南极菲尔德斯半岛植被土壤N2O排放特征

应用密闭箱法首次测定了南极菲尔德斯半岛苔藓、地衣植被土壤N2O的排放通量,并估算了该半岛植被区土壤在夏季2个月内N₂O的排放总量.结果表明:在晴天和雨天,苔藓土壤N₂O的排放通量与温度有较好的响应关系,呈现单峰型变化趋势;但在雪天,与温度的变化不一致;苔藓、地衣这2种不同的植被土壤N2O排放通量日变化基本一致;温度是影响苔藓土壤N2O的排放通量季节变化的主要因子,同时还受降水的影响,干湿交替有利于N2O的排放;苔藓土壤N₂O的排放总量为3.7152kg;地衣土壤N₂O的排放总量为2.5344kg.由此可见,南极菲尔德斯半岛苔藓、地衣植被土壤N₂O排放量虽然很小,但仍起着大气N₂O源的作用.     

中国在经济发展中的环境价值取向

本文分析了中国在经济发展过程中的环境价值取向的演变。针对中国的资源和环境现状,阐述了中国只能走和如何以经济建设为中心,协调环境的可持续发展的道路。重点分析了通过政府直接控制和市场激励,使环境污染的外部不经济性内在化的控制污染的思路。     

中江县无公害中药材基地农业环境质量监测与评价

无公害产品的产地农业生态环境质量是影响无公害产品质量的重要因子之一。对中江县中药材产业化基地调查资料和实际监测结果表明：中江县中药材产业化基地农业环境未受到污染,适合无公害中药材的生产。     

Fate and behavior of metal(loid) contaminants in an organic matter-rich shooting range soil: Implications for remediation

This study investigates the fate and behavior of lead (Pb), copper (Cu), antimony (Sb), and arsenic (As) in a shooting range soil. The soil samples were collected from the surface (0–15 cm) and the subsurface (15–40 cm and 40–55 cm) of a grassy and wood chip covered impact area behind a firing position. Optical microscopy images indicate significant amounts of corroded bullet fragments and organic wood chips in the surface soil. Analysis by X-ray powder diffraction (XRPD) and scanning electron microscopy electron dispersive X-ray spectroscopy (SEM-EDS) showed that metallic Pb was transformed into lead oxides (litharge PbO and massicot PbO) and lead carbonates (hydrocerussite Pb₃(CO₃)₂(OH)₂, cerussite PbCO₃, and plumbonacrite Pb₅(CO₃)₃O(OH)₂). Rietveld quantification indicated the surface soil contained 14.1% metallic Pb, 17.9% hydrocerussite, 5.2% plumbonacrite, 5.9% litharge, and 3.9% massicot on a dry weight basis, or a total of 39.7% Pb, far in excess of lead concentrations typically found in US shooting range soils. Metallic Cu (bullet jacket material) appeared stable as no secondary minerals were detected in the surface soil. As and Sb concentrations were on the order of 1,057 mg/kg and 845 mg/kg respectively. The elevated soil pH coupled with high organic carbon content is thought to have caused downward migration of metals, especially for Pb, since 4,153 mg Pb/kg was observed at a depth of 55 cm. More than 60% of Pb was concentrated in the coarse soil (> 0.425 mm) fraction, suggesting soil clean-up possible by physical soil washing may be viable. The concentrations of Pb, As, and Sb in the toxicity characteristic leaching procedure (TCLP) extracts were 8,869 mg/L, 6.72 mg/L, and 6.42 mg/L respectively, were above the USEPA non-hazardous regulatory limit (As and Pb) of 5 mg/L. The elevated Sb and As concentrations draw concern because there is historically limited information concerning these metals at firing ranges and several values exceeded local soil cleanup criteria. As the high Pb concentrations appeared to be linked to the presence of organic-rich berm cover materials, the use of wood chips as berm cover to prevent soil erosion requires reconsideration as a shooting range management practice.     

