重金属超积累植物的研究进展

The composition of metals bound to class Ⅲ metallothionein (phytochelatin and its desglycyl peptide) induced by various metals in root cultures of Rubia tinctorum. Maitani T, Kubota H, Sato K et al. Plant Physiology . 1996

Pyrolysis as a technique for separating heavy metals from hyperaccumulators.Part II:Lab-scale pyrolysis of synthetic hyperaccumulator biomass. Lakshmi KL,Davis C. Biomass and Bioenergy . 2003

华南的一些砷超集累植物种类. 陈同赋,韦朝阳,黄泽春,等. 国际会议中关于土壤修复的研究进展 . 2000

Copper hyperaccumulators ofChinese Nitive ports:Characteristics and Possible Use for Phytore-mediation. Yang X E,Shi W Y,Fu C X,et al. Sustainable Agriculture for Food,Energy and In-dustry . 1998

Scbertia acuminata:ahyperaccumulator of nickel from New Caledonia. JAFFRE T,BROO KS R R,LEE J,et al. Science . 1976

Accumulation Forms of Zn and Pb in Phaseolus vulgaris in the Presence and Absence of EDTA. Sarret G,Vangronsveld J,Manceau A,Musso M,D’’Haen J,Menthonnex J-J,Hazemann J-L. Environmental Sciences . 2001

Phytochelatins: The principal heavy-metal complexing peptides of higher plant. Grill E,Winnacker E L. Science . 1985

The possibility of heavy metal decontamination of polluted soils using crops of metal -accumulating crops. Aker A J M, McGrath S P, Sidoli C M D, et al. Resources Conservation and Recycling . 1994

Phytoextraction: a cost-effective plant-based technology for the removal of metals from the environment. Garbisu C,Alkorta I. Bioresource Technology . 2001

The composition of metals bound to class Ⅲ metallothionein (phytochelatin and its desglycyl peptide) induced by various metals in root cultures of Rubia tinctorum. Maitani T, Kubota H, Sato K et al. Plant Physiology . 1996

Pyrolysis as a technique for separating heavy metals from hyperaccumulators.Part II:Lab-scale pyrolysis of synthetic hyperaccumulator biomass. Lakshmi KL,Davis C. Biomass and Bioenergy . 2003

华南的一些砷超集累植物种类. 陈同赋,韦朝阳,黄泽春,等. 国际会议中关于土壤修复的研究进展 . 2000

Copper hyperaccumulators ofChinese Nitive ports:Characteristics and Possible Use for Phytore-mediation. Yang X E,Shi W Y,Fu C X,et al. Sustainable Agriculture for Food,Energy and In-dustry . 1998

Scbertia acuminata:ahyperaccumulator of nickel from New Caledonia. JAFFRE T,BROO KS R R,LEE J,et al. Science . 1976

Accumulation Forms of Zn and Pb in Phaseolus vulgaris in the Presence and Absence of EDTA. Sarret G,Vangronsveld J,Manceau A,Musso M,D’’Haen J,Menthonnex J-J,Hazemann J-L. Environmental Sciences . 2001

Phytochelatins: The principal heavy-metal complexing peptides of higher plant. Grill E,Winnacker E L. Science . 1985

The possibility of heavy metal decontamination of polluted soils using crops of metal -accumulating crops. Aker A J M, McGrath S P, Sidoli C M D, et al. Resources Conservation and Recycling . 1994

Phytoextraction: a cost-effective plant-based technology for the removal of metals from the environment. Garbisu C,Alkorta I. Bioresource Technology . 2001