中南林业科技大学学报
中南林業科技大學學報
중남임업과기대학학보
JOURNAL OF CENTRAL SOUTH UNIVERSITY OF FORESTRY & TECHNOLOGY
2015年
4期
139-146
,共8页
石润%吴晓芙%李芸%冯冲凌%李韵诗
石潤%吳曉芙%李蕓%馮遲凌%李韻詩
석윤%오효부%리예%풍충릉%리운시
重金属污染土壤%植物修复%本土植物%超积累植物
重金屬汙染土壤%植物脩複%本土植物%超積纍植物
중금속오염토양%식물수복%본토식물%초적루식물
heavy metal contaminated soil%phytoremediation%local plant%hyperaccumulator
综述了文献报道的应用于重金属污染土壤治理的超积累、本土和生态-经济型植物种类。超积累植物具有抗性强、耐受重金属浓度高和转移系数大的优点,不足之处是大多数超积累植物适生范围窄,生物量小、富集总量小,以至修复周期长。在复合重金属污染场地的治理中,多金属超积累植物的筛选已成为新的关注点。为了发挥植物修复技术在重建植被与景观、控制水土流失、丰富生物多样性、提高土地利用价值等诸多方面的功能,有必要扩大植物种类筛选与应用的范围。利用适生的本土先锋植物生长快的优势,结合用材、工业原料、药用、能源、景观等生态-经济型植物的功能构建复合植被群落,可望成为发展植物修复技术的新趋势。
綜述瞭文獻報道的應用于重金屬汙染土壤治理的超積纍、本土和生態-經濟型植物種類。超積纍植物具有抗性彊、耐受重金屬濃度高和轉移繫數大的優點,不足之處是大多數超積纍植物適生範圍窄,生物量小、富集總量小,以至脩複週期長。在複閤重金屬汙染場地的治理中,多金屬超積纍植物的篩選已成為新的關註點。為瞭髮揮植物脩複技術在重建植被與景觀、控製水土流失、豐富生物多樣性、提高土地利用價值等諸多方麵的功能,有必要擴大植物種類篩選與應用的範圍。利用適生的本土先鋒植物生長快的優勢,結閤用材、工業原料、藥用、能源、景觀等生態-經濟型植物的功能構建複閤植被群落,可望成為髮展植物脩複技術的新趨勢。
종술료문헌보도적응용우중금속오염토양치리적초적루、본토화생태-경제형식물충류。초적루식물구유항성강、내수중금속농도고화전이계수대적우점,불족지처시대다수초적루식물괄생범위착,생물량소、부집총량소,이지수복주기장。재복합중금속오염장지적치리중,다금속초적루식물적사선이성위신적관주점。위료발휘식물수복기술재중건식피여경관、공제수토류실、봉부생물다양성、제고토지이용개치등제다방면적공능,유필요확대식물충류사선여응용적범위。이용괄생적본토선봉식물생장쾌적우세,결합용재、공업원료、약용、능원、경관등생태-경제형식물적공능구건복합식피군락,가망성위발전식물수복기술적신추세。
A literature review has been conducted on hyperaccumulator, pioneer and ecological-economic plant species used in phytoremediation of heavy metal contaminated soils. Hyperaccumulators are recognized by their natures of tolerance to high levels of heavy metal contamination and high metal transfer coefficient. The screening of multi-metal hyperaccumulators has drawn much attention in recent years for remediation of multi-metal polluted sites. There are limitations in phytoremediation for application of hyperaccumulators. A large population of identified hyperaccumulators are found to have narrow adequate distribution area and low quantity of total metal uptake due to their small biomass growth, which, when used in practice, leads to relatively long remediation periods. There is a high need to broaden the selection range of plant species so as to improve the multiple functions of phytoremediation with respect to restoration of vegetation and landscape, control of soil erosion, enrichment of biodiversity and enhancement of land utilization value. Use of plant species possessing high ecological and economic values (e.g., wood, industrial raw material, medicine and biofuel plants, as well as species with high landscape values) in combination with native fast-growth pioneer plants to establish a multiple vegetation ecosystem has shown to have a potential perspective for future development of phytoremediation technology.