Reclamation of abandoned open mines with innovative meandrically arranged geotextiles

Ahn, 2002, Stabilization of soil slope uising geosynthetic mulching mat, Geotext. Geomembranes, 20, 135, 10.1016/S0266-1144(02)00002-X Arnold, 1993, Production of cord and narrow fabric products with Kemafil technology, Band- Flechtind., 1, 4 Arnold, 1995, Recycling approach using the Kemafil technology, Tech. Text., 39, 24 Baasch, 2012, Nine years of vegetation development in a postmining site: effects of spontaneous and assisted site recovery, J. Appl. Ecol., 49, 251, 10.1111/j.1365-2664.2011.02086.x Baxter, 2008, Wattles and other sediment control devices, Eros. Control, 15, 44 Berthold, 1975 Borgegård, 1990, Vegetation development in abandoned gravel pits: effects of surrounding vegetation, substrate and regionality, J. Veg. Sci., 1, 675, 10.2307/3235575 Bradshaw, 1997, Restoration of mined lands—using natural processes, Ecol. Eng., 8, 255, 10.1016/S0925-8574(97)00022-0 Bradshaw, 2000, The use of natural processes in reclamation - advantages and difficulties, Landsc. Urban Plan., 51, 89, 10.1016/S0169-2046(00)00099-2 Bradshaw, 1980 Broda, 2016, Innovative geotextiles for reinforcement of roadside ditch, Tekstilec, 59, 115, 10.14502/Tekstilec2016.59.115-120 Broda, 2017, Application of innovative meandrically arranged geotextiles for the protection of drainage ditches in the clay ground, Geotext. Geomembranes, 45, 45, 10.1016/j.geotexmem.2016.07.003 Broda, 2018, Innovative wool geotextiles designed for erosion protection, J. Ind. Text., 48, 10.1177/1528083717695837 Carroll, 1992, Geosynthetics in erosion control — the principles, Geotext. Geomembranes, 11, 523, 10.1016/0266-1144(92)90030-E Etra, 2011, Fiber roles or sediment logs: the rest of the story, Environ. Conn., 5, 20 García, 2015, Field evaluation of sediment retention devices under concentrated flow conditions, J. Soils Sediments, 15, 2022, 10.1007/s11368-015-1167-6 Helbig, 2006, Knitted structures for applications as geosynthetics or in agriculture and horticulture, Tech. Text., 49, 187 Helbig, 2006, New technologies for manufacturing extra coarse rope-like biodegradable geotextiles, Tech. Text., 49, 185 Hutnik, 1990, Revegation Kiehl, 2010, Species introduction in restoration projects – evaluation of different techniques for the establishment of seminatural grasslands in Central and Northwestern Europe, Basic Appl. Ecol., 11, 285, 10.1016/j.baae.2009.12.004 Krummsdorf, 1998, NaturschutzgebietTagebauZechauimKreis Altenburg in thüringen, 916 Kumar, 2018, Nonwoven geotextiles from nettle and poly(lactic acid) fibers for slope stabilization using bioengineering approach, Geotext. Geomembranes, 46, 206, 10.1016/j.geotexmem.2017.11.007 Kuter, 2013, Reclamation of degraded landscapes due to opencast mining Moreno-de las Heras, 2008, Vegetation succession in reclaimed coal-mining slopes in a Mediterranean-dry environment, Ecol. Eng., 34, 168, 10.1016/j.ecoleng.2008.07.017 Moreno-de las Heras, 2009, Effect of vegetation cover on the hydrology of reclaimed mining soils under Mediterranean-Continental climate, Catena, 77, 39, 10.1016/j.catena.2008.12.005 Mudrák, 2016, Initial species composition predicts the progress in the spontaneous succession on post-mining sites, Ecol. Eng., 95, 665, 10.1016/j.ecoleng.2016.07.002 Ngo, 2019, Performance of a geosynthetic cementitious composite mat for stabilising sandy slopes, Geosynth. Int., 26, 309, 10.1680/jgein.19.00020 Nsiah, 2019, The potentials of biological geotextiles in erosion and sediment control during gold mine reclamation in Ghana, J. Soils Sediments, 19, 1995, 10.1007/s11368-018-2217-7 Ogbobe, 1998, A study of biodegradable geotextiles used for erosion control, Geosynth. Int., 5, 545, 10.1680/gein.5.0131 Peris, 2017, Ecological restoration of a former gravel pit contaminated by a massive petroleum sulfonate spill. A case study: arganda del Rey.Madrid (Spain), Ecol. Eng., 100, 73, 10.1016/j.ecoleng.2016.11.022 Prach, 2013, Spontaneous vegetation succession at different central European mining sites: a comparison across seres, Environ. Sci. Pollut. Control Ser., 20, 7680, 10.1007/s11356-013-1563-7 Prach, 2014, Vegetation succession in restoration of disturbed sites in Central Europe: the direction of succession and species richness across 19 seres, Appl. Veg. Sci., 17, 193, 10.1111/avsc.12064 Prambauer, 2019, Biodegradable geotextiles – an overview of existing and potential materials, Geotext. Geomembranes, 47, 48, 10.1016/j.geotexmem.2018.09.006 Pritchard, 2000, Textiles in civil engineering. Part 2 – natural fibre geotextiles, 372 Rehounkova, 2008, Spontaneous vegetation succession in gravel–sand pits: a potential for restoration, Restor. Ecol., 16, 305, 10.1111/j.1526-100X.2007.00316.x Rickson, 2006, Controlling sediment at source: an evaluation of erosion control geotextiles, Earth Surf. Process. Landforms, 31, 550, 10.1002/esp.1368 Schor, 2007 Shao, 2014, Effectiveness of geotextile mulches for slope restoration in semi-aridnorthern China, Catena, 116, 1, 10.1016/j.catena.2013.12.006 Sheoran, 2010, Soil reclamation of abandoned mine land by revegetation: a review, Int. J. Soil Sediment Water, 3, 1 Shukla, 2016 Theisen, 1992, The role of geosynthetics in erosion and sediment control: an overview, Geotext. Geomembranes, 11, 535, 10.1016/0266-1144(92)90031-5 Weggel, 1992, Soil erosion by rainfall and runoff—state of the art, Geotext. Geomembranes, 11, 551, 10.1016/0266-1144(92)90032-6 Wu, 1992, Three-dimensional polyethylene geocells for erosion control and channel linings, Geotext. Geomembranes, 11, 611, 10.1016/0266-1144(92)90035-9