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1.
采用现场采样与室内测试方法,对调水后巢湖沉积物-水界面磷酸盐释放通量进行了研究。结果表明,夏季巢湖表层水、底层水、间隙水磷酸盐浓度变化范围分别为0.02~0.16、0.02~0.17、0.01~0.08mg.L-1,均值分别为(0.03±0.04)、(0.04±0.04)mg.L-1和(0.03±0.02)mg.L-1。秋季6个取样点表层水、底层水磷酸盐含量的变化范围均为0.03~0.06mg.L-1,均值为(0.04±0.04)mg.L-1,显著高于夏季对应样点浓度。而秋季间隙水磷酸盐浓度平均值为(0.015±0.003)mg.L-(1变化范围0.01~0.02mg.L-1),与夏季对应样点相比差异不显著。夏季沉积物-水界面磷酸盐释放通量的变化范围为-27.46~6.27μgP.m-.2d-1,平均值为-1.54μgP.m-.2d-1。秋季磷酸盐释放通量变化范围为-10.61~-3.77μgP.m-.2d-1,均值为-6.19μgP.m-.2d-1,与夏季对应样点释放通量差异显著(α=0.05,P=0.002)。情景模拟表明,排除外源污染的影响,当引入长江水磷酸盐浓度介于0.003~0.009mg.L-1时,巢湖调水后替换水体可在7.2a左右达二次富营养化。  相似文献   

2.
为控制美拉德反应过程中生成的晚期糖基化终末产物(advanced glycation end products,AGEs),该文研究了荔枝皮原花青素(litchi pericarp procyanidins,LPPC)对模拟食品体系中AGEs的抑制作用。采用α-乳糖/L-赖氨酸模拟食品体系,考察了不同反应时间、温度时LPPC对AGEs的抑制效果,并探讨了多种金属离子对抑制作用的干预。结果表明:在80℃加热2.5 h时,1 mg/m L LPPC对模拟食品体系中AGEs的抑制率达到最大,为79.92%±5.21%;而100℃加热30 min时,LPPC的最大抑制率为63.37%±4.12%。当向模拟体系中加入金属离子(Al~(3+)、Ca~(2+)、Cu~(2+)、Fe~(2+)、Mg~(2+)、Zn~(2+))时,低浓度金属离子表现出抑制AGEs生成的作用,高浓度下反而促进其生成。与仅添加LPPC相比,金属离子在低浓度时减弱了LPPC对AGEs的抑制能力,在高浓度时则无显著影响(P0.05)。研究结果为天然AGEs抑制剂LPPC的研发提供了理论参考。  相似文献   

3.
Total mercury (Hg) deposition and input/output relationships were investigated in an 11-ha deciduous forested catchment in northern Vermont as part of ongoing evaluations of Hg cycling and transport in the Lake Champlain basin. Atmospheric Hg deposition (precipitation + modeled vapor phase downward flux) was 425 mg ha-1 during the one-year period March 1994 through February 1995 and 463 mg ha-1 from March 1995 through February 1996. In the same periods, stream export of total Hg was 32 mg ha-1, respectively. Thus, there was a net retention of Hg by the catchment of 92% the first year and 95% the second year. In the first year, 16.9 mg ha-1 or about half of the annual stream export, occurred on the single day of peak spring snowmelt in April. In contrast, the maximum daily export in the second year, when peak stream flow was somewhat lower, was 3.5 mg ha-1 during a January thaw. The fate of the Hg retained by this forested catchment is not known. Dissolved (< 0.22 µm) Hg concentrations in stream water ranged from 0.5-2.6 ng L-1, even when total (unfiltered) concentrations were greater than 10 ng L-1 during high flow events. Total Hg concentrations in stream water were correlated with the total organic fraction of suspended sediment, suggesting the importance of organic material in Hg transport within the catchment. High flow events and transport with organic material may be especially important mechanisms for the movement of Hg through forested ecosystems.  相似文献   

