State of Brownfields in the Northern Bohemia, Saxony and Lower Silesian Regions and Prospects for Regeneration by Utilization of the Phytotechnology with the Second Generation Crops

Newton, Robert Ato; Pidlisnyuk, Valentina; Wildová, Eliška; Nováková, Ludmila; Trögl, Josef

doi:10.3390/land12020354

Cited by 5 publications

(4 citation statements)

References 68 publications

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“…Utilizing M × g as an alternative source of energy demonstrates a promising avenue for sustainable energy production through gasification. One notable advantage of this approach is its versatility: M × g can be sourced from the land irrespective of the classification, encompassing both agricultural and non-agricultural soil types (Pidlisnyuk and Zgorelec 2022;Newton et al 2023). This broad spectrum of potential available land for production of M × g biomass not only diversifies the resource pool for gasification but also has a broader implication for the global food security.…”

Section: Impact Of Obtained Results On the Environmentmentioning

confidence: 99%

Impact of cultivation conditions on physicochemical characteristics of Miscanthus × giganteus biomass

Newton,

Pidlisnyuk,

Pohl

et al. 2024

Int. J. Environ. Sci. Technol.

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Miscanthus × giganteus has emerged as a successful energy crop for remediating marginal land, offering potential as an alternative energy source for climate change mitigation. This study aimed to assess the physicochemical properties for gasification of Miscanthus × giganteus biomass from plantations with diverse soil origins, characteristics, contamination levels, age, and climate conditions, aiming to determine their influence on the energy properties. Fuel parameters, i.e.: ash content, volatile matter, calorific value, ultimate analysis, and ash melting behavior were measured. Analysis of biomass samples revealed significant variations in the ash content and volatile matter with the average values of 4.5 and 78.8%, respectively, depending of the produced biomass. The calorific value remained consistently high, ranging from 18 to 19 MJ kg−1, even when biomass was derived from the contaminated soil. Additionally, biomass ash exhibited complete melting at temperatures exceeding 1300 °C, signifying its suitability for gasification without encountering technical obstacles. Employing PCA analysis, the significance of plantation age, location, and soil characteristics in shaping the physicochemical properties of Miscanthus × giganteus biomass for gasification was highlighted. The results illustrated that soil contamination by trace elements had a minimal impact on the physicochemical properties, whereas plantation age and climate conditions significantly influenced to the fuel properties of biomass.

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Section: Impact Of Obtained Results On the Environmentmentioning

confidence: 99%

Impact of cultivation conditions on physicochemical characteristics of Miscanthus × giganteus biomass

Newton,

Pidlisnyuk,

Pohl

et al. 2024

Int. J. Environ. Sci. Technol.

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“…A marginal land is considered a site that has poor soil quality or harsh conditions that render it unsuitable for profitable agricultural or commercial applications, i.e., an area where cost-effective production is not feasible [4][5][6]. A brownfield is an "area previously being in use which can be derelict, excluded from using, sometimes contaminated" [7][8][9][10]. Thus, the key distinction between brownfield and marginal land lies in a historical perspective: a brownfield is a territory that was over-utilised in the past and requires revitalisation, whereas marginal land is an area with unfavourable conditions for agriculture.…”

Section: Introductionmentioning

confidence: 99%

The Economic and Environmental Aspects of Miscanthus × giganteus Phytomanagement Applied to Non-Agricultural Land

Mamirova,

Pidlisnyuk

2024

Agronomy

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Miscanthus × giganteus (M × g) is a promising energy crop in phytotechnology with biomass production. Despite considerable vegetation and harvest under varying climate conditions and across different soils, field-scale studies on utilising M × g remain scarce. Analysing the literature and our own findings, this study intends to highlight the potential of M × g phytotechnology for revitalising non-agricultural lands (NAL), including brownfields, and illustrate the expediency of applying biochar to enhance biomass yield, energy efficiency, and economic feasibility. To validate the feasibility of M × g production on brownfields, two scenarios within the value chain “biomass–biogas–electricity” for green harvest were examined. The assumptions were as follows: (1) a methane yield of 5134 m3 ha−1 y−1, and (2) substrate-specific methane yields of 247 and 283 mL (g oDM)−1 for the first and subsequent years, respectively. The findings suggest that Scenario 2 is better suited for cultivating M × g on brownfields/NAL, being more sensitive and eliminating inaccuracies and the generalisations of results. From the third year onward, the revenue of M × g production on biochar-amended brownfields showed greater potential for future profitability. Future research should confirm the positive trend in the energy efficiency ratio of M × g phytotechnology on a larger scale, particularly in real brownfield applications.

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“…These activities caused disturbances in the balance of metals in biogeochemical cycles and the functioning of ecosystems, one of the most important elements of which is soil [2]. Currently, places have been identified where excessive accumulation of xenobiotics occurred in the past, the effects of which are still felt today [3][4][5][6][7]. Among the xenobiotics mentioned, an important place is occupied by heavy metals, including Cu, the extraction and processing of which has left a mark for many decades, primarily in terrestrial ecosystems.…”

Section: Introductionmentioning

confidence: 99%

“…In order to limit the effects of excess Cu in the soil, attempts are being made to recultivate contaminated areas by, on the one hand, immobilizing mobile forms of copper [12][13][14][23][24][25][26], and, on the other hand, through phytotreatments falling within the scope of the so-called phytoremediation [4,27,28]. Immobilization mainly involves the use of various additives designed to bind copper into forms that are less soluble or even inaccessible to plants and thus trap it in the soil sorption complex [23].…”

Section: Introductionmentioning

confidence: 99%

Effects of Organic Amendments on the Morphology and Chemical Composition of Black Mustard (Sinapis nigra L.) Grown on Soil Contaminated with Copper

Żołnowski,

Rolka,

Kalinowski

2024

Agronomy

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The present study aimed to determine the influence of organic amendments (OAs) on neutralizing the harmful effect of copper (Cu) on black mustard (Sinapis nigra L.). In a pot experiment, three levels of copper pollution were used: 200, 400, and 600 mg Cu kg−1, against a control without Cu. The soil was amended with three types of OAs: pine bark (PB), peat moss (PM), and cattle manure (CM). Our research showed that plant condition depends on the Cu content in the soil. Increasing soil contamination significantly affected the plant yield, leaf greenness index, and dry matter content. The type of OA had no significant effect on the condition of black mustard (BM); however, each had a different effect on neutralizing the harmful effects of Cu. CM reduced Cu accumulation, PM showed no effect, while PB contributed to a significant increase in Cu content in BM plants. The chemical composition of BM depended on the Cu content in the soil. With increased soil contamination with Cu, the contents of Ntot, K, Mg, Ca, and Na in BM increased, while the content of P decreased. In terms of mitigating the harmful effects, CM was more beneficial than PM and PB. Among the analyzed OAs, CM, and PM contributed to Cu immobilization, while PB promoted Cu mobilization in contaminated soils.

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State of Brownfields in the Northern Bohemia, Saxony and Lower Silesian Regions and Prospects for Regeneration by Utilization of the Phytotechnology with the Second Generation Crops

Cited by 5 publications

References 68 publications

Impact of cultivation conditions on physicochemical characteristics of Miscanthus × giganteus biomass

Impact of cultivation conditions on physicochemical characteristics of Miscanthus × giganteus biomass

The Economic and Environmental Aspects of Miscanthus × giganteus Phytomanagement Applied to Non-Agricultural Land

Effects of Organic Amendments on the Morphology and Chemical Composition of Black Mustard (Sinapis nigra L.) Grown on Soil Contaminated with Copper

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