The possibility of using sewage sludge for energy crop cultivation exemplified by reed canary grass and giant miscanthus

Antonkiewicz, Jacek; Kołodziej, Barbara; Bielińska, E. J.; Popławska, Anna

doi:10.2478/ssa-2019-0003

Cited by 27 publications

(19 citation statements)

References 34 publications

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“…Kubátová et al [18] observed the elevated yield of willows supported by SS fertilization from the second harvest, while the plant growth was limited in the first years. Several papers were published by the research group around Kołodziej and Antonkiewicz, which confirmed the positive effect of fertilization with SS on the biomass yield of energy plants from the Poaceae-Sorghum bicolor [19], Miscanthus × giganteus [20,21] and Phalaris arundinacea [21] families.…”

Section: Introductionmentioning

confidence: 71%

“…This is in agreement with the previously published findings. A positive effect of SS as a soil amendment on the plant characteristics and biomass yield of other energy plants from the Poaceae family was described by the research group around Kołodziej and Antonkiewicz [19][20][21]. They observed a significant impact of the application of SS (10-60 t ha −1 ) on plant height, the number of leaves and the stems' diameter and dry weight of three cultivars of sweet sorghum [19].…”

Section: Evaluation Of Growth Parameters and Biomass Yield At The Endmentioning

confidence: 91%

“…All measured parameters were also significantly affected by the variety and the year of cultivation. In the experiments with Miscanthus × giganteus [20,21], they found that the addition of 20 tons of SS per ha supported the highest increase in the yield of biomass and its energy value. However, the most effective macronutrient recovery from SS was measured for the dose of 10 t ha −1 .…”

Section: Evaluation Of Growth Parameters and Biomass Yield At The Endmentioning

confidence: 99%

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Sewage Sludge as a Soil Amendment for Growing Biomass Plant Arundo donax L.

et al. 2020

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Sewage sludge (SS) is a waste originated from wastewater treatment that could be considered an interesting source of organic matter and nutrients for agricultural production. Our experiments aimed to assess the effect of SS on the growth parameters and the biomass yield of giant reed (Arundo donax L.) plants. Experiments were carried out in pots during two growing seasons, where samples of dried SS were applied in doses of 5 or 15 t ha−1. The number of shoots per plant was significantly higher with the application of 5 t ha−1 of SS into arable soil compared to the control treatment and did not increase with the dose of SS. On the other hand, the height of the plants was gradually elevated with the dose of SS. The diameter of the shoots was positively affected by the dose of 15 t ha−1, and it was the only parameter with significant differences between the used types of SS. The biomass yield increased by 1.2–2.7× depending on the type and dose of SS. Cu and Zn uptake, as micronutrients present in SS, and their accumulation in the aboveground parts were significantly higher for plants cultivated in the presence of SS.

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Section: Introductionmentioning

confidence: 71%

Section: Evaluation Of Growth Parameters and Biomass Yield At The Endmentioning

confidence: 91%

Section: Evaluation Of Growth Parameters and Biomass Yield At The Endmentioning

confidence: 99%

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Sewage Sludge as a Soil Amendment for Growing Biomass Plant Arundo donax L.

et al. 2020

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“…Generally, there are two main approaches to be considered. The first approach is about influence to the soil by adding different amendments such as fertilizers [ 14 ], sludge [ 11 , 15 ], and biosolids [ 9 ], or incorporating to the system citric acid, EDTA [ 16 ], and fungi [ 17 ]. The second approach is focused on direct impact to rhizomes, which can be achieved by co-composting treatment, treatment by plant growth regulators [ 18 ], and incorporation of the microbial organisms [ 19 ].…”

Section: Introductionmentioning

confidence: 99%

Bioprospecting of a Novel Plant Growth-Promoting Bacterium Bacillus altitudinis KP-14 for Enhancing Miscanthus × giganteus Growth in Metals Contaminated Soil