4.
Hesthagen  T.  Heggenes  J.  Larsen  B. M.  Berger  H. M.  Forseth  T. 《Water, air, and soil pollution》1999,112(1-2):85-106
We examined the relationship between young brown trout ( Salmo trutta) density in lake tributaries, and water chemistry and habitat variables. The study was carried out during the autumn in three acidic, softwater river systems in western and southwestern Norway; Gaular and Vikedal (1987–1993) and Bjerkreim (1988–1993). The streams had mean calcium concentrations of 0.35 mg L-1 (Gaular), 0.52 mg L-1 (Vikedal) and 0.84 mg L-1 (Bjerkreim). The concentration of inorganic Al was generally low, with mean values of 8.40 (Gaular), 22.22 (Vikedal) and 43.36 μg L-1 (Bjerkreim). In multiple regressions that involved different water chemistry variables, brown trout density correlated best with calcium concentration and with a combination of calcium and pH; the Ca2+:H+ ratio. In Vikedal and Gaular, calcium explained 51 and 57%, respectively, of the variability in brown trout densities. Althoug alkalinity exhibited the best correlation with brown trout density in Bjerkreim ( r2=0.33), it was similar to that of the model that included all major ions plus pH. The Ca2+:H+ ratio had a larger effect for variability in brown trout density in Gaular (r2=0.66) than calcium alone. In Vikedal and Bjerkreim, the Ca2+:H+ ratio also correlated with brown trout density, but considerably less than in Gaular. The predictive power of habitat variables was much lower than that of water chemistry; the single most important factors were altitude in Gaular (r2=0.22), mean water temperature in Vikedal (r2=0.11) and depth SD (index of heterogeneity) in Bjerkreim (r2=0.07). Models that included both habitat and water chemistry variables showed that the density of young brown trout was predicted primarily by calcium concentrations in Gaular (r2=0.75) and Vikedal (r2=0.54), as opposed to pH in Bjerkreim (r2=0.25). Habitat had low effect in all three river systems (r2=0.01–0.04). The final model explained 86, 68 and 32%, respectively, of the variability in brown trout density in the three catchments. Thus, water chemistry variables seem to be factors that limit the density of young brown trout in acidic softwater streams.  相似文献   

5.
太湖地区稻麦轮作下氮素径流和淋洗损失   总被引:26,自引:0,他引:26  
Although nitrogen (N) loss through runoff and leaching from croplands is suspected to contribute to the deterioration of surrounding water systems, there is no conclusive evidence for paddy soils to prove this hypothesis. In this study, field plot experiments were conducted to investigate N losses through runoff and leaching for two consecutive years with 3 N fertilization rates in rice (Oryza sativa L.)-wheat (Triticum aestivum L.) rotations in the Taihu Lake region, China. A water collection system was designed to collect runoff and leachates for both the rice and wheat seasons. Results showed that dissolved N (DN), rather than particulate N (PN), was the main form of N loss by runoff. The NO3^--N concentration in runoff was between 0.1 and 43.7 mg L^-1, whereas the NH4^+-N concentration ranged from below detection limit to 8.5 mg L^-1. Total N (TN) loads by runoff were 1.0-17.9 and 5.2-38.6 kg ha^-1 during rice and wheat seasons, respectively, and the main loss occurred at the early growing stage of the crops. Nitrogen concentrations in leachates during the rice seasons were below 1.0 mg L^-1 and independent of the N application rate, whereas those during the wheat season increased to 8.2 mg L^-1 and were affected by the fertilizer rate. Annual losses of TN through runoff and leaching were 13.7-48.1 kg ha^-1 from the rice-wheat cropping system, accounting for 5.6%-8.3% of the total applied N. It was concluded that reduction in the N fertilization rate, especially when the crop was small in biomass, could lower the N pollution potential for water systems.  相似文献   

