Phytoremediation potential depends on the degree of soil pollution: a case study in an urban brownfield

Fernández-Braña, A.; Salgado, Lorena; Gallego, José Luis; Afif, E.; Boente, Carlos; Forján, Rubén

doi:10.1007/s11356-023-26968-5

Cited by 7 publications

(4 citation statements)

References 43 publications

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“…Quantitative and multidimensional assessment of soil restoration effectiveness is conducted by investigating pollution concentrations, impact extents, and related aspects. It's noteworthy that strategy selection becomes more intricate when dealing with multiple pollutants due to the influence of synergistic and antagonistic interactions among pollutants [ [196] , [197] , [198] ]. In the process of remediation, it is essential to concurrently consider the Correlation of co-contamination (organic and inorganic), as understanding the interplay and connections between these pollutants is crucial for effective remediation and management strategies.…”

Section: Resultsmentioning

confidence: 99%

Brownfield-related studies in the context of climate change: A comprehensive review and future prospects

Wan,

Chen,

Liu

et al. 2024

Heliyon

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Section: Resultsmentioning

confidence: 99%

Brownfield-related studies in the context of climate change: A comprehensive review and future prospects

Wan,

Chen,

Liu

et al. 2024

Heliyon

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“…This initiative has not only facilitated the protection and reuse of industrial landscapes in China but has also provided policy guidelines for industrial tourism and urban revitalization. However, the challenges of preserving the unique value of industrial landscapes [10,81], promoting their transformation and development [82,83], and mitigating residual pollution remain urgent issues to be addressed [84,85]. In the digital age, the transformation of industrial landscapes is intricately connected to the growth of industrial tourism.…”

Section: Discussionmentioning

confidence: 99%

Spatial and Temporal Distribution Characteristics and Influential Mechanisms of China’s Industrial Landscape Based on Geodetector

Yan,

Li,

Song

2024

Land

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The industrial landscape constitutes a crucial aspect of a region’s historical and cultural identity, serving as a valuable asset in the development of industrial tourism. Exploring the industrial landscape supports initiatives in industrial tourism, acts as a catalyst for community revitalization, and contributes to sustainable urban progress. The primary objective of this research was to investigate the spatial distribution characteristics and underlying determinants of China’s industrial landscape (CIL) to inform urban planning, cultural heritage preservation, and sustainable development initiatives. This study utilized analytical tools, such as the nearest neighbor index, geographic concentration index, and hot spot analysis, to comprehensively examine the spatial distribution of CIL. Additionally, Geodetector was employed to explore the correlating factors behind this distribution. The findings reveal the following: (1) CIL exhibited a pronounced agglomerative spatial pattern characterized by a high degree of concentration, significant disparities, and substantial spatial autocorrelation. (2) Over time, the agglomeration of CIL varied, intensifying initially and then diminishing, with the center of gravity of its distribution shifting eastward before subsequently moving westward in a directional trend resembling “northeast–southwest”. (3) There was a diverse array of industrial landscape types within China, with notable disparities in the prevalence of different categories. The manufacturing and transportation sectors boasted the highest number of heritage sites. (4) The distribution pattern of CIL was shaped by factors such as the level of economic development, socio-demographic conditions, transportation infrastructure, and cultural milieu. The interplay between these factors had a substantial impact on this distribution pattern.

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“…Good agreement was found between the certified values and our technique (Table S2). Bioconcentration factor (BCF) values at the end of the experiment were calculated using BCF = A tissues /A soil [45], where A tissues (mg kg −1 ) represents the total accumulation of heavy metals in tissues, and A soil (mg kg −1 ) denotes the concentration of heavy metals in the tailings. Translocation factor (TF) values were calculated using TF = A a /A b [45], where A a (mg kg −1 ) indicates the total accumulation of heavy metals in the aboveground parts, and A b (mg kg −1 ) represents the total accumulation of heavy metals in the belowground parts.…”

Section: Plant Sampling and Chemical Analysismentioning

confidence: 99%

The Phytoremediation Potential of 14 Salix Clones Grown in Pb/Zn and Cu Mine Tailings

Jiang,

Wang,

Chen

et al. 2024

Forests

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Willows are suitable candidates for phytoremediation projects. A pot experiment was conducted to evaluate the potential of using Salix unrooted cuttings for the phytoremediation of lead/zinc (Pb/Zn) and copper (Cu) mine tailings. Cuttings of 14 Salix clones were directly rooted into pots containing mine tailings. The 14 clones showed different levels of tolerance to tailing treatments. A total of 71.40% and 85.70% of the S. jiangsuensis ‘172’ cuttings either grown in Pb/Zn or Cu tailings survived, respectively. However, the other clones had lower survival rates, and the values were no more than 40%. Usually, all clones produce less biomass in an extremely contaminated environment. Clonal variation in biomass yield was observed in this research. The surviving clones, such as S. integra ‘WSH’, S. matsudana ‘14’, S. chaenomeloides ‘3’, S. chaenomeloides ‘4’, and S. chaenomeloides ‘5’ (Pb/Zn tailing), S. integra ‘HY’, S. integra ‘WSH’, S. matsudana ‘14’, S. matsudana ‘19’, and S. matsudana ‘34’ (Cu tailing) produced relatively more biomass in this study. In general, all the clones presented lower bioconcentration factor values for the tailings of heavy metals. In principle, all clones could easily take up and translocate Zn and Cd from the tailings to aboveground parts, especially S. integra. All clones exhibited a huge variation in their heavy metal accumulation capacity. As stated above, the direct utilization of cuttings for phytoremediation is a viable option. S. jiangsuensis ‘172’ had a high tolerance capacity and would be a recommended candidate for future phytoremediation projects in soils containing tailings with an extremely high concentration of heavy metals. These results provide crucial information about willow growth and metal accumulation capacity in extremely adverse environments.

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Phytoremediation potential depends on the degree of soil pollution: a case study in an urban brownfield

Cited by 7 publications

References 43 publications

Brownfield-related studies in the context of climate change: A comprehensive review and future prospects

Brownfield-related studies in the context of climate change: A comprehensive review and future prospects

Spatial and Temporal Distribution Characteristics and Influential Mechanisms of China’s Industrial Landscape Based on Geodetector

The Phytoremediation Potential of 14 Salix Clones Grown in Pb/Zn and Cu Mine Tailings

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