模拟降雨条件下施磷量对褐土无机磷含量及形态转化的影响

采用室内土柱模拟试验,研究在山东平均降雨条件下不同施磷量对褐土各组分无机磷含量及形态转化的影响.结果表明,经过模拟降雨后,在0～10 cm土层中,各施磷处理的无机磷总量随着施磷量的增加而升高;随着土层的加深(10～50 cm),各土层无机磷总量是施磷量为P2(180 kg/hm2)时最高.而在10-30 cm土层,是施磷量为P3(1440 ks/hm2)的土壤无机磷总量高于P1,而在30～50 cm则是P1高于P3.同时,不同施磷量对磷组分含量及其占无机磷总量的比例都发生了改变,当施磷量分别为P1、P2和P3时,各无机磷组分的含量及所占比例按高低排序分别为:Ca10-P>Al-P,O-P>Ca8-P>Fe-P>Ca2-P;O-P>Ca8-P,Ca10-P>Fe-P,AI-P>Ca2-P和Ca10-P,O-P>Fe-P,Ca8-P>Al-P>Ca2-P.随着土层深度的加深,O-P、Fe-P和Ca10-P的含量保持相对稳定,而有效态无机磷源(Ca2-P、Ca8-P和AI-P)有降低的趋势;在小雨强度下,不同施磷量处理的土壤磷淋失量差异不显著,而随着降雨强度的加大,P3处理的土壤磷淋失量明显高于PI和P2处理的磷淋失量.以上结果说明,施磷量显著影响无机磷总量、各组分无机磷含量及其转化;在大于中等降雨条件下,高磷处理磷淋失量明显高于低磷处理磷淋失量.     

硫酸盐对锌和镉在可变电荷土壤上吸附的影响

SO4^2- and Zn^2 or Cd^2 were added to three variable charge soils in different sequences.In one sequence sulfate was added first ,and in the other,Zn^2 or Cd^2 first.The addition of sulfate to the system invariably caused an increase in adsorption of the heavy metal added,with the effect more remarkable whn the soil reacted with the sulfate prior to the metal.the shift in pH50 for both Zn and Cd adsorption was aslo comparatively larger in the first sequence of reactions .It was suggested that the increase in negative charge density and the resultant negative potential of the soil were the primary cause of the pronounced effect of sulfate on adsorption of Zn or Cd,and the formaiton of the ternary surface complex-S-SO4-M might also play a role in the effect.     

Phytoextraction of Cd and Zn with Salix viminalis in field trials

Abstract. Use of high biomass crops such as the willow Salix viminalis to extract metals for soil remediation has been proposed as an alternative to the low biomass-producing hyperaccumulating plants. High yields compensate for the moderate heavy-metal concentrations in the shoots of such species. We report the first long-term trials using Salix viminalis to extract heavy metals from two contaminated soils, one calcareous (5 years) and one acidic (2 years). Total metals extracted by the plants were 170 g Cd ha⁻¹ and 13.4 kg Zn ha⁻¹ from the calcareous soil after 5 years, and 47 g Cd ha⁻¹ and 14.5 kg Zn ha⁻¹ from the acidic soil after 2 years; in the first year outputs were negligible. After 2 years, Salix had performed better on the acidic soil because of larger biomass production and higher metal concentrations in shoots. Addition of elemental sulphur to the soil did not yield any additional benefit in the long term, but application of an Fe chelate improved the biomass production. Cd and Zn concentrations were significantly higher in leaves than stems, highlighting the necessity to collect leaves as well as shoots. On both soils, concentration in shoots decreased with time, indicating a decrease in extraction efficiency.     

Availability of Cadmium in some Phosphorus Fertilizers to Field-Grown Lettuce

Although evaluations of the availability of cadmium (Cd) contaminants in phosphate fertilizers have been made, few have examined the transfer efficiency of Cd from fertilizers to plants, especially under field conditions. This 2-year field study determined the transfer of added Cd to lettuce (Lactuca sativa L.) (Royal Green) from a western phosphate rock (PR) and a triple superphosphate (TSP) as affected by liming and rate of fertilizer (or Cd) input. A readily soluble Cd salt, CdCl₂, was included in the study for comparison. The cumulative amounts of Cd added from the fertilizers and CdCl₂ over the 2-year period ranged from 0 to 1440 g ha^–1. Lettuce yield increased with increasing TSP rates, but was unaffected by PR. Significant (P < 0.01) effects of Cd source and rate, lime, and year were found on Cd accumulation by lettuce. The transfer of the added Cd was consistently higher for CdCl₂ than for the fertilizers regardless of lime rate. A contrasting year effect was also found between the two P fertilizers. In the second year of application, the Cd transfer efficiency increased in the soil treated with the PR, but decreased in the soil treated with the TSP. The Cd transfer efficiency for the plant was better measured with DTPA–Cd (r ²= 0.78 – 0.80) or CaCl₂–Cd (r ²= 0.57 – 0.76) than with soil total Cd (r ²= 0.39 to 0.54) across all Cd sources and lime rates. This is because DTPA–Cd or CaCl₂–Cd reflected the influences of the amount of Cd added, Cd source, and lime rate on Cd accumulation by the plant better than did the soil total Cd. Of the amount of Cd added from the fertilizers an average of 1.0% or less was accumulated in the harvested lettuce tissue. Applications of the fertilizers at high rates could result in increased Cd accumulation in the soil over time.     