6.
The geochemical processes influencing iron and aluminium mobilization and immobilization processes in mine soils are discussed. The study was carried out on 11 soils from the As Pontes mine dump, in the process of reclamation. The soils differ in age, spoils nature, reclamation tasks and type of vegetation, covering a wide range of physico-chemical conditions. Oxalate and pyrophosphate extractable Al and Fe (Alo, Alp, Feo, Fep), and dithionite extractable Fe (Fed) were analysed. These fractions were related to the solution Al and Fe forms and contents and to other soil properties (Eh, pH, sulfides, organic matter, cation exchange capacity, and composition of the soil solution). Alo ranged between 2.2 and 111.2 cmolc kg-1; 5 to 80% of this Alo was organic aluminium (Alp). Fed ranged between 8.5 and 215.6 cmolc kg-1; 20 to 70% was poorly-criystalline iron (Feo). The solution concentrations of Al and Fe ranged between <0.1 and 319.2, and between <0.1 and 46.7 mg L-1, respectively. The results showed that the spoil nature (mostly carbonaceous clays and slates differing in sulfide content) and the reclamation tasks undertaken (topsoiling, liming with fly ash) determine the forms and contents of Al and Fe in the solid phase as well as in the soil solution and also its distribution between the solid and liquid phases.  相似文献   

7.
Soil samples were collected from apple orchards 5,15,20,30,and 45 years old,and one adjacent forest soil was used as reference to investigate the free Cu2+ion activity in soil solution and the soil Cu fractionation in the solid phase following long-term application of copper fungicide,Bordeaux mixture,in apple orchards and to investigate the relationships among soil free Cu2+ions,Cu fractionation and soil microbial parameters.The total Cu concentration in the orchard soils varied from 21.8 to 141 mg kg-1,increasing with the orchard age,and the value for the reference soil was 12.5 mg kg-1.The free Cu2+ion concentrations in the soil solutions extracted by 0.01 mol L-1 KNO3 ranged from 3.13×10-8(reference)to 4.08×10-6 mol L-1(45 years-old orchard).The concentration of Cu complexed in the fulvic fraction increased with orchard age from 5.16 to 52.5 mg kg-1.This was also the case for other soil Cu fractions except the residual one.The residual soil Cu remained practically constant,ranging from 4.28 to 5.66 mg kg-1,suggesting that anthropogenic soil Cu mainly existed in the more labile active fractions.Regression analyses revealed that both the free Cu2+ions in the soil solution and the humic acid-complexed Cu fraction in the solid phase were strongly related with soil microbial parameters.  相似文献   

8.
研究了2,3-吡啶二羧酸和咪唑-4,5-二羧酸两种离子液体阳离子部分对Cd2+在四种不同性质土壤上吸附的影响。结果表明,离子液体的存在显著影响了Cd2+在土壤中的吸附,与对照相比,添加1 mmol·L-12,3-吡啶二羧酸使得Cd2+在武进漂洗型水稻土、吴县潴育型水稻土、南京黄褐土和宜兴棕红壤四种土壤上的最大吸附量分别降低209、834、667、509 mg·kg-1,而添加1 mmol·L-1咪唑-4,5-二羧酸使Cd2+最大吸附量分别降低226、54、124、81 mg·kg-1,2,3-吡啶二羧酸对Cd2+在供试土壤上吸附量的影响显著大于咪唑-4,5-二羧酸。基于离子选择电极分析了平衡液中自由态Cd2+含量,发现两种离子液体都能与Cd2+络合,从而降低平衡液中Cd2+含量,其中2,3-吡啶二羧酸与Cd2+的络合能力大于咪唑-4,5-二羧酸。两种离子液体进入环境,会使Cd2+在土壤上的吸附量减少,从而增加Cd2+的移动性和环境风险。  相似文献   

