A combined approach utilizing UAV 3D imaging methods, in-situ measurements, and laboratory experiments to assess water evaporation and trace element uptake by tree species growing in a red gypsum landfill

A combined approach utilizing UAV 3D imaging methods, in-situ measurements, and laboratory experiments to assess water evaporation and trace element uptake by tree species growing in a red gypsum landfill

The extractive industry is increasingly faced with problems of managing contaminated sites. The red gypsum landfill at the Ochsenfeld site is representative of the typology byproduct storage of the Ti-extraction activity. The management of the elemental content and the water body are the issues at t...

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Veröffentlicht in:Journal of hazardous materials 2022-03, Vol.425, p.127977-127977, Article 127977
Hauptverfasser: Malabad, Abdoulaye Mahamat, Tatin-Froux, Fabienne, Gallinet, Gilles, Colin, Jean-Michel, Chalot, Michel, Parelle, Julien
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Sprache:eng
Schlagworte:
Betula
Calcium Sulfate
Canopy conductance
Environmental Sciences
Imaging, Three-Dimensional
Laboratories
LAI
Ostrya carpinifolia
Trace Elements
Transpiration
Trees
UAV remote sensing
Unmanned Aerial Devices
Waste Disposal Facilities
Water
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container_end_page 127977
container_issue
container_start_page 127977
container_title Journal of hazardous materials
container_volume 425
creator Malabad, Abdoulaye Mahamat
Tatin-Froux, Fabienne
Gallinet, Gilles
Colin, Jean-Michel
Chalot, Michel
Parelle, Julien
description The extractive industry is increasingly faced with problems of managing contaminated sites. The red gypsum landfill at the Ochsenfeld site is representative of the typology byproduct storage of the Ti-extraction activity. The management of the elemental content and the water body are the issues at this site. The aim of this study was to evaluate the canopy conductance (gcmax) of various tree species and the content of elements in the leaves, utilizing the opportunity of a demonstration plantation setup in 2014 with sixteen tree species, combined with a growth chamber experiment. We combined the gas exchange measurements with the data from two multispectral cameras with RGB and NIR bands embarked on an unmanned aerial vehicle (UAV). In the field, Ostrya carpinifolia, Maclura pomifera, and Rhus copallina had the highest gcmax of all planted tree species, and the high transpiration rate in O. carpinifolia was confirmed in a pot-based controlled experiment. Except R. copallina, the species with a high Mn content (O. carpinifolia, Betula pendula, and Salix aquatica grandis) had high stomatal conductance. O. carpinifolia could therefore be a species to exploit in the management of landfill leachates, especially in the context of climate change since this species is well adapted to dry environments. [Display omitted] •Management of landfills utilizing trees for water evaporation and element uptake was tested.•A method to calculate LAI in landfills by UAV 3D imaging was proposed.•The maximal canopy conductance of 16 tree species was derived from gsmax and LAI.•Ostrya carpinifolia combined the highest growth, canopy conductance, and Mn uptake.
doi_str_mv 10.1016/j.jhazmat.2021.127977
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The red gypsum landfill at the Ochsenfeld site is representative of the typology byproduct storage of the Ti-extraction activity. The management of the elemental content and the water body are the issues at this site. The aim of this study was to evaluate the canopy conductance (gcmax) of various tree species and the content of elements in the leaves, utilizing the opportunity of a demonstration plantation setup in 2014 with sixteen tree species, combined with a growth chamber experiment. We combined the gas exchange measurements with the data from two multispectral cameras with RGB and NIR bands embarked on an unmanned aerial vehicle (UAV). In the field, Ostrya carpinifolia, Maclura pomifera, and Rhus copallina had the highest gcmax of all planted tree species, and the high transpiration rate in O. carpinifolia was confirmed in a pot-based controlled experiment. 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The red gypsum landfill at the Ochsenfeld site is representative of the typology byproduct storage of the Ti-extraction activity. The management of the elemental content and the water body are the issues at this site. The aim of this study was to evaluate the canopy conductance (gcmax) of various tree species and the content of elements in the leaves, utilizing the opportunity of a demonstration plantation setup in 2014 with sixteen tree species, combined with a growth chamber experiment. We combined the gas exchange measurements with the data from two multispectral cameras with RGB and NIR bands embarked on an unmanned aerial vehicle (UAV). In the field, Ostrya carpinifolia, Maclura pomifera, and Rhus copallina had the highest gcmax of all planted tree species, and the high transpiration rate in O. carpinifolia was confirmed in a pot-based controlled experiment. Except R. copallina, the species with a high Mn content (O. carpinifolia, Betula pendula, and Salix aquatica grandis) had high stomatal conductance. O. carpinifolia could therefore be a species to exploit in the management of landfill leachates, especially in the context of climate change since this species is well adapted to dry environments. 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subjects Betula
Calcium Sulfate
Canopy conductance
Environmental Sciences
Imaging, Three-Dimensional
Laboratories
LAI
Ostrya carpinifolia
Trace Elements
Transpiration
Trees
UAV remote sensing
Unmanned Aerial Devices
Waste Disposal Facilities
Water
title A combined approach utilizing UAV 3D imaging methods, in-situ measurements, and laboratory experiments to assess water evaporation and trace element uptake by tree species growing in a red gypsum landfill
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