Phyto-dehydration of confined sludge: a sustainable approach for the management of polluted ponds
Autor: | Paolo Sconocchia, Paolo De Angelis, Paola Grenni, Anna Barra Caracciolo, Angelo Massacci, Sara Tariciotti, Alessandra Lagomarsino, Anna Ricci, Giovanni Gigliotti, Dario Liberati, Chiara Tacconi |
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Rok vydání: | 2017 |
Předmět: |
Stratigraphy
010501 environmental sciences 01 natural sciences Mesocosm Phragmites Water balance Carex acutiformis Phragmites australis Carex acutiformis Phragmites australis Phyto-remediation Pig slurries Polluted sludge Sludge greenhouse gas emissions greenhouse Water environment Organic matter Water pollution gas emissions 0105 earth and related environmental sciences Earth-Surface Processes Transpiration chemistry.chemical_classification Helophyte fungi 04 agricultural and veterinary sciences Agronomy chemistry Environmental chemistry 040103 agronomy & agriculture 0401 agriculture forestry and fisheries Environmental science |
Zdroj: | Journal of soils and sediments (2017). info:cnr-pdr/source/autori:D. Liberati, P. Sconocchia, A. Ricci, G. Gigliotti, C. Tacconi, P. Grenni, S. Tariciotti, A. Barra Caracciolo, A. Massacci, A. Lagomarsino, P. De Angelis./titolo:Phyto-dehydration of confined sludge: a sustainable approach for the management of polluted ponds/doi:/rivista:Journal of soils and sediments (Print)/anno:2017/pagina_da:/pagina_a:/intervallo_pagine:/volume 18 (2018): 2292–2304. doi:10.1007/s11368-017-1808-z info:cnr-pdr/source/autori:Liberati D, Sconocchia P, Ricci A, Gigliotti G, Tacconi C, Grenni P, Tariciotti S, Barra Caracciolo A, Massacci A, Lagomarsino A, De Angelis P./titolo:Phyto-dehydration of confined sludge: a sustainable approach for the management of polluted ponds/doi:10.1007%2Fs11368-017-1808-z/rivista:Journal of soils and sediments (Print)/anno:2018/pagina_da:2292/pagina_a:2304/intervallo_pagine:2292–2304/volume:18 |
ISSN: | 1614-7480 1439-0108 |
Popis: | Leaf transpiration drives many of the processes involved in phyto-technologies, and it can represent a useful mechanism to remove water from different kind of storage basins presenting inorganic, organic or microbiological contamination (phyto-dehydration), with the aim to reduce the risk of environmental contamination. In this framework, a mesocosm-scale trial was carried out to test the capacity of different helophyte species to reduce the excess of water in an artificial pond filled with oversaturated sludge. The sludge derives from the digestion of pig slurries, presents high levels of zinc and copper and for most of the year is covered by a water layer of about 20 cm due to rainfalls. This layout (water layer over the sludge) was reproduced inside the mesocosms, where four helophyte species (Phragmites australis and a mix of Carex acutiformis, Iris pseudacorus and Juncus effusus) were planted on floating frames. Plant growth and functionality were monitored for one year, along with their water consumption capacity; the vegetation impact on sludge chemistry, sludge microbial community and sludge greenhouse gases emission/uptake were also evaluated. The sensitivity of the phyto-dehydration system to the reduction of water level occurring during summer in the pond was investigated reducing the water input to the mesocosms. P. australis and C. acutiformis successfully established in the mesocosms, while a significant mortality was recorded for I. psudacorus and J. effusus. Once established, plants were able to grow in the mesocosms, and no metal toxicity effect was observed on photosynthesis rates that were comparable with values reported for natural stands of the species. Plants significantly increased (from 24 to 63%, depending on the species) the amount of water lost by the mesocosms and counteracted the reduction of sludge organic carbon that could lead to a mobilization of the heavy metals bound to organic matter: furthermore, plants decreased the rates of mesocosm greenhouse gas emission and reduced the sludge pathogen (Enterobacteriaceae) occurrence. Water limitations reversibly reduced the water consumption and CO2 uptake capacity of the mesocosms. The results of this study demonstrated that the water balance of a sludge/water system can be effectively modified through the phyto-dehydration approach, increasing significantly the amount of water lost. Although the low tolerance of two species to the sludge/water environment after plantation needs to be further investigated, this phyto-technology can represent a promising approach to manage the excess of water in polluted ponds. |
Databáze: | OpenAIRE |
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