Growth and nutrient uptake of perennial crops in a paludicultural approach in a drained Mediterranean peatland

•Three perennial grasses and two woody crops were tested for paludiculture.•All species tested were suitable for paludiculture.•Arundo donax had the highest yields and nutrient (N, P) uptakes.•The paludicultural system could be a promising option for peatland management. Combining peatland rewetting...

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Bibliographic Details
Published in:Ecological engineering 2017-06, Vol.103, p.478-487
Main Authors: Giannini, Vittoria, Silvestri, Nicola, Dragoni, Federico, Pistocchi, Chiara, Sabbatini, Tiziana, Bonari, Enrico
Format: Article
Language:English
Subjects:
Agricultural land
Agricultural management
Aquatic plants
Biodegradation
Biomass
Cereal crops
Coastal environments
Continuous cropping
Corn
Crop yield
Crops
Degradation
Energy crops
Eutrophication
Experiments
Floodplains
Freshwater plants
Grasses
Lake basins
Lakes
Land reclamation
Marshes
Mineral nutrients
Nutrient concentrations
Nutrient enrichment
Nutrient removal
Nutrient uptake
Nutrients
Paludiculture
Peat
Peatland management
Peatlands
Perennial crops
Perennial rhizomatous grasses
Removal
Renewable energy
Short-rotation coppice
Soil
Soil water
Src protein
Supply chains
Surface water
Sustainability
Uptake
Vegetation
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Summary:•Three perennial grasses and two woody crops were tested for paludiculture.•All species tested were suitable for paludiculture.•Arundo donax had the highest yields and nutrient (N, P) uptakes.•The paludicultural system could be a promising option for peatland management. Combining peatland rewetting with biomass cropping (paludiculture) is one strategy to remove nutrient surpluses from soil/water and stimulate peat-forming vegetation. This approach was tested in the Massaciuccoli Lake Basin (Tuscany, Italy), a coastal floodplain artificially drained for agricultural purposes since 1930, where land reclamation and continuous cropping have contributed to considerable peat degradation and water eutrophication due to nutrient enrichment of surface waters. An experimental trial was established in spring 2012 with three perennial rhizomatous grasses (PRG) (Phragmites australis, Miscanthus×giganteus, Arundo donax) and two woody species managed as short-rotation coppice (SRC) (Salix alba “Dimitrios”, Populus×canadensis “Oudenberg”), aimed to provide biomass for various bioenergy supply chains. A conventionally cultivated annual crop (maize) was the control. The aim of this study was to compare the sustainability of the proposed paludiculture systems to that of conventional annual crops on the basis of yield and nutrient-removal capability. This two-year field study evaluated yields, nutrient concentrations and uptake (N and P) of the crops. Over the two years, A. donax had the highest mean biomass yield (35Mgha−1), N uptake (367kgha−1), and P uptake (54kgha−1). SRCs had the lowest nutrient uptake in both years. Among grasses, the highest N concentration was recorded in A. donax leaves in 2013 (N: 2.41%), while P concentration was greater in S. alba branches (P: 0.39%). The average aboveground biomass of maize was 17.5Mgha−1, while the nutrient uptakes were equal to 194 and 27kgha−1 for N and P, respectively. Thus, the performances of paludiculture systems were generally encouraging and could represent an important alternative for restoring and managing former drained peatlands in a suitable product chain.
ISSN:0925-8574
1872-6992
DOI:10.1016/j.ecoleng.2015.11.049