Crop‐based systems for sustainable risk‐based land management for economically marginal damaged land

Abstract: The increasing need for biomass for energy and feedstocks, along with the need to divert organic methane generating wastes from landfills, may provide the economic leverage necessary to return this type of marginal land to functional and economic use and is strongly supported by policy at the European Union (EU) level. The use of land to produce biomass for energy production or feedstocks for manufacturing processes (such as plastics and biofuels) has, however, become increasingly contentious, with a number of… Show more

“…Thus marginal lands, including the ones with HM contamination, receive more attention. [22][23] Unlike valuable seeds, B. napus straw is considered as field residue and usually is left on soil surface [24]. Nonetheless, summer rapeseed produces more straw biomass from hectare in comparison to such crops as wheat (Triticum spp.…”

Chelant-Assisted Accumulation of Cd, Cu, and Zn in Rapeseed (Brassica napus L.) Biomass as a Renewable Energy Feedstock

“…Thus marginal lands, including the ones with HM contamination, receive more attention. [22][23] Unlike valuable seeds, B. napus straw is considered as field residue and usually is left on soil surface [24]. Nonetheless, summer rapeseed produces more straw biomass from hectare in comparison to such crops as wheat (Triticum spp.…”

Chelant-Assisted Accumulation of Cd, Cu, and Zn in Rapeseed (Brassica napus L.) Biomass as a Renewable Energy Feedstock

“…(e.g. Bardos et al, 2011, Andersson-Skold et al, 2014. Technical information from the GREENLAND demonstration sites provides evidence of the effectiveness of GRO in the medium to longer term under varying site contexts and conditions throughout Europe, and data for economic and other assessments, which are included in this DST to help regulators, consultants, site managers and planners develop practical strategies for GRO application across Europe.…”

“…Within this tool, we provide links to three matrices/modules: The European Union FP7 HOMBRE project (grant 265097, www.zerobrownfields.eu) Brownfield Opportunity Matrix (BOM) -an Excel-based qualitative screening tool to help decision makers identify which services they can obtain from "soft reuse" interventions (including GRO) at a site, and how these services interact; The SuRF-UK indicator sets (with further links to external analysis software resources), which provide a semi-quantitative ranking system based on key economic, environmental and social indicators (Bardos et al, 2011), and an outline cost calculator, developed within the GREENLAND project, which incorporates user-entered cost data to estimate the economic value proposition of GRO at a particular site (discussed further below).…”

“…Bardos et al, 2010), as well as widespread use of "green" technologies such as landscaping, application of green covers, reedbeds and constructed wetlands in remediation or industrial/urban regeneration projects. Nevertheless, the application of GRO as practical on-site remedial solutions is still in its relative infancy, particularly (a) in Europe, and (b) for trace element contaminated sites.…”

Brownfields to green fields: Realising wider benefits from practical contaminant phytomanagement strategies

“…In practice, it is not possible to perform experimental trials in each specifi c case. However, the results of many pot and fi eld studies in which plants have been grown on polluted soils have been integrated into model-based decision support systems (DSS), such as REC-Phyto-DSS (Onwubuya et al 2009 ), Phyto-DSS (Robinson et al 2003a ), and Phyto-3 (Bardos et al 2011 ).These can be of great help in the evaluation, design, and operation of site-adapted phytoremediation schemes. All the mentioned DSS either use a multi-criteria analysis or life cycle analysis or both.…”

Phytomanagement: Phytoremediation and the Production of Biomass for Economic Revenue on Contaminated Land