湖北农业科学
湖北農業科學
호북농업과학
Hubei Agricultural Sciences
2015年
21期
5395-5398
,共4页
任道援%罗砚文%周绍均%王奥%向丽萍
任道援%囉硯文%週紹均%王奧%嚮麗萍
임도원%라연문%주소균%왕오%향려평
土壤-茶树系统%稀土元素%含量特征%贵州
土壤-茶樹繫統%稀土元素%含量特徵%貴州
토양-다수계통%희토원소%함량특정%귀주
soil-tea plant system%rare earth elements%content characteristic%Guizhou
采用ICP-MS法同步研究了黔北(湄潭县核桃坝、凤冈县田坝),黔东南/黔南(雷山县雷公山、都匀市螺蛳壳)区域典型的土壤-茶树系统中的16种稀土元素含量特征. 结果表明,稀土元素(Rare Earths Elements,REEs)在各土壤-茶树系统均有分布,在黔北地区样品中相对较高、黔南都匀地区最低. 在不同的土壤-茶树系统中,REEs总量自下而上均呈递减的趋势,土壤REEs总量明显高于茶树,茶树地下部分高于地上部分.土壤、茶树样品中16种稀土元素的分布特征较为相似,均以轻稀土元素Ce、La、Nd为主,重稀土元素Y也有较高含量. 茶树中Ce、Eu、Sc、Gd元素的含量多高于土壤,而La、Nd、Pr等元素含量明显低于土壤. 球粒陨石标准化结果表明茶树叶片中Eu元素存在正异常. 研究结果可为深入分析贵州茶叶质量安全风险提供基础数据.
採用ICP-MS法同步研究瞭黔北(湄潭縣覈桃壩、鳳岡縣田壩),黔東南/黔南(雷山縣雷公山、都勻市螺螄殼)區域典型的土壤-茶樹繫統中的16種稀土元素含量特徵. 結果錶明,稀土元素(Rare Earths Elements,REEs)在各土壤-茶樹繫統均有分佈,在黔北地區樣品中相對較高、黔南都勻地區最低. 在不同的土壤-茶樹繫統中,REEs總量自下而上均呈遞減的趨勢,土壤REEs總量明顯高于茶樹,茶樹地下部分高于地上部分.土壤、茶樹樣品中16種稀土元素的分佈特徵較為相似,均以輕稀土元素Ce、La、Nd為主,重稀土元素Y也有較高含量. 茶樹中Ce、Eu、Sc、Gd元素的含量多高于土壤,而La、Nd、Pr等元素含量明顯低于土壤. 毬粒隕石標準化結果錶明茶樹葉片中Eu元素存在正異常. 研究結果可為深入分析貴州茶葉質量安全風險提供基礎數據.
채용ICP-MS법동보연구료검북(미담현핵도패、봉강현전패),검동남/검남(뇌산현뢰공산、도균시라사각)구역전형적토양-다수계통중적16충희토원소함량특정. 결과표명,희토원소(Rare Earths Elements,REEs)재각토양-다수계통균유분포,재검북지구양품중상대교고、검남도균지구최저. 재불동적토양-다수계통중,REEs총량자하이상균정체감적추세,토양REEs총량명현고우다수,다수지하부분고우지상부분.토양、다수양품중16충희토원소적분포특정교위상사,균이경희토원소Ce、La、Nd위주,중희토원소Y야유교고함량. 다수중Ce、Eu、Sc、Gd원소적함량다고우토양,이La、Nd、Pr등원소함량명현저우토양. 구립운석표준화결과표명다수협편중Eu원소존재정이상. 연구결과가위심입분석귀주다협질량안전풍험제공기출수거.
Contents of rare earth elements (REEs) in typical soil-tea plant system which located in north of Guizhou province (Hetaoba of Meitan county,MT and Tianba of Fenggang county,FG) and south/southeast Guizhou province (Leigong-shan of Leishan county and Luosike of Duyun county) were studied by ICP-MS method. REEs were founded in each "soil-tea plant" system,which was higher in north of Guizhou. REEs in soils were significantly higher than tea plant. REEs in be-lowground part were also higher than aboveground part of tea plant. The similar characteristics of 16 types of REEs were ob-served in each "soil-tea plant" system,which was dominated by Ce,La and Nd. The percentage of Ce,Eu,Sc,Gd in tea plant was higher than soil, while the percentage of La,Nd and Pr in tea plant was lower than soil. Results of chondrite normalized showed a positive europium anomaly in tea leaf samples. The results provided basic data to safety risk assessment of Guizhou tea products.
