burdens for ADP and ODP indexes and

burdens for ADP and ODP indexes and lower values for AP, GWP indexes. As regards the mulching treatments, the use of polypropylene film achieved the minimum values for the EP and ODP indexes, as the polypropylene film use allowed the minimum values for the ADP index. Moreover polyethylene film made a lower environmental burden compared to polypropylene one for all environmental indexes, except ADP index. Finally, the DOP0 technique, had environmental loads higher for AP, EP indexes and lower for POPC index and for PED. But considering avoided burdens, the DOP12 and DOP13 scenarios produced an environmental credit for all indices and therefore they showed significant improvement with respect to all treatments compared. In particular, the DOP12 scenario resulted the most beneficial for the AP, GWP, POPC indexes and for PED; while the DOP13 scenario was the most beneficial for the ADP, EP, ODP indexes. Scenario analysis made by LCA with subtraction of the avoided environmental loads, involves a sustainable use of DOP mulches as a methodology for the weed control and soil management. The results obtained allow to promote the use of DOP as mulch for weed control in olive orchards as a sustainable practice. One of the most significant problems in the application of LCA to agricultural practices is that some of the environmental impacts cannot be assessed by the current methodology. Soil quality and biodiversity are just an example of this limits. In fact in the present study we assumed that the organic matter coming from DOP is grounded in the soil without getting a positive feedback on the environmental parameters. According to Reap et al. (2008), impact analysis on soil quality remains one of the unresolved problems of agriculture LCA because of its spatial and temporal variation and local uniqueness. Nonetheless, the well stated presence of two important bio-indicators, as Serapias orchid and Coprinus fungus, could well support the LCA analysis limits. As consequence, DOP mulching could elevates the environmental sustainability in highdensity olive orchards and it could promotes the creation of habitats suitable to the life cycle of plants and animals species typical of wild areas, excluding any kind of soil pollution in the medium-term period in the high-density olive orchard. In any case, in the next years soil monitoring needs to check for possible effects of longterm contamination. Fig. 4. Spontaneous specimens of Serapias lingua L. (Orchidaceae) in a high-density olive orchard mulched with DOP. Fig. 5. Fruiting bodies of fungi of the genus Coprinus spp. (Coprinaceae) in a highdensity olive orchard mulched with DOP. 506 G. Russo et al. / Journal of Cleaner Production 107 (2015) 498e508 In conclusion, DOP mulching could represent the best weed control technique for high-density olive cultivation in order to propose an easily feasible, eco-friendly solution to the farmers. These results represent a reliable contribute to ascertain the general environmental sustainability of the new high-density olive cropping systems. On the other hand, the traditional rainfed cropping system have negative closing balance not only from an economical point of view (Godini, 2006; Clodoveo et al., 2014) but also from the ecological one. Indeed recent works stated that intensive irrigated oliveculture could double the greenhouse gases amounts immobilized in the soil-tree system with respect the traditional one (Padilla et al., 2010; Sofo et al., 2005; Testi et al., 2008). Therefore, DOP could be considered a suitable mulching material for greater environmental sustainability for soil management in intensive plantings as well. This is a very interesting topic to investigate in the next research works for the new olive orchards.