consumption in the vicinity of a large-scale mining area located in Hetian Town of Changting County, Fujian Province, Southeast China. The results of the study included the following mean concentrations for total and bio-available REEs of 242.92 ± 68.98 (135.85-327.56)μg g(-1) and 118.59 ± 38.49 (57.89-158.96)μg g(-1) dry weight (dw) in agricultural soil, respectively, and total REEs of 3.58 ± 5.28 (0.07-64.42)μg g(-1) dw in vegetable samples. Concentrations of total REEs in blood and hair collected from the local residents ranged from 424.76 to 1274.80 μg L(-1) with an average of 689.74 ± 254.25 μg L(-1) and from 0.06 to 1.59 μg g(-1) with an average of 0.48 ± 0.59 μg g(-1) of the study, respectively. In addition, a significant correlation was observed between REEs in blood and corresponding soil samples (R(2)=0.6556, p 0.05). Mean concentrations of REEs of 2.85 (0.59-10.24)μg L(-1) in well water from the local households was 53-fold than that in the drinking water of Fuzhou city (0.054 μg L(-1)). The health risk assessment indicated that vegetable consumption would not result in exceeding the safe values of estimate daily intake (EDI) REEs (100-110 μg kg(-1)d(-1)) for adults and children, but attention should be paid to monitoring human beings health in such rare earth mining areas due to long-term exposure to high dose REEs from food consumptions.

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Effects of redox potential and pH value on the release of rare earth elements from soil.

Xinde Cao, Ying Chen, Xiaorong Wang … (2001)

Equilibrium release experiments were conducted under three different pH values of 3.5, 5.5 and 7.5 as well as three redox potentials of 400, 0 and -100 Mv to investigate the influence of redox potential and pH value on the La, Ce, Gd and Y release of from the simulated-REEs-accumulation (SRA) soil. Oxygen and nitrogen were allowed to flow into soil suspension to adjust redox potential to a preset value, and 1 mol/l HCl or 1 mol/l NaOH solutions were added into the soil suspension to keep pH at a preset value. Results indicated that La, Ce, Gd and Y release increased gradually with the decrease of pH value or Eh, and the influence of redox potential on Ce was more remarkable than on La, Gd and Y. At the same time. It was observed that La, Ce, Gd and Y releases were positively correlated with the release of Fe and Mn, indicating that La, Ce, Gd and Y releases might originate from dissolution of Fe-Mn oxyhydroxides under reduction and low pH conditions. Moreover, it was found that alteration of pH value and redox potential might affect the change of La, Ce, Gd and Y species in the soil. The contents of La, Ce, Gd and Y in exchangeable fraction and Fe-Mn oxide fraction in the solid phase from soil suspension separation decreased with the decline of pH value and redox potential. Multiple stepwise regression analysis showed that exchangeable fraction and Fe-Mn oxide fraction predominately contributed to the La, Ce, Gd and Y release. Low pH value and redox potential were more favorable to La, Ce, Gd and Y releases following the change of their species. The La, Ce, Gd and Y contents in exchangeable fraction and Fe-Mn oxide fraction are the main contributors to their release.

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Author and article information

Contributors

Jingdong Mao: Role: Academic Editor

Journal

Journal ID (nlm-ta): PLoS One

Journal ID (iso-abbrev): PLoS ONE

Journal ID (publisher-id): plos

Journal ID (pmc): plosone

Title: PLoS ONE

Publisher: Public Library of Science (San Francisco, CA USA )

ISSN (Electronic): 1932-6203

Publication date (Electronic): 25 March 2015

Publication date Collection: 2015

Volume: 10

Issue: 3

Electronic Location Identifier: e0120618

Affiliations

[1 ]Key Laboratory of Soil Environment and Pollution Remediation, Institute of Soil Science, Chinese Academy of Sciences, Nanjing, 210008, P R China

[2 ]University of the Chinese Academy of Sciences, Beijing, 100049, P R China

[3 ]Jiangxi Key Laboratory of Ecological Research of Red Soil, Ecological Experimental Station of Red Soil, Chinese Academy of Sciences, Yingtan, 335211, P R China

Old Dominion Univ., UNITED STATES

Author notes

Competing Interests: The authors have declared that no competing interests exist.

Conceived and designed the experiments: JJC CFD XGL TLZ XXW. Performed the experiments: JJC. Analyzed the data: JJC. Contributed reagents/materials/analysis tools: JJC CFD XGL TLZ XXW. Wrote the paper: JJC XXW.

* E-mail: xxwang@ 123456issas.ac.cn

Article

Publisher ID: PONE-D-14-45423

DOI: 10.1371/journal.pone.0120618

PMC ID: 4373677

PubMed ID: 25806821

SO-VID: 8004fe34-0195-45e1-91e5-55624e9677f4

License:

This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited

History

Date received : 28 October 2014

Date accepted : 24 January 2015

Page count

Figures: 4, Tables: 5, Pages: 15

Funding

This work was supported by the GanPo 555 Talents Program of Jiangxi Province, China, URL: http://www.jiangxi.gov.cn/ and the Knowledge Innovation Program of Chinese Academy of Sciences (ISSAS Y112000016), URL: http://www.cas.cn/, author received the funding: XXW. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

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Rare Earth Element Transfer from Soil to Navel Orange Pulp ( Citrus sinensis Osbeck cv. Newhall) and the Effects on Internal Fruit Quality

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Most cited references 11

A long way ahead: understanding and engineering plant metal accumulation.

A human health risk assessment of rare earth elements in soil and vegetables from a mining area in Fujian Province, Southeast China.

Effects of redox potential and pH value on the release of rare earth elements from soil.

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