Evaluation of Technosols constructed with construction and excavation debris for greenhouse production of ornamental plants

Purpose The overexploitation of the O horizon, or the litter layer of the soil profile, in the production of ornamental plants, causes the disintegration of the landscape and the loss of soil productivity in preserved areas, which calls for new approaches to address the need for substrates in soille...

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Bibliographic Details
Published in:Journal of soils and sediments 2022-03, Vol.22 (3), p.745-756
Main Authors: Abbruzzini, T. F., Mora, L., Prado, B.
Format: Article
Language:English
Subjects:
Agrochemicals
Availability
Biological fertilization
Cations
Composting
Composts
Construction
Construction industry wastes
Construction materials
Cytotoxicity
Disintegration
Dissolved organic carbon
Dredging
Earth and Environmental Science
Electrical conductivity
Electrical resistivity
Environment
Environmental Physics
Evaluation
Excavation
Exploitation
Exports
Fertilization
Flowers
Flowers & plants
Greenhouses
Lymphocytes T
Mineral fertilizers
Mineral nutrients
Nutrient availability
Nutrients
Nutritional requirements
Ornamental plants
Overexploitation
pH effects
Physicochemical processes
Plant debris
Plant species
Plants (botany)
Production methods
Sec 1 • Soil Organic Matter Dynamics and Nutrient Cycling • Research Article
Soil
Soil erosion
Soil layers
Soil profiles
Soil properties
Soil Science & Conservation
Soils
Species
Substrates
Survival
Water availability
Wood
Wood chips
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Summary:Purpose The overexploitation of the O horizon, or the litter layer of the soil profile, in the production of ornamental plants, causes the disintegration of the landscape and the loss of soil productivity in preserved areas, which calls for new approaches to address the need for substrates in soilless culture systems. Thus, this study examined the construction of purpose-designed Technosols from construction waste as substrates in the production of ornamental plants. Methods The evaluated treatments were as follows: (CCW) 40% concrete waste, 30% compost, 30% wood chips; (ECW) 40% excavation waste, 30% compost, 30% wood chips; and (AOW) 40% compost, 60% wood chips. A control treatment (CTL) was composed of 50% compost and 50% natural exported soil. The plant species used were Heliotropium arborescens , Lobularia maritima , and Lavandula angustifolia, which were grown for one cycle in an 8-week greenhouse experiment. The pH, electrical conductivity (EC), carbon and nutrient (N, P, and exchangeable cations) contents, and water availability of the Technosols and control treatment, as well as the survival rate, presence of flowers, number of flowers per plant and shoot diameter of the ornamental plants, were evaluated over the experimental period. Results All treatments had slightly alkaline pH, yet their EC decreased to the levels recommended for growing media considering the evaluated species. The AOW presented the highest initial contents of total C, total N, and available P, and the highest concentration of DOC at the end of the experiment, followed by the CCW Technosol. There were no differences within treatments regarding their initial and final available P contents, and the final available P and mineral N contents in Technosols and control did not differ, thus showing their ability to supply both N and P adequately to plants. A high plant survival rate was observed throughout the experimental period, and the frequency of blooming plants increased for all species regardless of the treatment. Conclusions The Technosols produced from construction and excavation waste had been shown to provide favorable chemical, physical, and physicochemical conditions for the vegetative development and blooming of ornamental plants with different fertilization requirements and, thus, could be used as alternative to reduce the exploitation of exported natural soils. The plants used in the study had different nutritional requirements, yet they all grew adequately. The Techno
ISSN:1439-0108
1614-7480
DOI:10.1007/s11368-021-03112-9