Use of two-surfactants mixtures to attain specific HLB values for assisted TPH-diesel biodegradation

In a surfactant assisted biodegradation process, the choice of surfactant(s) is of crucial importance. The question is: does the type of surfactant(i, e. chemical family) affect the biodegradation process at fixed hidrophillic-lypofillic balance(H/B) values? Microcosm assessments were developed using contaminated soil, with around of 5000 mg/kg of hydrocarbons as TPH-diesel. Mixtures of three nonionic surfactants were employed to get a wide range of specific HLB values. Tween20 and Span20 were mixed in the appropriate proportions to get HLB values between 8.6 and 16.7. Tween/Span60 mixtures reached HLB values between 4.7 and 14.9. Finally,Tween/Span80 combinations yielded HLB values between 4.3 and 1.5. TPH-diesel biodegradation was measured at the beginning, and after 8 weeks, as well as the FCU/grsod, as a measure of microorganisms‘ development during the biodegradation period. A second aim of this work was to assess the use of guar gum as a biodegradation enhancer instead of synthetic products. The conclusions of this work are that surfactant chemical family, and not only the HLB value clearly affects the assisted biodegradation rate. Surfactant‘s synergism was clearly observed. Regarding the use of guar gum, no biodegradation enhancement was observed for the three assessed concentrations,i.e., 2, 20, and 200 mg/kg, respectively. On the contrary, TPH-diesel removal was lower as the gum concentration increased. It is quite possible that guar gum was used as a microbial substrate.     

Selenium fractions in organic matter from Se-rich soils and weathered stone coal in selenosis areas of China

A high degree of association between Selenium (Se) and organic matter has been demonstrated in natural environments, but Se fractions and speciation in organic matter is unclear. In this study, a method for quantifying organic matter associated with Se (OM-Se) was developed to investigate Se fractions in organic matter in Se-rich soils and weathered stone coal from Enshi, China, where Se poisoning of humans and livestock has been documented. Initially, Se was extracted using water and a phosphate buffer. Subsequently, OM-Se was extracted using NaOH, and then speciated into Se associated with fulvic acids (FA-Se) and humic acids (HA-Se). Both FA-Se and HA-Se were further speciated into the weakly bound and strongly bound fractions using a customized hydride generation reactor. The results show that FA-Se (1.91-479 mg kg⁻¹) is the predominant form of Se in all Se-rich soils and the weathered stone coal samples, accounting for more than 62% of OM-Se (3.07-484 mg kg⁻¹). Weakly bound FA-Se (1.33-450 mg kg⁻¹) was prevalent in the total FA-Se, while weakly bound HA-Se (0.62-26.2 mg kg⁻¹) was variable in the total HA-Se (1.15-32.5 mg kg⁻¹). These data indicate that OM-Se could play a significant source and sink role in the biogeochemical cycling of Se in the supergene environment. Weakly bound FA-Se seems to act as a potential source for bioavailable Se, whereas strongly bound HA-Se is a possible OM-Se sink which is not readily transformed into bioavailable Se.     

土壤整体质量的生态毒性评价

土壤样品采自沈阳西部污灌区 .进行了污染物 (重金属和矿物油 )含量分析和生态毒性试验 .重金属采用原子吸收分光光度仪测定 ,矿物油采用紫外分光光度计测定 .生态毒性试验分别参照国际标准组织 (ISO)和OECD指南 ,进行了植物毒性试验、蚯蚓毒性试验和蚕豆根尖微核试验 .植物试验以小麦种子发芽根伸长抑制率为试验终点 ,试验周期50h ,蚯蚓毒性试验以蚯蚓死亡率、体重增长抑制率为试验终点 ,试验周期28d .土壤中矿物油含量在145mg/kg～1121mg/kg ,重金属Cd为0.34mg/kg～1.81mg/kg .土壤对植物和蚯蚓显示不同程度的毒性效应 ,土壤的蚕豆根尖微核率明显高于对照 .种子发芽根伸长抑制率为2.0%至-35.1% ,蚯蚓死亡率为0%～40%.体重增长抑制率由14d的-2.3%～-19.4%在28d增加到-2.1%～10.7% ,蚕豆根尖微核率最高达6.62/100.研究表明 ,土壤中的污染物积累较低 ,但具有明显的生态毒性 .     