Pranaw

Pidlisnyuk

Trögl

et al. 2020

Biology

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Use of plant growth-promoting bacteria (PGPB) for cultivation of the biofuel crop Miscanthus × giganteus (Mxg) in post-military and post-mining sites is a promising approach for the bioremediation of soils contaminated by metals. In the present study, PGPB were isolated from contaminated soil and screened for tolerance against abiotic stresses caused by salinity, pH, temperature, and lead (Pb). Selected strains were further assessed and screened for plant growth-promoting attributes. The isolate showing the most potential, Bacillus altitudinis KP-14, was tested for enhancement of Mxg growth in contaminated soil under greenhouse conditions. It was found to be highly tolerant to diverse abiotic stresses, exhibiting tolerance to salinity (0–15%), pH (4–8), temperature (4–50 °C), and Pb (up to 1200 ppm). The association of B. altitudinis KP-14 with Mxg resulted in a significant (p ≤ 0.001) impact on biomass enhancement: the total shoot and dry root weights were significantly enhanced by 77.7% and 55.5%, respectively. The significant enhancement of Mxg biomass parameters by application of B. altitudinis KP-14 strongly supports the use of this strain as a biofertilizer for the improvement of plant growth in metal-contaminated soils.

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“…Varieties of in situ and ex situ approaches are used for remediation of such areas, including surface capping, encapsulation, landfilling, soil flushing or washing, stabilization, solidification and phytoremediation and bioremediation (Liu et al 2018 ; Burges et al 2018 ). While the main techniques are rather costly and environmentally disturbing, the application of phytoremediation sounds promising, in particular with plants produced a high amount of biomass (Yadav et al 2018 ; Antonkiewicz et al 2019 ), and was recommended for post-industrial sites (Cunningham and Ow 1996 ; Chaney et al 2014 ). Guarino and Sciarrilli ( 2017 ) reported successful application of phytoremediation using two plants with high annual biomass yield: Helianthus annuus L. and Brassica juncea L. when a considerable amount of toxic elements (Cd, Hg, Zn) were taken from soils of the industrial area of Porto Marghera.…”

Section: Introductionmentioning

confidence: 99%

Multiyear phytoremediation and dynamic of foliar metal(loid)s concentration during application of Miscanthus × giganteus Greef et Deu to polluted soil from Bakar, Croatia

Pidlisnyuk

Shapoval

Zgorelec

et al. 2020

Environ Sci Pollut Res

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The multiyear cultivation of Miscanthus × giganteus Greef et Deu (M.×giganteus) at the soils polluted by metal(loid)s were researched. The biomass parameters and concentrations of elements: Ti, Mn, Fe, Cu, Zn, As, Sr, and Mo were determined in the plant's organs at harvest. The same metal(loid)s were monitored in the plant's leaves throughout three vegetation seasons. The principal component analysis and general linear model approaches were applied for statistical evaluation followed by Box-Cox transformation. The difference in the distribution of elements in the plant, the content of elements in the soil, various regime of uptake to the plant tissues, and the year of vegetation were analyzed as driving factors of the phytoremediation. The results showed that the leading promoter was the factor of the zone, which was the most essential for Ti, Fe, and Cu and the smallest for Mn. The factor of differences in soil pollution was essential for Zn and Mo, much less for As, Sr, and Mn, limited for Fe, and was not seen for Ti and Cu. The factor of the interrelation effects of the zone and experiment reflected the different regime of uptake for the plant tissues was seen for two elements: more prominent for Cu and smaller for Ti. While analyzing the dynamic of foliar concentrations of the metal(loid)s during 3 years, two groups were defined. Firstly, Fe, Ni, Mn, and Sr showed stable curves with limited distribution of the plant life cycle. Secondly, As, Zn, Cu, and Mo showed different fluctuations in the curves, which can be attributed to essential influence of those elements to the plant life cycle. Further research will be focused on the application of M.×giganteus to the polluted soil in a bigger scale and comparison results of laboratory and field experiments.

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The possibility of using sewage sludge for energy crop cultivation exemplified by reed canary grass and giant miscanthus

Cited by 27 publications

References 34 publications

Sewage Sludge as a Soil Amendment for Growing Biomass Plant Arundo donax L.

Sewage Sludge as a Soil Amendment for Growing Biomass Plant Arundo donax L.

Bioprospecting of a Novel Plant Growth-Promoting Bacterium Bacillus altitudinis KP-14 for Enhancing Miscanthus × giganteus Growth in Metals Contaminated Soil

Multiyear phytoremediation and dynamic of foliar metal(loid)s concentration during application of Miscanthus × giganteus Greef et Deu to polluted soil from Bakar, Croatia

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