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      Effects of Pinus densiflora on soil chemical and microbial properties in Pb-contaminated forest soil

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      https://www.riss.kr/link?id=A103816435

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      We investigated the effect of Pb uptake by Pinus densiflora and the Pb fraction in forest soil. We also investigated the change in soil physicochemical characteristics, microbial activity, and root exudates of Pinus densiflora in Pb-contaminated soils. Three-year-old pine seedlings were exposed to 500 mg/kg Pb for 12 months. The metal fractions were measured using sequential extraction procedures. Additionally, factors that affect solubility (three soil enzyme activities and amino acids of root exudate compounds) were also determined. The results showed that Pb contamination significantly decreased enzyme activities due to soil characteristics. In addition, organic matter, nitrate content, and Pb concentration were time dependent. The results indicate that changes in the Pb fraction affected Pb uptake by pine trees due to an increase in the exchangeable Pb fraction. The concentrations of organic acids were higher in Pb-spiked soil than those in control soil. Higher rhizosphere concentrations of oxalic acid resulted in increased Pb uptake from the soil. These results suggest that pine trees can change soil properties using root exudates due to differences in the metal fraction.
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      We investigated the effect of Pb uptake by Pinus densiflora and the Pb fraction in forest soil. We also investigated the change in soil physicochemical characteristics, microbial activity, and root exudates of Pinus densiflora in Pb-contaminated soils...

      We investigated the effect of Pb uptake by Pinus densiflora and the Pb fraction in forest soil. We also investigated the change in soil physicochemical characteristics, microbial activity, and root exudates of Pinus densiflora in Pb-contaminated soils. Three-year-old pine seedlings were exposed to 500 mg/kg Pb for 12 months. The metal fractions were measured using sequential extraction procedures. Additionally, factors that affect solubility (three soil enzyme activities and amino acids of root exudate compounds) were also determined. The results showed that Pb contamination significantly decreased enzyme activities due to soil characteristics. In addition, organic matter, nitrate content, and Pb concentration were time dependent. The results indicate that changes in the Pb fraction affected Pb uptake by pine trees due to an increase in the exchangeable Pb fraction. The concentrations of organic acids were higher in Pb-spiked soil than those in control soil. Higher rhizosphere concentrations of oxalic acid resulted in increased Pb uptake from the soil. These results suggest that pine trees can change soil properties using root exudates due to differences in the metal fraction.

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      참고문헌 (Reference)

      1 Yun KW, "essment of allelopathic potential in Artemisia princeps var. orientalis residues" 18 : 1933-1940, 1992

      2 Wu H, "Using elevated CO2 to increase the biomass of a Sorghum vulgare × Sorghum vulgare var. sudanense hybrid and Trifolium pratense L. and to trigger hyperaccumulation of cesium" 170 : 861-870, 2009

      3 Hartley J, "The effects of multiple metal contamination on ectomycorrhizal Scots pine (Pinus sylvestris) seedlings" 106 : 413-424, 1999

      4 Hoagland DR, "The Water Culture Method for Growing Plants without Soil" University of California, Agricultural Experiment Station 1950

      5 US Environmental Protection Agency, "Test Methods for Evaluating Solid Waste" US Environmental Protection Agency 1986

      6 Tabatabai MA, "Soil enzymes. In: Methods of Soil Analysis, Part 2. Agronomy Monograph" American Society of Agronomy 903-904, 1982

      7 Tessier A, "Sequential extraction procedure for the speciation of particulate trace metals" 51 : 844-851, 1979

      8 Hartley-Whitaker J, "Sensitivity to Cd or Zn of host and symbiont of ectomycorrhizal Pinus sylvestris L. (Scots pine) seedlings" 218 : 31-42, 2000

      9 Kuang YW, "Root exudates and their roles in phytoremediation" 27 : 709-717, 2003

      10 Tang S, "Response to elevated CO2 of Indian mustard and sunflower growing on copper contaminated soil" 71 : 988-997, 2003

      1 Yun KW, "essment of allelopathic potential in Artemisia princeps var. orientalis residues" 18 : 1933-1940, 1992

      2 Wu H, "Using elevated CO2 to increase the biomass of a Sorghum vulgare × Sorghum vulgare var. sudanense hybrid and Trifolium pratense L. and to trigger hyperaccumulation of cesium" 170 : 861-870, 2009

      3 Hartley J, "The effects of multiple metal contamination on ectomycorrhizal Scots pine (Pinus sylvestris) seedlings" 106 : 413-424, 1999

      4 Hoagland DR, "The Water Culture Method for Growing Plants without Soil" University of California, Agricultural Experiment Station 1950

      5 US Environmental Protection Agency, "Test Methods for Evaluating Solid Waste" US Environmental Protection Agency 1986

      6 Tabatabai MA, "Soil enzymes. In: Methods of Soil Analysis, Part 2. Agronomy Monograph" American Society of Agronomy 903-904, 1982

      7 Tessier A, "Sequential extraction procedure for the speciation of particulate trace metals" 51 : 844-851, 1979

      8 Hartley-Whitaker J, "Sensitivity to Cd or Zn of host and symbiont of ectomycorrhizal Pinus sylvestris L. (Scots pine) seedlings" 218 : 31-42, 2000