生物质炭对双季稻水稻土微生物生物量碳、氮及可溶性有机碳氮的影响

生物质炭可影响土壤微生物量,但生物质炭对双季稻田土壤微生物生物量碳、氮(MBC、MBN)及可溶性有机碳、氮(DOC、DON)的影响还不清楚.基于此,本研究选取亚热带2种典型双季稻田土壤(花岗岩母质发育的水稻土S1和第四纪红壤发育的水稻土S2)作为研究对象,开展室内培养试验来研究不施氮肥条件下生物质炭添加对土壤微生物生物量碳、氮及可溶性有机碳、氮的影响.每种土壤设置3个小麦秸秆生物质炭添加量,即土重的0%、1%和2%,分别用CK、LB和HB表示.培养70 d后,2种水稻土的MBC均值:S1为877. 03、832. 11和849. 30 mg·kg~(-1),S2为902. 94、874. 19和883. 22mg·kg~(-1). S1+LB、S1+HB和S2+LB均显著降低了土壤MBC均值(P 0. 05),这可能是由生物质炭吸附土壤有机碳及其他有机物,阻碍了微生物的生长而造成的. S1土壤中低生物质炭添加量较对照显著降低了土壤MBN均值(P 0. 05),降幅达9. 45%.生物质炭对S1土壤MBC/MBN均值影响不明显,但LB降低了S2土壤MBC/MBN均值(P 0. 05).由于生物质炭本身含有部分可溶性有机碳及其高p H值,添加到2种水稻土中均增加了土壤DOC均值,增幅分别达4. 42%～22. 20%和10. 57%～35. 47%.但生物质炭(除S2+HB处理)显著降低了土壤DON均值,这可能归因于生物质炭对土壤有机氮的吸附作用及生物质炭本身有机碳分解过程中对N的消耗作用.生物质炭显著增加了2种水稻土的DOC/DON均值,且随着生物质炭添加量的增加而增加.综上所述,在双季稻田土壤中单施生物质炭虽然可增加土壤可溶性有机碳,但对土壤微生物量有一定的降低作用,且会加重土壤氮亏缺状况.因此,在亚热带双季稻田中生物质炭应与化肥等配合施用.     

丛枝菌根真菌对铈污染土壤上玉米生长和铈吸收的影响

采用温室盆栽试验的方法,模拟不同程度的铈(Ce)污染土壤(100、500、1 000 mg·kg~(-1)),研究接种丛枝菌根(arbuscular mycorrhizal,AM)真菌Glomus aggregatum(GA)和Funneliformis mosseae(FM)对玉米(Zea mays L.)菌根侵染率、生物量、营养元素吸收、C:N:P生态化学计量比和稀土元素Ce吸收、转运的影响,旨在为稀土污染土壤的治理提供基础数据和技术支持.结果表明,GA和FM均与玉米成功建立了互惠共生关系,平均菌根侵染率为7.12%~74.47%;随着土壤Ce污染程度的增加,玉米菌根侵染率、地上部和根部的生物量、营养元素N、P、K的吸收量以及Ce从根到叶的转运率均显著降低,而玉米植株的C:P和N:P、地上部和根部Ce含量显著升高.接种AM真菌不同程度地促进了玉米的生长,在重度Ce污染土壤接种FM对玉米生长的促进作用显著高于GA,而在轻度和中度Ce污染土壤二者之间无显著性差异;接种显著改善了玉米的营养状况,一定程度上显著降低了玉米植株的C:N:P在轻度和中度Ce污染土壤GA对营养元素吸收的促进作用要显著高于FM,而在重度Ce污染土壤则反之;接种也显著增加了轻度Ce污染土壤玉米地上部和根部Ce含量,而对中度和重度Ce污染土壤上玉米Ce的吸收无显著影响,促进了Ce从根部到地上部分的转运.试验初步证明,AM真菌能够减轻稀土元素Ce对植物的毒害作用,在稀土污染土壤的植物修复中具有潜在的应用价值.     

崇明东滩湿地土壤养分的分布特征及其环境效应

通过研究崇明东滩不同类型天然湿地土壤在不同潮间的有机质(OM)、全氮(TN)、全磷(TP)的含量与分布,进而分析不同类型滨海湿地土壤作为营养盐氮、磷汇与碳沉积的环境效应。结果表明,芦苇型沙质湿地土壤中有机质、全氮、全磷的平均值分别为1.36%、0.1%、0.03%,而芦苇/米草混合型黏质土壤中分别为2.41%、0.27%、0.07%。随着高程的增加(从光滩向高潮滩过渡),芦苇(Phragmitescommunis)型沙质湿地土壤与芦苇/米草(Phragmites communis/Spartina alterniflora)混合型黏质土壤中有机质、全氮含量平稳上升,但全磷变化并不显著。这表明芦苇/互花米草混合型黏质湿地土壤对造成沿海水域富营养化的氮、磷营养盐以及引起全球气候变化的碳排放具有更好的汇聚效应,同时高潮滩的汇聚功能总体较光滩为高。