[16] Broier, H., A. Georgantzopoulou, J. van Gijn, A. Abebe Lashitew, M. Musafira, R. Sools & X. Yan (2007). Fuel for Thought. Soil-plant interactions in Short-Rotation Willow Plantations. Literature Review and Monitoring plan. [17] Burger, F. (2006). Zur Ökologie von Energiewäldern. Schriftenreihe des Deutschen Rates für Landespflege. 79: 74-80. [18] Caslin, B., J. Finnan & A. McCracken (Eds.) (2011). Short rotation coppice willow best practice guidelines. Carlow/Belfast, Teagasc Crops Research Centre & AFBI, Agri-Food and Bioscience Institute. [19] http://www.cbs.nl [20] Chen, G.-C., Z. Liu, J. Zhang & G. Owens (2012). Phytoaccumulation of copper in willow seedlings under different hydrological regimes. Ecological Engineering 44: 285-289. [21] http://www.compendiumvoordeleefomgeving.nl/indicatoren/nl0044-Capaciteitafvalwaterzuiveringsinstallaties.html?i=15-82 [22] Cunningham, M.B., J.D. Bishop, H.V. McKay & R.B. Sage (2004). Arbre monitoring – Ecology of short rotation coppice. Four year study involving wildlife monitoring of commercial SRC plantations planted on arable land and arable control plots. The Game Conservancy Trust. [23] Curneen, S. & L. Gill. The Treatment of On-Site Wastewater using Willow Bed Evapotranspiration S ystems in Ireland. [24] Dimitriou, I. & P. Aronsson. Swedish experiences from wastewater irrigation on largescale Short-Rotation Willow Coppice plantations. In: Short Rotation Crops for Bioenergy: New Zealand. pp 225-228 [25] Dimitriou, I. & P. Aronsson (2003). Wastewater phytoremediation treatment systems in Sweden using short rotation willow coppice. [26] Dimitriou, I., P. Aronsson, B. Mola & M. Weih (2011). Willow short rotation coppice for energy and environmental benefits in Sweden. Third International Congress of the Salicaceae in Argentina. [27] Dimitriou, I., H. Rosenqvist & P. Aronsson (2011). Recycling of sludge and wastewater to short rotation coppice in Europe – biological and economic potential. IEA Bioenergy Task 43 Report Series: ‘Promising recources and systems for producing bioenergy feedstocks’. [28] Dimitriou, I., B. Mola-Yudego & P. Aronsson (2012). Impact of willow short rotation coppice on water quality. Bioenergy Research DOI 10.1007/s12155-012-9211-5. [29] Dobbelaere, A. de ( 2011). Ontwerpen van een agroforestry-systeem met korte omloophout. Masterproef. Universiteit Gent, Faculteit Bio-ingenieurswetenschappen. [30] http://www.ecn.nl. [31] Erktan, A. & F. Rey (2013). Linking sediment trapping efficiency with morphological traitsbarriers on marly gully floors under ecological rehabilitation. Ecological Engineering 51: 212-220. [32] Europese Commissie (2003). Short-rotation Willow Biomass Plantations Irrigated and Fertilised with Wastewater. Results from a 4-year multidisciplinary field project in 38 Pagina 41
Pagina 43Voor catalogussen, online artikelen en sportbladen zie het Online Touch CMS systeem. Met de mogelijkheid voor een e-commerce shop in uw PDF's.
585 Lees publicatie 239Home