Suitability of Salicaceae genotypes to produce biomass using industrial wastewater

Water circularity is a challenge which must be met to guarantee the sustainability of this resource. Woody biomass is another resource of interest for the bioeconomy, which has multiple uses and acts as a carbon sink. Combining both aspects involves establishing wastewater irrigated plantations, the...

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Veröffentlicht in:	Biomass & bioenergy 2023-08, Vol.175, p.106874, Article 106874
Hauptverfasser:	Pradana, R., González, I., Oliveira, N., González-González, B.D., de Bustamante, I., Sixto, H.
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Sprache:	eng
Schlagworte:	bioeconomics bioenergy Biomass production Brewery wastewater carbon sinks electrical conductivity genotype greenhouses hybrids hydroponics industrial wastewater Multipurpose plantations nitrogen photosynthesis Plant material adequacy Populus alba Salicaceae Salix species transpiration vegetation wastewater irrigation Water circularity woody biomass
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container_title	Biomass & bioenergy
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creator	Pradana, R. González, I. Oliveira, N. González-González, B.D. de Bustamante, I. Sixto, H.
description	Water circularity is a challenge which must be met to guarantee the sustainability of this resource. Woody biomass is another resource of interest for the bioeconomy, which has multiple uses and acts as a carbon sink. Combining both aspects involves establishing wastewater irrigated plantations, the so-called Vegetation Filters. The aim in this research was to contribute towards assessing the suitability of different Salicaceae genotypes for enhancing the efficiency of these simultaneous processes. Twenty-three genotypes of different species and hybrids of the genera Populus and Salix were irrigated using brewery wastewater under controlled conditions (in a greenhouse using hydroponic cultivation or in pots with substrate) and in the field. Although the application of wastewater reduced the overall production, relevant differences among the genotypes were detected. Growth, physiological activity and nitrogen and electric conductivity (EC) attenuation efficiency provided good criteria for selection, although given the interaction with site conditions it is essential that plant material is selected based on its adaptation to the environment. The poplar hybrids ‘2000 Verde’ and ‘I-214’ showed the highest rates of net photosynthesis and transpiration, with high percentages of N removal and moderate biomass production, these two initially being considered of interest for the purposes outlined above. The ‘AF34’ genotype showed the highest production in the field, followed by the ‘Levante’ willow hybrid. The white poplar ‘PO-10-10-20’, which presented moderate production in the field, is also of interest due to its autochthony, which can be advantageous in certain environments. •Salicaceae genotypes were tested for phytoremediation using a Lab-to-Field approach.•Noticeable differences were detected between the genotypes tested.•Brewery wastewater led to a decrease in total biomass production.•Use of Salicaceae Vegetation Filters for this wastewater is potentially interesting.•Tests under controlled conditions are useful, but on-site testing plays a major role.
doi_str_mv	10.1016/j.biombioe.2023.106874
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Growth, physiological activity and nitrogen and electric conductivity (EC) attenuation efficiency provided good criteria for selection, although given the interaction with site conditions it is essential that plant material is selected based on its adaptation to the environment. The poplar hybrids ‘2000 Verde’ and ‘I-214’ showed the highest rates of net photosynthesis and transpiration, with high percentages of N removal and moderate biomass production, these two initially being considered of interest for the purposes outlined above. The ‘AF34’ genotype showed the highest production in the field, followed by the ‘Levante’ willow hybrid. 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Woody biomass is another resource of interest for the bioeconomy, which has multiple uses and acts as a carbon sink. Combining both aspects involves establishing wastewater irrigated plantations, the so-called Vegetation Filters. The aim in this research was to contribute towards assessing the suitability of different Salicaceae genotypes for enhancing the efficiency of these simultaneous processes. Twenty-three genotypes of different species and hybrids of the genera Populus and Salix were irrigated using brewery wastewater under controlled conditions (in a greenhouse using hydroponic cultivation or in pots with substrate) and in the field. Although the application of wastewater reduced the overall production, relevant differences among the genotypes were detected. 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subjects	bioeconomics bioenergy Biomass production Brewery wastewater carbon sinks electrical conductivity genotype greenhouses hybrids hydroponics industrial wastewater Multipurpose plantations nitrogen photosynthesis Plant material adequacy Populus alba Salicaceae Salix species transpiration vegetation wastewater irrigation Water circularity woody biomass
title	Suitability of Salicaceae genotypes to produce biomass using industrial wastewater
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