| [1] |
葛滢,王晓月,常杰,不同程度富营养化水中植物净化能力比较研究.环境科学学报,1999,19(6):690—692 [2] Klumpp A, Bauer K, Franz-Gerstein C et al., Variation of Nutrient and Metal Concentrations in Aquatic Macrophytes along the Rio Cachoeira in Bahia(Brazil). Environment International,2002,28:165—171 [3] Mukherjee R, Nandi B, Improvement of in Vitro Digestibility through Biological Treatment of Water Hyacinth Biomass by Two Pleurotus Species. International Biodeterioration & Biodegradation,2004,53:7—12 [4] Singhal V, Rai J P N, Biogas Production from Water Hyacinth and Channel Grass Used for Phytoremediation of Industrial Effluents. Bioresource Technology,2003,86:221—225 [5] Gajalakshmi S, Abbasi S A, Effect of the Application of Water Hyacinth Compost/Vermicompost on the Growth and Flowering of Crossandra Undulaefolia and on Several Vegetables. Bioresource Technology,2002,85:197—199 [6] 陈瑛,金叶飞,王秀琴等, 水葫芦各部位富集能力的研究.环境保护科学,2004,30(3):31—34 [7] 陈广银,郑正,邹星星等, 水葫芦不同部位的厌氧消化特性.环境化学,2009,28(1):16—20 |