9.
Rosas  I.  Belmont  R.  Armienta  A.  Baez  A. 《Water, air, and soil pollution》1999,112(1-2):133-149
Arsenic levels were determined in seventy three samples of well water, and in fifty samples of soil, forage and cow's milk collected at the most important dairy farms of the Comarca Lagunera located in Coahuila and Durango, Mexico, region naturally rich in As. The total inorganic arsenic concentration in well water ranged from 7 to 740 μg L-1 and about ninety percent of the total arsenic was found as As(V). The agricultural soil texture of the sampled area was sandy clay loam type with total arsenic levels up to 30 μg g-1, however, the extractable arsenic was not higher than 12% of the total and it was higher in the 0–30 cm depth horizon. In alfalfa, the most important crop, the total aresenic ranged from 0.24 to 3.16 μg g-1, with 40% of it accumulated at the root level. Significant correlations (p=0.05) were obtained between arsenic (III), (V) and total inorganic arsenic in groundwater with arsenic in soil (0–30 cm depth), and with arsenic in alfalfa (leaves and roots). It was also found a good correlation between extractable arsenic in soil with As concentrations in alfalfa (roots). Arsenic concentrations found in milk ranged from <0.9 to 27.4 ng g-1. The cow's milk biotransfer factor for arsenic was up to 6 × 10-4, applying a pharmacokinetic approach. It was associated with the exposure not only to food but also to water arsenic.  相似文献   

10.
Aerosol and total vapor-phase Hg concentrations in air have been measured at Walker Branch Watershed, Tennessee for ≈ 2 yr. Airborne Hg at this site is dominated by vapor forms which exhibit a strong seasonal cycle, with summer maxima that correspond to elevated air temperature. Concentrations in this forest are near background levels; however, concentrations at a site within 3 km are significantly elevated due to emissions from Hg-contaminated soils. The concentration data have been combined with a recently modified dry deposition model to estimate dry deposition fluxes to the deciduous forest at Walker Branch. Weekly mean modeled Vd values for Hg° ranged from <0.01 (winter) to > 0.1 (summer) cm s1. Weekly dry deposition fluxes ranged from <0.1 μg m−2 during winter to > 1.0 μgg m−2 in the summer. Our dry deposition estimates plus limited measurements of wet deposition in this area indicate that dry deposition may be the dominant input process in this forest, at least during the summer.  相似文献   

11.
Sánchez  J.  Marino  N.  Vaquero  M. C.  Ansorena  J.  Legórburu  I. 《Water, air, and soil pollution》1998,107(1-4):303-319
Soil, aquatic biota (moss: Brachythecium rivulare; aquatic macrophytes: Juncus effusus, Potamogeton crispus; fish: Salmo trutta fario, Anguilla anguilla, Phoxinus phoxinus, Chelon labrosus) and sediment samples from the Urumea river valley were analysed for metals by acid digestion and atomic absorption spectroscopy. The sediments show the presence of metal pollution (Cd: 2.5–24 mg kg-1; Pb: 125–1,150 mg kg-1; Zn: 125–2,500 mg kg-1) because mining and industrial wastes. A selective retention of dense minerals in dam sediments contributes to the load of metal, but interstitial water analysis (Cd: <0.02–0.1 mg L-1; Pb: 0.3–1.0 mg L-1; Zn: <0.05–0.6 mg L-1) shows that precipitation equilibrium controls their mobilisation. Biota samples show evidence of metal accumulation, moss reaching 1,100 mg kg-1 in lead and 6,800 mg kg-1 in zinc. Soil from the valley is polluted by both, river carried material and industrial sources (Cd: 1.0–4.0 mg kg-1; Pb: 26–1,120 mg kg-1; Zn: 105–1,390 mg kg-1/math>), but they are used, indistinctly, for farming and pasture.  相似文献   

12.
To understand the ecotoxicity of antibiotics and heavy metals in soil, 5% (w/w) composts containing different concentrations of sulfamethazine (SMZ) and/or zinc (Zn) were applied to soil to investigate their effects on pakchoi (Brassica chinensis L.) growth, soil sulfonamide resistance genes (SRGs: sul1, sul2, and dfrA7), and soil microbial communities. Composts containing less than 1.0 mg SMZ kg–1 or less than 2.8 g Zn kg–1 promoted pakchoi growth and the metabolic activity of soil microbial communities. Compared with the control, the absolute abundances (AAs) of soil SRGs significantly increased by 0.85–4.54 times with 50.6 μg kg–1 SMZ treatment (P < 0.05), the AA of sul2 increased by 166% with 248.8 mg Zn kg–1 treatment. The combination treatments with 19.8 μg SMZ kg–1 and 179.9 mg Zn kg–1 in soil had synergistic stimulatory effects on pakchoi growth, soil SRGs and microbial metabolism, whereas 53.5 μg SMZ kg–1 and 262.1 mg Zn kg–1 had an opposite effect. Pearson’s correlation analysis showed that carbon metabolism by soil microorganisms had significant positive correlations with shoot height of pakchoi (r = 0.84, P < 0.05) and AAs of SRGs (r > 0.80, P < 0.05).  相似文献   

