Abstract
On marginal lands in the Mediterranean basin, giant reed (Arundo donax L.) represents one of the most interesting perennial crops due to high levels of biomass production. Considering periodic water shortage during the summer months in this area, the reuse of treated wastewater (TWW) would seem to be a good opportunity for the growth of the species. The aim of this study was to assess the medium-term effects of irrigation using freshwater (FW) and TWW on soil characteristics and growth in giant reed plants. TWW was obtained from a pilot-scale horizontal subsurface flow constructed wetland system (HSSF CWs) with a total surface area of 100 m2. A split-plot design for a two-factor experiment was used with three replications. Medium-term TWW irrigation increased organic matter and plant nutrients in the soil; however, pH was not affected. Plants irrigated with TWW showed greater growth (+10.49% in height, +12.75% in stem diameter, +11.51% in above-ground biomass) than those irrigated with FW. The higher heating value of crop residues ranged between 16.83 (FW-irrigated plants) and 17.00 MJ kg−1 (TWW-irrigated plants). Results show that HSSF CWs produces TWW, which can be an alternative source of water for growing giant reed with high biomass performance.
Highlights
IntroductionNon-food energy crops for biomass production have gained high interest around the world mainly due to agronomic, economic, and environmental reasons
Plants irrigated with treated wastewater (TWW) showed greater growth (+10.49% in height, +12.75% in stem diameter) than those irrigated with FW
This paper investigated the performance of a pilot-scale horizontal subsurface flow system constructed wetland applied to urban wastewater treatment and the effects of treated wastewater irrigation of giant reed on soil and plant parameters in the mediumterm
Summary
Non-food energy crops for biomass production have gained high interest around the world mainly due to agronomic, economic, and environmental reasons These crops can help the agricultural sector to prevent the occurrence of marginal lands, reduce soil degradation, and solve the problem of surplus food crops [1,2]. They represent an element of increasing income for farmers, as biomass feedstocks can be used to create various types of energy to consume directly on-farm or sell to third parties [3]. This is because the quantity of carbon (C) released by combusting biomass is equal to an equivalent amount sequestered by the photosynthesis process [5,6]
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