• Environmental and socio-economic contributions of palm-leaf geotextiles to sustainable development and soil conservation

      Booth, Colin A.; Davies, Kathleen; Fullen, Michael A. (WIT Press, 2005)
      Geotextiles are employed in civil engineering and construction applications to efficiently and economically conserve soil. Palm-leaf geotextiles offer considerable potential to contribute to sustainable development and soil conservation. Their use can promote sustainable and environmentally-friendly palm agriculture, labour-intensive employment and earn hard currency. Ongoing field and laboratory research is investigating geotextile mats manufactured from palm-leaves to evaluate their long-term effectiveness in controlling soil erosion and assess their sustainability and economic viability. Palm-leaf geotextiles are novel and offer new bioengineering solutions to environmental problems. This is achieved through: (i) Promotion of sustainable and environmentally-friendly palm agriculture to discourage deforestation, promote both reforestation and agroforestry and offer a potential for commercial development. (ii) Construction of palm geotextiles to develop into a rural based labour-intensive industry, particularly encouraging employment of socially disadvantaged groups. In turn, this contributes to the stabilization of rural populations, thus decreasing migration to urban areas. (iii) Export of completed palm geotextiles to industrialized countries earns hard currency for rural developing economies, based on the principles of fair trade. (iv) Application of palm geotextiles are especially beneficial for complex engineering problems, as temporary application of geotextiles allows sufficient time for plant communities to stabilize engineered slopes. Investigations suggest palm geotextiles are an effective, cheap and economically-viable soil conservation method, with tremendous potential. Palm geotextiles offer enormous multi-faceted environmental benefits, which include technologies for sustainable plant production, promoting sustainable use of indigenous plants, improved ecosystem management, decreasing deforestation, improved agroforestry and successful and cost-effective geotextile applications in diverse environments. Palm geotextiles improve socio-economic foundations for sustainable development and the benefits for developing countries include poverty alleviation, engagement of disadvantaged groups as stakeholders, employment for disadvantaged groups, SME (small and medium enterprise) development, earning hard currency, environmental education and local community involvement in reclamation and environmental-improvement programmes.
    • Rainfall simulator study of the erosion control potential of palm geotextiles for mine dam slope stabilization

      Bühmann, C.,; Paterson, G.; Pienaar, G.M.E.; Nell, J.P.; Mulibana, N.E.; van Deventer, P.W.; Fullen, Michael A.; Subedi, Madhu; Sarsby, Robert W. (CRC Press/Taylor and Francis, 2010)
      Mining has been the backbone of the South African economy since the late 19th century. Large volumes of mine waste, such as tailings, have been generated in some areas. Mine waste is highly susceptible to both water and wind erosion, it may create moderate to severe chemical imbalances or toxicities and has a severe abrasive effect on seedlings, a low water-holding capacity and is prone to compaction and crusting. Biogeotextiles are potentially effective and economically-viable erosion control products. The main objective of the study reported herein was to establish the erosion control properties of palm-mats by determining erosion-related variables via rainfall simulation. The textiles were manufactured from the leaves of the Lala palm (Hyphaene coriacea) and covered about 40% of the tailing surface. Ten representative samples of South African mine waste materials were collected for the rainfall simulator studies. Measured erosion parameters included; runoff, sediment load in runoff and interrill erodibility. Seven samples were sand-textured and three were silty. Sediment load was not dependent on exchangeable sodium or organic matter contents, but prominently associated with pH, silt percentage and the quartz content in the clay fraction. When the samples were covered with palm-mats the amount of runoff was similar to that of bare materials, but sediment yield was reduced by about 55%. These results confirm the suitability of palm geotextiles for erosion control on tailing dam slopes.
    • The Effects of Biogeotextiles on the Stabilization of Roadside Slopes in Lithuania.

      Jankauskas, Benediktas; Jankauskienė, Genovaitė; Fullen, Michael A.; Booth, Colin A. (Lithuania: Vilnius Gediminas Technical University, 2008)
      Biogeotextiles constructed from the leaves of Borassus aethiopum and Mauritia flexuosa are investigated at the Kaltinėnai Research Station of the Lithuanian Institute of Agriculture, which is participating in the EU-funded BORASSUS Project. Biogeotextiles are potentially excellent biodegradable and environmentally-friendly materials useful for soil conservation. Field studies on a steep (21–25°) roadside slope in Lithuania suggest biogeotextile mats are an effective and sustainable soil conservation technique. Biogeotextiles have a potential as a biotechnical soil conservation method for slope stabilization and protection from water erosion on steep industrial slopes and may be integrated with the use of perennial grasses to optimize protection from water erosion. The investigations demonstrated that a cover of Borassus and Buriti mats improved the germination and growth of sown perennial grasses. The biomass of perennial grasses increased by 52.0–63.4% under cover of Borassus mats and by 18.6–28.2% under cover of Buriti mats. Over 2 years, the biogeotextiles (Borassus and Buruti, respectively) decreased soil losses from bare fallow soil by 90.8% and 81.5% and from plots covered by perennial grasses by 87.9% and 79.0%, respectively.