13.
不同浓度镁营养液对烟草矿质营养吸收与积累的影响   总被引:1,自引:0,他引:1  
采用温室水培的方法,研究了不同的镁素供应水平对烟草主要几种矿质养分的吸收与积累的影响。结果表明,在其它养分形态与浓度一致条件下,随着镁浓度从20mgL-1提高到120mgL-1,烟草生长量呈抛物线型变化,在供镁浓度为40mgL-1时烟株生长及干物质积累量最大。随着营养液中镁浓度由低到高,营养液中镁水平的改变对烟草全株氮含量的影响不明显;烟草全株体内磷、镁含量逐步增加,表现为协同效应;烟草全株中钾含量和锌含量随营养液中镁水平增加而降低,表现为拮抗效应;烟草全株体内钙含量和铜含量的变化趋势分为两个阶段,镁处于低水平时,镁与钙、铜之间表现为拮抗关系,镁处于高水平时,镁与钙、铜之间表现为协同关系。营养液中镁浓度低于40mgL-1时,烟草全株体内氮、磷、钾、钙、锰、镁、锌、铜积累量随着营养液中镁水平的提高逐渐增加,与营养液中镁水平呈正相关关系,营养液中镁浓度高于40mgL-1,烟草全株体内氮、磷、钾、钙、锰、镁、锌、铜积累量迅速下降,表面为负相关关系。烟叶中各元素含量与积累量的变化趋势与整株基本一致。  相似文献   

14.
Spartina alterniflora Loisel, a species vegetating in intertidal flats along the eastern coast of the United States, was introduced in China almost 30 years ago and has become an urgent topic due to its invasiveness in the coastal zone of China. The impacts of this alien species S. alterniflora on intertidal ecosystem processes in the Jiangsu coastland were investigated by comparing the sediment nutrient availability and trace element concentration characteristics in a mud flat and those of a four-year old Spartina salt marsh that had earlier been a mudflat. At each study site, fifteen plots were sampled in different seasons to determine the sediment characteristics along the tidal flats. The results suggested that Spartina salt marsh sediments had significantly higher total N, available P, and water content, but lower pH and bulk density than mudflat sediments. Sediment salinity, water content, total N, organic C, and available P decreased along a seaward gradient in the Spartina salt marsh and increased with vegetation biomass. Furthermore, the concentrations of trace elements and some metal elements in the sediment were higher under Spartina although these increases were not significant. Also, in the Spartina marsh, some heavy metals were concentrated in the surface layer of the sediment. The Spartina salt marsh in this study was only four years old; therefore, it is suggested that further study of this allen species on a longer time frame in the Jiangsu coastland should be carried out.  相似文献   

15.
The objective of this study was to investigate the changes in the chemical partitioning of Cu, Pb, Cr and Zn within a column of soil incubated with an anaerobic sewage sludge (ANSS) for 2.5 months. The soil was irrigated during the incubation period. A sequential extraction method was used to fractionate these metals into exchangeable, weakly adsorbed, organic, Al oxide, Fe–Mn oxide, and residual, respectively. ANSS was applied at a loading rate of 69 Mg ha?1. The soil is a Dystric Cambisol with low pH (<3.8), low CEC [<10 cmol(+) kg?1 below the first 4 cm depth], and low base saturation (<7%). The addition of the ANSS caused a decrease in concentrations of Cu, Pb, and Cr in the A1 horizon, and an increase in the concentrations with depth. Below the A1 horizon, concentrations of Cu increased uniformly (~1 mg cm?1), and the greatest increases were observed in the residual, Fe–Mn oxides, and weakly adsorbed fractions. Maximum increases in Pb occurred at 4–9 cm of depth (1.6 mg cm?1), and mainly affected the weakly adsorbed fraction. Chromium essentially accumulated at the limit between the A2 and the Bw horizons (1.1–1.5 mg cm?1) as residual and organic bound forms, probably through particulate transport. Zinc mainly accumulated in the A1 horizon (2.9 mg cm?1) as exchangeable Zn. At depth, Zn increments were predominantly observed in the residual fraction. The results of this study thus demonstrate the redistribution of contaminants into different chemical pools and soil layers after sludge amendment.  相似文献   