      9 Kuang YW, "Root exudates and their roles in phytoremediation" 27 : 709-717, 2003

      10 Tang S, "Response to elevated CO2 of Indian mustard and sunflower growing on copper contaminated soil" 71 : 988-997, 2003

      11 Chen RF, "Response of rice (Oryza sativa) with root surface iron plaque under aluminium stress" 98 : 389-395, 2006

      12 Pöykiö R, "Pine needles (Pinus Sylvestris) as a bio-indicator of sulphur and heavy metal deposition in the area around a pulp and paper mill complex at Kemi, northern Finland" 79 : 143-154, 2001

      13 van Gestel CAM, "Physico-chemical and biological parameters determine metal bioavailability in soils" 406 : 385-395, 2008

      14 Schilling G, "Phosphorus availability, root exudates, and microbial activity in the rhizosphere" 161 : 465-478, 1998

      15 Gelderman RH, "Nitrate-nitrogen. In: Recommended Chemical Soil Test Procedures for the North Central Region" University of Missouri-Columbia 17-20, 1998

      16 Lock K, "Modeling zinc toxicity for terrestrial invertebrates" 20 : 1901-1908, 2001

      17 He ZL, "Microbiological and biochemical indexing systems for assessing quality of acid soils" 78 : 89-138, 2003

      18 Scigelova M, "Microbial β-N-acetylhexo-saminidases and their biotechnological applications" 25 : 3-14, 1999

      19 Saxena A, "Microbial mineralization of humic acid-3,4-dichloroaniline complexes" 15 : 59-62, 1983

      20 Nannipieri P, "Microbial diversity and soil functions" 54 : 655-670, 2003

      21 Freeman C, "Microbial activity and enzymic decomposition processes following peatland water table drawdown" 180 : 121-127, 1996

      22 Frey B, "Microbial activity and community structure of a soil after heavy metal contamination in a model forest ecosystem" 38 : 1745-1756, 2006

      23 Mench MJ, "Metal uptake by iron-efficient and inefficient oats" 165 : 227-233, 1994

      24 Wang EX, "Mechanisms controlling the mobility of lead in the spodosols of a northern hardwood forest ecosystem" 30 : 2211-2219, 1996

      25 Shen G, "Interaction of polycyclic aromatic hydrocarbons and heavy metals on soil enzyme" 61 : 1175-1182, 2005

      26 Lee CH, "Hydrochemical monitoring and heavy metal contaminations at the Narim Mine Creek in the Sulcheon District, Republic of Korea" 23 : 343-368, 2001

      27 Shotyk W, "History of atmospheric lead deposition since 12,370 14C yr BP from a Peat Bog, Jura Mountains, Switzerland" 281 : 1635-1640, 1998

      28 McGrath SP, "Heavy metal uptake and chemical changes in the rhizosphere of Thlaspi caerulescens and Thlaspi ochroleucum growon in contaminated soils" 188 : 153-159, 1997

      29 Zhang MK, "Extractability and mobility of copper and zinc accumulated in sandy soils" 16 : 43-49, 2006

      30 McBride MB, "Environmental Chemistry of Soils" Oxford University Press 31-62, 1994

      31 Kim S, "Enhanced heavy metal phytoextraction by Echinochloa crus-galli using root exudates" SOC BIOSCIENCE BIOENGINEERING JAPAN 109 : 47-50, 2010

      32 Bringmark L, "Effects on mor layer respiration by small experimental additions of mercury and lead" 213 : 115-119, 1998

      33 Liao M, "Effects of organic acids on the toxicity of cadmium during ryegrass growth" 13 : 109-112, 2002

      34 Bååth E, "Effects of heavy metals in soil on microbial processes and populations" 47 : 335-379, 1989

      35 Laperche V, "Effect of apatite amendments on plant uptake of lead from contaminated soil" 31 : 2745-2753, 1997

      36 Yilmaz S, "Determination of optimal land use of Erzurum plain" 32 : 485-498, 2002

      37 Ettler V, "Contrasting lead speciation in forest and tilled soils heavily polluted by lead metallurgy" 58 : 1449-1459, 2005

      38 Wierzbicka M, "Comparison of lead tolerance in Allium cepa with other plant species" 104 : 41-52, 1999

      39 Gadd GM, "Bioremedial potential of microbial mechanisms of metal mobilization and immobilization" 11 : 271-279, 2000

      40 Vig K, "Bioavailability and toxicity of cadmium to microorganisms and their activities in soil" 8 : 121-135, 2003

      41 Kabata-Pendias A, "Behavioural properties of trace metals in soils" 8 (8): 3-9, 1993

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
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      2006-03-01 학술지명변경 외국어명 : The Korean Journal of Ecology -> Journal of Ecology and Field Biology KCI등재
      2004-01-01 등재 등재학술지 선정 (등재후보2차) KCI등재
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      학술지 인용정보

      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
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      0.15 0.17 0.298 0.1
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