Tillage effects on soil organic matter in density fractions of a Cerrado Oxisol

Reclamation of Brazilian cerrados (savannas) has been intensified in the last decades, with implications for soil quality and soil organic matter (SOM) dynamics. Studying the impact of different tillage systems is essential to define better strategies for land use in Cerrado, which may favor C sequestration and improve soil quality. We used density fractionation and ¹³C natural abundance to assess changes in SOM in an Oxisol previously under a cerrado sensu-stricto following 30 years of cultivation. The objectives of the study were to: (i) evaluate the long-term impact of tillage systems on SOM stocks in a Dark Red Latosol (Oxisol) from the Cerrado Biome, and (ii) better understand the dynamics of SOM in different density fractions of this soil. Cultivation led to compaction, which significantly increased soil bulk density. This resulted in the systematic overestimation of C and N stocks in cultivated areas when compared to the natural cerrado. Conversion of the cerrado into cropland using plow tillage (PT) or no-tillage (NT) system did not alter the total C (100 Mg ha⁻¹) and N (7 Mg ha⁻¹) stocks in the first 45 cm depth at the end of 30 years of cultivation. However, about 22% of the total C was replaced by C from maize. The relative replacement of C decreased following the order: free light fraction (F-LF)>heavy fraction (HF)>occluded light fraction (O-LF). The low substitution in the O-LF was attributed to a possible presence of charcoal. Converting cerrado into cropland significantly decreased F-LF quantity. The proportions of C replacement in this fraction were higher in PT than NT, suggesting a faster turnover in PT. Nevertheless, because most C (95%) was held in the HF, C dynamics in the whole soil were controlled by the behavior of this fraction. The maintenance of C levels even at the end of 30 years of cultivation and the lack of differentiation between NT and PT were attributed to the high clay contents and Fe+Al oxi-hydroxides concentrations of the studied soil as well as to a sufficient C supply by the maize crop.     

有机肥非水溶性分解产物对 铜 、镉吸附及解吸的影响

研究了稻草、紫云英和猪粪淹水培养的非水溶性分解产物、两种土壤( 红壤、潮土) 与这 3 种有机肥共同淹水培养后的非水溶性产物( 水溶性物质被除去) 对铜、镉的沉淀、吸附及解吸作 用的影响。 结果表明, 当铜初始浓度为 10-4mol/ L, pH <6 时有机残渣促进铜的沉淀;当 pH >6 时则抑制了铜的沉淀。 当铜初始浓度降为 10-5mol/ L 时, 有机残渣对铜沉淀的促进作用加强。 3 种有机残渣均促进镉的沉淀, 但促进程度比铜低。 与有机肥共同培养的红壤, 在相同的 pH 条 件下, 提高对铜、镉的吸附;在不调节 pH 条件下, 由于有机肥料有提高 pH 的作用, 进一步提高 对铜 、镉的吸附。 与有机肥共同培养的潮土, 在相同的 pH 条件下, 对铜、镉吸附的影响很小;在 不调节 pH 时, 提高了潮土对铜的吸附, 但对镉吸附的影响则较复杂。 上述结果表明, 有机肥的 非水溶性分解产物主要通过提高体系的 pH 值、与铜、镉形成不溶性的络合物而影响铜、镉的吸 附。 与有机物料共同培养的红壤所吸附的铜、镉的解吸率均不同程度降低。     

