鉛污染 的英文怎麼說

中文拼音 [qiānrǎn]
鉛污染 英文
lead contamination
  • : 鉛名詞1. (金屬元素) lead (pb) 2. (鉛筆心) lead (in a pencil); black lead
  • : Ⅰ名詞(臟水; 臟物) slops; sewage; dirt; filth Ⅱ動詞(弄臟) defile; dirty; smear Ⅲ形容詞1 (臟)...
  • : Ⅰ動詞1 (用染料著色)dye 2 (感染) catch [contract] (a disease) 3 (沾染) acquire (a bad hab...
  • 污染 : pollute; contaminate
  1. Using potted trial, the soil heavy metal lead pollution influences on maize plant growth were studied under lime ameliorant condition

    摘要採用盆栽試驗,研究了在施用石灰改良的條件下,土壤重金屬鉛污染對玉米生長的影響。
  2. Relationship between oribatid mites and plumbum in soil

    土壤中甲蟎孳生與鉛污染相關性研究
  3. 0xl0 - 2 c / cm2k respectively. and the sbn thin film can avoid plumbum pollution of pzt ferroelectric material

    而且, sbn在制備過程中能夠避免pzt等鐵電材料的鉛污染的問題。
  4. Environmental lead contamination and refractory rickets

    環境鉛污染與難治性佝僂病
  5. A study on relationship between blood lead level in children and fetal umbilical cord

    兒童血與胎兒期鉛污染的關系
  6. A cross - sectional study of the effects of blood lead and cadmium etc six elements on infant behavior problems

    環境鉛污染對兒童行為影響的隊列研究
  7. The results show that, the more soil lead pollution concentration is high, the more heavy metal lead is absorbed by maize plant, and the more maize plant growth influenced is graveness

    結果表明:土壤重金屬鉛污染質量分數越高,玉米吸收重金屬越多,對玉米的生長影響越大。
  8. Toxic effect of lead pollution on porphyra yezoensis

    鉛污染對條斑紫菜的毒害影響
  9. Effects of lead pollution on children s health

    鉛污染與兒童健康
  10. Study on lead pollution and the related factors in crops on the highway - sides

    公路邊農作物鉛污染水平與相關因素研究
  11. Study on lead pollution and its distribution in the soil on the highway - sidesof mountain area

    山區公路邊土壤鉛污染水平及其分佈規律研究
  12. Remelted lead is an important way to reuse the waste and to prevent lead pollution but it may produce soil lead pollution without appropriate treatment

    再生冶煉是對廢棄物的循環利用,防治鉛污染的重要手段。
  13. The lime control effects are represent on plant high, leaves area, root cubage and others for maize plant growth influenced by heavy metal lead, and the differences are prominent between meliorative treatment and single lead pollution treatment

    石灰對重金屬影響玉米生長的抑制效應表現在株高、葉面積、根容積等,改良處理與單一鉛污染的處理差異顯著。
  14. A review with 15 references is given on the factors result in lead contamination in tea leaves based on the related researches of recent years

    摘要根據近年來國內外對茶葉鉛污染研究的相關報道,綜述了茶葉中鉛污染的主要來源。
  15. Enough attention shold be paid to the situation

    因而,要提高人口素質,促進優生優育,必須防止鉛污染
  16. Status of pb pollution in shenyang city and its effects on children behavior development

    6歲兒童鉛污染流行情況及對行為發育的影響
  17. In order to understand the origin of lead in air, proton microprobe was used to measure pm10 environmental monitoring samples of wusong district, shanghai city, and lead pollution origin of this district was studied with micro - pixe spectrum " fingerprint " combined with pattern recognition technique

    摘要為?解空氣中的來源,用質子微探針測量了上海市吳淞地區空氣pm10環境監測樣品,用微束質子激發單顆粒x射線能譜「指紋」結合模式識別技術研究了該地區鉛污染的來源。
  18. Ap ) - trenton, n. j. - new jersey has warned squirrel hunters near a toxic waste dump about consuming the critters because they could be contaminated with lead

    美聯社新澤西州特倫頓報道? ?新澤西州警告在有害物棄置場附近獵捕松鼠的人們慎食該動物,因其可能已遭鉛污染
  19. Two incubation experiments were conducted to evaluate the effect of cadmium and lead applied singly on soil microbial activities and functional diversity of microbial community in red clayey soil and red sandy soil

    以紅黃泥和紅砂泥兩個土屬作為供試紅壤,採用室內培養方法對外加鎘、鉛污染紅壤的微生物活性及群落結構進行了研究。
  20. At the same time, the result of the functional diversity of soil microbial community indicated that soil microbial metabolism quotient ( awcd ), microbial community richness and shannon index all decreased significantly in red soils polluted by cadmium and lead compared with non - polluted soils. these results suggested the structure of microbial community have changed, decreased the functional diversity of microbial community, and reduced the microbial number utilizing different carbon resources

    Biologgn測試結果顯示,鎘、鉛污染紅壤微生物群落代謝剖面( awcd )及群落豐富度、多樣性指數均顯著低於非土壤,表明重金屬引起了土壤微生物群落功能多樣性下降,減少了能利用有關碳源底物的微生物數量、降低了微生中義摘要物對單一碳源底物的利用能力,最終導致土壤微生物群落功能多樣性發生變化。
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