环境科学研究
環境科學研究
배경과학연구
RSEARCH OF ENUIRONMENTAL SCIENCES
2009年
11期
1312-1316
,共5页
谢永%张仁陟%周书灵%赵建华%董博
謝永%張仁陟%週書靈%趙建華%董博
사영%장인척%주서령%조건화%동박
徽县%铅锌矿%废渣地%植被演替%动态
徽縣%鉛鋅礦%廢渣地%植被縯替%動態
휘현%연자광%폐사지%식피연체%동태
Hui County%lead-zinc mine%wasteland%vegetation succession%dynamics
对甘肃省徽县洛坝铅锌矿不同废弃时间的废渣地进行的化学分析表明,其主要污染物为重金属Pb和Zn,其 w(Pb)和 w(Zn)最大值分别为6 298和480 800 mg/kg. 重金属在废渣地中的质量分数随废弃时间的增长而减少;对废渣地恢复植被演替调查发现,Pb和Zn是影响植物自然演替的限制因子. 在现场考察的基础上对洛坝废渣地进行了植被恢复演替调查. 结果表明:从废弃时间序列上看,废渣地植物种类在增加、荒漠化在逆转,3,6和11 a的废渣地植物数分别为12,17和40种;从废渣地植被恢复演替序列上看,各时期植物都在更替,3 a废渣地以野艾蒿(Artemisia vulgaris)+升马塘(Digitaria sanguinalis)+车前草(Plantago asiatica)群落为主;6 a废渣地以野艾蒿+针叶蒿(Tripolium vulgare)+商陆(Phytolacca acinosa)+小蓬草(Erigeron annuu)群落为主;11 a废渣地又增加有固氮植物三叶草(Trifolium pratense)、苜蓿(Medicago lupulina)及紫薇(Lagerstroemia indica)、臭椿(Ailanthus altissima)的成功定居,已形成草-灌-乔简单植被结构.
對甘肅省徽縣洛壩鉛鋅礦不同廢棄時間的廢渣地進行的化學分析錶明,其主要汙染物為重金屬Pb和Zn,其 w(Pb)和 w(Zn)最大值分彆為6 298和480 800 mg/kg. 重金屬在廢渣地中的質量分數隨廢棄時間的增長而減少;對廢渣地恢複植被縯替調查髮現,Pb和Zn是影響植物自然縯替的限製因子. 在現場攷察的基礎上對洛壩廢渣地進行瞭植被恢複縯替調查. 結果錶明:從廢棄時間序列上看,廢渣地植物種類在增加、荒漠化在逆轉,3,6和11 a的廢渣地植物數分彆為12,17和40種;從廢渣地植被恢複縯替序列上看,各時期植物都在更替,3 a廢渣地以野艾蒿(Artemisia vulgaris)+升馬塘(Digitaria sanguinalis)+車前草(Plantago asiatica)群落為主;6 a廢渣地以野艾蒿+針葉蒿(Tripolium vulgare)+商陸(Phytolacca acinosa)+小蓬草(Erigeron annuu)群落為主;11 a廢渣地又增加有固氮植物三葉草(Trifolium pratense)、苜蓿(Medicago lupulina)及紫薇(Lagerstroemia indica)、臭椿(Ailanthus altissima)的成功定居,已形成草-灌-喬簡單植被結構.
대감숙성휘현락패연자광불동폐기시간적폐사지진행적화학분석표명,기주요오염물위중금속Pb화Zn,기 w(Pb)화 w(Zn)최대치분별위6 298화480 800 mg/kg. 중금속재폐사지중적질량분수수폐기시간적증장이감소;대폐사지회복식피연체조사발현,Pb화Zn시영향식물자연연체적한제인자. 재현장고찰적기출상대락패폐사지진행료식피회복연체조사. 결과표명:종폐기시간서렬상간,폐사지식물충류재증가、황막화재역전,3,6화11 a적폐사지식물수분별위12,17화40충;종폐사지식피회복연체서렬상간,각시기식물도재경체,3 a폐사지이야애호(Artemisia vulgaris)+승마당(Digitaria sanguinalis)+차전초(Plantago asiatica)군락위주;6 a폐사지이야애호+침협호(Tripolium vulgare)+상륙(Phytolacca acinosa)+소봉초(Erigeron annuu)군락위주;11 a폐사지우증가유고담식물삼협초(Trifolium pratense)、목숙(Medicago lupulina)급자미(Lagerstroemia indica)、취춘(Ailanthus altissima)적성공정거,이형성초-관-교간단식피결구.
Chemical analysis of Luoba lead-zinc mine wastelands after being abandoned for different times indicated that the main pollutant types were some heavy metals such as Pb, Zn and others. The soils of the wastelands contained high concentrations of Pb and Zn; the highest content of Zn was 480,800 mg/kg, and the highest content of Pb was 6,298 mg/kg. The heavy metal mass fraction in the wastelands decreased with amount of time growing after abandonment. The restoration vegetation succession investigation discovered that the phytotoxicity of Pb and Zn may be the major obstacles for plant succession on the wastelands. From the time of abandonment on, the number of species of plants was increasing, and desertification was reversing. 12, 17, and 40 species of plants were found growing on 3, 6, and 11 year wastelands, respectively. From the time of vegetation succession on, the plant species change with various periods. There were major communities of Artemisia vulgaris, Digitaria sanguinalis and Plantago asiatica on the three year wasteland, and there were major communities of Artemisia vulgaris, Tripolium vulgare, Phytolacca acinosa and Erigeron annuu on the six year wasteland. On the 11 year wasteland, the nitrogen-fixing plants of Trifolium pratense and Medicago lupulina, Lagerstroemia indica and Ailanthus altissima were growing successfully, and simple grass-shrubs-arbor vegetation structures had formed.