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      Effects of biochar application and nutrient fluctuation on the growth, and cadmium and nutrient uptake of Trifolium repens with different planting densities in Cd-contaminated soils

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          Abstract

          Biochar has been used to remediate contaminated-soil with heavy metals, however, less is known on how biochar interacts with planting density and nutrient fluctuation to affect the remediation. A pot experiment was conducted in the greenhouse to investigate the effects of biochar application (without vs. with 1% biochar, g/g substrate), nutrient fluctuation (constant vs. pulsed) and planting density (1-, 3- and 6-individuals per pot) on the growth, and cadmium (Cd) and nutrient uptake of Trifolium repens population. Our results found that the growth of T. repens population increased significantly with increasing planting density, and the increment decreased with increasing planting density. Both the Cd and nutrient uptake were higher at higher planting density (e.g., 3- and 6-individuals) than at lower planting density (e.g., 1-individual). Biochar application increased the biomass and shoot Cd uptake, but decreased the ratio of root to shoot and root Cd uptake of T. repens population, the effects of which were significantly influenced by planting density. Although nutrient fluctuation had no effect on the growth of T. repens population, but its interaction with planting density had significant effects on Cd uptake in tissues. Overall, the effects of biochar application and nutrient fluctuation on the growth and Cd uptake were both influenced by planting density in the present study. Our findings highlight that biochar application and constant nutrient supply at an appropriate planting density, such as planting density of 3-individuals per pot in the present study, could promote the growth, and Cd and nutrient uptake of T. repens population.

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          Heavy metal pollution in the environment and their toxicological effects on humans

          Jessica Briffa, Emmanuel Sinagra, Renald Blundell (2020)
          Environmental pollution of heavy metals is increasingly becoming a problem and has become of great concern due to the adverse effects it is causing around the world. These inorganic pollutants are being discarded in our waters, soils and into the atmosphere due to the rapidly growing agriculture and metal industries, improper waste disposal, fertilizers and pesticides. This review shows how pollutants enter the environment together with their fate. Some metals affect biological functions and growth, while other metals accumulate in one or more different organs causing many serious diseases such as cancer. The pharmacokinetics and toxicological processes in humans for each metal is described. In summary, the review shows the physiological and biochemical effects of each heavy metal bioaccumulation in humans and the level of gravity and disquieting factor of the disease.
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            A Review of Biochar and Its Use and Function in Soil

            S.P. Sohi, E. Krull, E. López-Capel (2010)
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              Soil contamination in China: current status and mitigation strategies.

              Fang Zhao, Yibing Ma, Yong-Guan Zhu (2015)
              China faces great challenges in protecting its soil from contamination caused by rapid industrialization and urbanization over the last three decades. Recent nationwide surveys show that 16% of the soil samples, 19% for the agricultural soils, are contaminated based on China’s soil environmental quality limits, mainly with heavy metals and metalloids. Comparisons with other regions of the world show that the current status of soil contamination, based on the total contaminant concentrations, is not worse in China. However, the concentrations of some heavy metals in Chinese soils appear to be increasing at much greater rates. Exceedance of the contaminant limits in food crops is widespread in some areas, especially southern China, due to elevated inputs of contaminants, acidic nature of the soil and crop species or cultivars prone to heavy metal accumulation. Minimizing the transfer of contaminants from soil to the food chain is a top priority. A number of options are proposed, including identification of the sources of contaminants to agricultural systems, minimization of contaminant inputs, reduction of heavy metal phytoavailability in soil with liming or other immobilizing materials, selection and breeding of low accumulating crop cultivars, adoption of appropriate water and fertilizer management, bioremediation, and change of land use to grow nonfood crops. Implementation of these strategies requires not only technological advances, but also social-economic evaluation and effective enforcement of environmental protection law.
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                Author and article information

                Contributors
                Wei-Long Zheng: URI : https://loop.frontiersin.org/people/2346943Role: Role: Role:
                Yan-Fei Wang: Role: Role: Role:
                Jingya Mo: Role: Role: Role:
                Pu Zeng: Role: Role: Role:
                Jiayi Chen: Role: Role: Role:
                Chenliang Sun: Role: Role: Role:
                Journal
                Journal ID (nlm-ta): Front Plant Sci
                Journal ID (iso-abbrev): Front Plant Sci
                Journal ID (publisher-id): Front. Plant Sci.
                Title: Frontiers in Plant Science
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 1664-462X
                Publication date (Electronic): 20 September 2023
                Publication date Collection: 2023
                Volume: 14
                Electronic Location Identifier: 1269082
                Affiliations
                [1] 1 Zhejiang Provincial Key Laboratory of Plant Evolutionary Ecology and Conservation, School of Life Sciences, Taizhou University , Taizhou, China
                [2] 2 Taizhou Institute of Product Quality and Safety Inspection , Taizhou, China
                Author notes

                Edited by: Muthusamy Ramakrishnan, Nanjing Forestry University, China

                Reviewed by: Sabariswaran Kandasamy, Bharathiar University, India; Christel Baum, University of Rostock, Germany

                *Correspondence: Wei-Long Zheng, z3037713@ 123456163.com
                Article
                DOI: 10.3389/fpls.2023.1269082
                PMC ID: 10548119
                SO-VID: fe7b418a-b452-4d34-8c32-f278153e6dde
                Copyright © Copyright © 2023 Zheng, Wang, Mo, Zeng, Chen and Sun
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 29 July 2023
                Date accepted : 04 September 2023
                Page count
                Figures: 7, Tables: 0, Equations: 0, References: 50, Pages: 10, Words: 4154
                Funding
                The authors declare financial support was received for the research, authorship, and/or publication of this article. This work was supported by the Taizhou Scientific and Technological Project (22gya05).
                Categories
                Subject: Plant Science
                Subject: Original Research
                Custom metadata
                section-in-acceptance Plant Abiotic Stress

                ScienceOpen disciplines: Plant science & Botany
                Keywords: heavy metal,phytoremediation,planting density,pulsed nutrient,white clover
                Data availability:
                ScienceOpen disciplines: Plant science & Botany
                Keywords: heavy metal, phytoremediation, planting density, pulsed nutrient, white clover

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