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Spatial Prediction of Soil Temperature in China
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The Land Use and Land Cover Change Analysis of Wuliangsu Lake
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Overview of Application of Remote Sensing on Drought Monitoring in Inner Mongolia
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Research on the Transformation and Accumulation of Nickel through Soil-Crop Continuum in Black Soil of Jilin Province
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Analysis of Spatial Variability of Soil Granules in early Stage of Reclamation at Opencast Coal Mine Dump in Loess Area
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Assessment and Analysis on the Water Resource Vulnerability in Arid Zone Based on the PSR Model
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Analysis on the Water Resource Bearing Capacity of Arid Zone – In Kashgar Zone for Example
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Effects of Different Light Intensity on the Growth and Nutrients Content of Gynura
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 955-959Research on the Transformation and Accumulation of...

Research on the Transformation and Accumulation of Nickel through Soil-Crop Continuum in Black Soil of Jilin Province

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Abstract:

Based on the systematic fieldwork and the sampling of soil and corn, this paper studied the geochemical characteristic and the characteristic of total and available Ni in black soil and corn and the effects on them by the geochemical methods and SPSS software. The aim was to show the characteristic of Ni transformation and accumulation through soil-crop continuum and the influencing factors for food security. The results showed that total Ni in black soil of Jilin Province are above Jilin and national background level, the content of Ni is keeping the natural background in black soil in Jilin province. The influence of human activities in this district till now is comparatively less. The transformation degree of available Ni is relatively high. The degree of Ni accumulation in corn is low. The total Ni in soil have controlled effect on the available Ni, and the total Cu, Cr, Zn and the available Cr play a significant role in Ni transformation. The slight acid soil is better for Ni transformation and accumulation.

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Advances in Environmental Technologies III

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Periodical:

Advanced Materials Research (Volumes 955-959)

Pages:

3740-3745

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.955-959.3740

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Online since:

June 2014

Authors:

Xiao Lin Yang*, Dong Yan Wang, Qi Gang Jiang, Yue Fen Li

Keywords:

Accumulation, Black Soil of Jilin Province, Ni Element, Soil-Crop Continuum, Transformation

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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