16.
The effects of tillage on soil organic carbon (SOC) and nutrient content of soil aggregates can vary spatially and temporally, and for different soil types and cropping systems. We assessed SOC and nutrient levels within water‐stable aggregates in ridges with no tillage (RNT) and also under conventional tillage (CT) for a subtropical rice soil in order to determine relationships between tillage, cation concentrations and soil organic matter. Surface soil (0–15 cm) was fractionated into aggregate sizes (>4.76 mm, 4.76–2.00 mm, 2.00–1.00 mm, 1.00–0.25 mm, 0.25–0.053 mm, <0.053 mm) under two tillage regimes. Tillage significantly reduced the proportion of macroaggregate fractions (>2.00 mm) and thus aggregate stability was reduced by 35% compared with RNT, indicating that tillage practices led to soil structural change for this subtropical soil. The patterns in SOC, total N, exchangeable Ca2+, Mg2+ and total exchangeable bases (TEB) were similar between tillage regimes, but concentrations were significantly higher under RNT than CT. This suggests that RNT in subtropical rice soils may be a better way to enhance soil productivity and improve soil C sequestration potential than CT. The highest SOC was in the 1.00–0.25 mm fraction (35.7 and 30.4 mg/kg for RNT and CT, respectively), while the lowest SOC was in microaggregate (<0.025 mm) and silt + clay (<0.053 mm) fractions (19.5 and 15.7 mg/kg for RNT and CT, respectively). Tillage did not influence the patterns in SOC across aggregates but did change the aggregate‐size distribution, indicating that tillage affected soil fertility primarily by changing soil structure.  相似文献   

17.
水体氮的时空变化及其与藻类生长的关系对研究水体富营养化具有十分重要的作用。采用GPS定位,对滇池海埂、斗南、罗家村、新街、昆阳5个代表性位点断面水体总氮、铵态氮、硝态氮及叶绿素a含量进行了为期1a的监测和动态研究,全面分析了不同区域、不同层次、不同时期滇池水体各形态氮的时空变化特征及其对藻类生长的影响。结果表明,全湖各采样点水体总氮、铵态氮、硝态氮的平均浓度分别是2.14、0.11、0.20mg·L-1,全年分别在0.66~6.44mg·L-1、0~0.74mg·L-1、0~0.94mg·L-1之间变化。各区域水体总氮的浓度以海埂和斗南最高,铵态氮和硝态氮的变化幅度较大。全湖水体总氮和铵态氮与叶绿素a呈显著正相关,硝态氮与叶绿素a呈负相关趋势;滇池不同区域水体总氮与叶绿素a呈显著正相关,海埂和罗家村位点水体铵态氮与叶绿素a呈显著正相关,海埂位点水体硝态氮与叶绿素a呈显著负相关,其他区域则无显著相关性;水体总氮、铵态氮、硝态氮对藻类生长的影响呈现显著的区域性和水层差异。  相似文献   

18.
贵州石漠化地区地下漏失水土理化性质特征   总被引:4,自引:1,他引:3  
以贵州石漠化地区的3个洞穴为研究对象,通过对其地表土与地下漏失水土进行监测与采样分析,研究了不同地质环境条件中地表土壤与洞穴漏失水土的理化性质特征。结果表明,地表石漠化程度越高,岩溶裂隙管道的联通性越强,地下漏失水的滴率变幅越大,漏失土中的粘粒含量越低;在相同岩性条件下,石漠化程度越高,地表土壤pH值与元素含量越高;石将军洞漏失水Ca~(2+)、Mg~(2+)、Sr~(2+)浓度平均值分别为31.48,17.65,0.026mg/L,韩家冲洞分别为58.39,2.49,0.074mg/L,荣发洞分别为38.29,25.33,0.037mg/L;受岩性差异影响,韩家冲洞漏失水中的Mg~(2+)浓度相对较低,Ca~(2+)、Sr~(2+)浓度相对较高;受气候条件差异影响,荣发洞洞漏失水中的Ca~(2+)、Mg~(2+)、Sr~(2+)浓度均高于石将军洞;洞穴漏失水对漏失土长期的化学侵蚀作用导致漏失土pH值与元素含量高于地表土。  相似文献   