Screening for low grain cadmium phenotypes in sunflower, durum wheat and flax

Cadmium (Cd) level in nonoilseed sunflower (Helianthus annuus L.), flax (Linum usitatissimum L.), and durum wheat (Triticum turgidum L. var. durum) grown on uncontaminated, alkaline soils has exceeded limits established in Northern Europe. Separate field experiments were conducted to investigate variability of grain Cd levels among sunflower, durum wheat and flax germplasm, and to seek an efficient screening method for future breeding. There were large variations in leaf Cd concentration among 200 sunflower lines. These lines performed more consistently for Cd uptake at the R5 stage than at the V8 stage across 4 locations with markedly differing soils. Cd concentration in V8 leaves was not related to Cd in grain. The positive correlation between R5 leaf Cd and kernel Cd level was obtained from nonoilseed hybrid (Sigco 954) (R²; = 0.74**), and 200 lines (R² = 0.44**) tested over 4 locations in 2 field trials, respectively. This indicates that an efficient and low cost screening method can be developed for genotype selection, but plants must be grown to the R5 stage. A preliminary evaluation of 30 durum wheat and 74 flax lines indicated large variations in grain Cd level of durum wheat and flax. Grain Cd concentration ranged from 0.11 to 0.34 mg Cd kg^-1 DW for durum wheat, and 0.14 to 1.37 mg Cd kg^-1 DW for flax, respectively. This variability indicates that breeding for low grain Cd in durum wheat and flax should be feasible. This revised version was published online in July 2006 with corrections to the Cover Date.     

镉胁迫对水稻的影响及其调控技术研究进展

为了防治稻田镉污染并为选育与栽培低镉积累水稻新品种提供参考,本研究综述了重金属元素镉(Cd)对水稻糙米与精米及营养器官镉含量、水稻种子萌发及幼苗生长、水稻根系生长与生理生化性状、水稻营养代谢、水稻生长发育与产量及米质、水稻细胞遗传等的影响;最后提出了水稻镉胁迫的调控措施和技术,如土壤调控技术、育种技术。     

市售茶叶中重金属含量特征及其分析

为了解市售主要茶叶中重金属的含量情况,采集市售主要茶叶种类,采用高压密闭消解系统、电感耦合等离子质谱法(ICP-MS)和原子荧光光谱法测定茶叶中的铅(Pb)、镉(Cd)、汞(Hg)、砷(As)的含量,并根据《食品中污染物限量》(GB 2762—2012)、《茶叶中铬、镉、汞、砷及氟化物限量》(NY 659—2003)以及《绿色食品-代用茶中华人民共和国农业行业标准》(NY/T 2140—2012)分析了市售茶叶中Pb、Cd、Hg、As的含量特征。结果显示,茶叶中Pb、Cd、Hg、As含量范围分别为0.1~1.67、0.0006~0.085、0.00021~0.022、0.00~0.78 mg/kg,所有茶叶样品Pb、Cd、Hg均符合相关标准。但1.9%茶叶样品中As含量超过国内《绿色食品-代用茶》中As的标准(As≤0.5 mg/kg),超标样品为散装黑茶。茶叶中Pb、Cd、Hg、As含量具有一定的相关性,Pb与As、Hg、Cd元素之间,Cd与As元素之间存在极显著相关。对市场中茶叶进行选择时,建议选择定型包装茶叶,产于广西的定型包装的茉莉花茶较安全;而市场中黑茶和散装茶质量差异较大,在选择相关茶叶商品时应根据其原产地、包装类型及单价分辨其质量的高低。     

晚稻全生育期Cd的迁移转化规律及预测模型研究

为探讨晚稻全生育期Cd的迁移转化规律及预测模型,采用长沙市望城区大田试验土壤-水稻Cd点对点数据,对水稻4个典型生育期（苗期、分蘖期、灌浆期和成熟期）及不同部位（根、茎叶及籽粒）Cd的吸收、累积和分配差异进行研究。结果表明,同一生育期各部位Cd含量和富集能力均为根>茎叶>籽粒,且根部明显高于其他部位,不同生育期差异显著,具体为成熟期>灌浆期>分蘖期>苗期;Cd转运能力为土-根>根-茎叶>茎叶-籽粒>根-籽粒,籽粒Cd大部分来自于茎叶的转移,且分蘖期转运能力显著高于其余生育期;Cd积累量和分配差异为茎叶>根>籽粒,且分蘖期和成熟期远大于苗期和灌浆期;土壤pH和有效态镉(ACd)含量是影响水稻Cd吸收的主控因子,pH为负效应,有效态镉为正效应,分蘖期茎叶Cd含量受其影响最大,是控制Cd进入籽粒的关键时期。可利用分蘖期土壤pH和有效态镉含量预测成熟期籽粒Cd含量,最优预测模型为lgCd_{成熟期籽粒}=0.158-0.099pH_分蘖期+0.261lgACd_分蘖期。研究结果可为中国长株潭地区稻田土壤Cd污染风险评估和管控提供理论依据和数据支撑。