19.
Characterization of the forest vegetation and soils in two adjacent; contrasting headwater lake basins located in Kejimkujik National Park, Nova Scotia was completed in 1980. Precipitation chemistry was studied during May to November, 1981–83 at two forested plots in each basin. There were 2012 stems ha-1 in Beaverskin basin and 1816 stems ha-1 in Pebbleloggitch basin. Beaverskin species composition was predominantly coniferous (72% of stems) while Pebbleloggitch was predominantly deciduous (52% of stems). Thickness and mass of organic soil layers were greater in Beaverskin. Mineral soil cation concentrations were similar. There were no differences between the basins in mean incident bulk precipitation pH. Mean volume-weighted pH for the period (73 collections) was 4.80. Sixteen percent of collections had a pH < 4.25. Sulphate deposition in incident bulk precipitation (May – November) ranged from 5.4–8.5 kg ha-1 during 1981–83 while NO inf3 sup- ranged from 0.04–0.93 kg ha-1. The partitioning of incident precipitation into throughfall varied considerably (69%–38%) year-to-year. Temporal flux of ions did not differ significantly. Amounts of all major ions in throughfall especially SO inf4 sup2- and base cations(Ca2+ + Mg2+ + K+ + Na+) were enriched.  相似文献   

20.
为探讨芹菜在重金属镉、铅胁迫下的生理变化规律和抗氧化酶基因的表达特性,采用营养液培试验,研究镉(Cd)、铅(Pb)单一及复合胁迫对芹菜体内Cd/Pb富集、叶绿素、丙二醛(MDA)、谷胱甘肽(GSH)含量及抗氧化酶(SOD、POD)活性的影响,并用RT-q PCR技术检测了根尖细胞内抗氧化酶基因(Cat、Gpx、Mn-sod及Apx)的表达特性。结果表明,Cd~(2+)、Pb~(2+)单一及复合胁迫下芹菜茎叶中Cd~(2+)、Pb~(2+)含量均随胁迫浓度增大而逐渐增大,说明芹菜对Cd~(2+)、Pb~(2+)的吸收互为协同作用;6~8 mg·L-1Cd~(2+)和60~80 mg·L-1Pb~(2+)单一及复合处理对芹菜整个生长期内叶绿素、MDA、GSH含量及SOD、POD活性的影响均达到极显著水平(P0.01);低浓度下单一及复合胁迫对叶绿素合成有促进效应,高浓度、长时间胁迫时,叶绿素含量显著降低;单一及复合胁迫对MDA、GSH含量及SOD、POD活性的影响均为Cd~(2+)-Pb~(2+)交互Cd~(2+)Pb~(2+),但单一Cd~(2+)浓度≥4 mg·L-1时,叶绿素含量大于Cd~(2+)-Pb~(2+)交互及单一Pb胁迫;Cd~(2+)、Pb~(2+)对芹菜叶POD和SOD活性的影响相似,均表现为"低促高抑";MDA、GSH含量随重金属浓度的升高而逐渐增加;单一及复合处理下Cat、Gpx、Mn-sod及Apx表达模式基本一致,其表达量的降低幅度为Cd~(2+)-Pb~(2+)交互Cd~(2+)Pb~(2+)。综上,Cd~(2+)、Pb~(2+)胁迫对芹菜的生理和抗氧化系统均造成了一定的损伤,二者具有协同性,这为江西省鄱阳湖区芹菜的安全生产提供了理论依据。  相似文献   

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