Biochar addition to soil highly increases P retention and decreases the risk of phosphate contamination of waters

Environmental Chemistry Letters - Phosphorus loss from agricultural soils is an important cause of eutrophication. The diversity of soil conditions and biochar feedstocks induces...     

土壤类型与污染浓度对漆酶修复DDT污染土壤的影响

具有难降解、高残留特征的DDT至今在土壤中仍有残留,对农产品安全和人体健康有严重影响.本文采用批实验的方法研究了3种不同类型土壤和3个污染水平对漆酶修复DDT污染土壤的影响.研究结果表明,不同类型土壤中DDT各组分及总量(DDTs)的降解率存在显著差异,总体上为水稻土＞菜园土＞赤红壤,对照处理土壤中DDTs的降解率仅为20%左右,加酶处理土壤中则高达50%～65%.对于不同污染水平的DDT污染土壤,土壤中DDT各组分及DDTs的降解率均随着污染水平的提高而增大,多数在不同污染水平之间差异显著.对照处理对不同污染水平土壤中DDTs的降解率仅为15%左右,而加酶处理则高达43.60%～50.53%.     

水、土环境中锑污染与控制研究进展

随着工业的发展,锑作为一种具有潜在毒性和致癌性的类金属元素,已经较为广泛地存在于水体和土壤环境中,显现出不可忽视的环境问题,并引起国际科学界的高度关注。文章综述了锑在水体和土壤环境中的污染现状、化学行为形态以及污染控制方面的研究进展。由采矿业、制造业带来的锑水土污染问题较为突出,目前的处理处置方法难以满足需求。今后需要在锑的水土环境化学方面加强研究,探讨锑的迁移转化规律;高效吸附材料的开发制备也是一个重要内容;植物组合修复土壤中的锑污染将是一个重要的突破口。     

水、氮控制对短花针茅草原气体交换的影响

随着对气候变化日趋关注,人们对生态系统气体交换及其主要影响因素进行了大量研究。短花针茅草原作为荒漠草原的典型代表,是亚洲特有的一种草原类型,是最干旱的草原类型,生态环境异常严酷,系统极度脆弱,稳定性差,在自然和人为干扰下极易退化。以短花针茅（Stipa breviflora）草原为研究对象,通过控制降雨量以及氮素添加对生态系统气体交换进行监测,研究气体交换对降雨量和氮素添加的响应过程,揭示降雨量和氮素添加对生态系统气体交换的影响作用。该文在2012年自然条件下,采用自动CO2通量系统（Li-6400, Li-COR, Lincoln, NE, USA）野外测定短花针茅（Stipa breviflora）草原生态系统气体交换数据,比较研究了增雨施肥（WN）、增雨不施肥（W）、减雨施肥（RN）、减雨不施肥（R）、单独施肥（N）、自然状况（CK）条件下2012年气体交换变化规律。结果表明：整个生长季生态系统净 CO2交换（NEE）、总的生态系统生产力（GEP）、生态系统呼吸值（ER）都呈先升高后降低的趋势,并在生长旺盛期（8月）达到最大值。NEE在N、W处理下有升高,其他处理都降低。ER在N、WN处理下都有升高,其他处理都降低。GEP在W、N、WN处理下都有升高,其他处理都降低。NEE、ER、GEP都是在N处理中达到最大值。     

水、土环境中锑污染与控制研究进展

随着工业的发展,锑作为一种具有潜在毒性和致癌性的类金属元素,已经较为广泛地存在于水体和土壤环境中,显现出不可忽视的环境问题,并引起国际科学界的高度关注。文章综述了锑在水体和土壤环境中的污染现状、化学行为形态以及污染控制方面的研究进展。由采矿业、制造业带来的锑水土污染问题较为突出,目前的处理处置方法难以满足需求。今后需要在锑的水土环境化学方面加强研究,探讨锑的迁移转化规律;高效吸附材料的开发制备也是一个重要内容;植物组合修复土壤中的锑污染将是一个重要的突破口。     

模拟氮沉降对苗圃地土壤动物群落的影响

通过人工喷施氮H4NO3建立了一个模拟氮沉降增加梯度系列,在近18个月的试验处理期间,研究了2003年7月、10月和2004年2月、5月这几个不同季度苗圃试验样地土壤动物群落对氮沉降增加的响应。实验分为5个处理组:对照、低氮、中氮、高氮和倍高氮,分别接受0、5、10、15、30g/(m2·a)的氮沉降量。土壤细菌和真菌的数量总体上随氮处理的加强而持续显著地增长,土壤有机氮含量也持续升高,土壤酸度则不断下降。采样期对土壤动物的个体数量、类群丰度和多样性存在显著的影响,总的来说,土壤动物群落随试验处理期加长而持续增长。土壤动物群落具有显著的垂直分异特征,土壤I层土壤动物个体数量、类群丰度和多样性显著高于II和III层。氮沉降增加对土壤动物群落有明显的影响,表现为施氮处理明显有利于土壤动物群落的发展,但也具有明显的阀值效应。与对照样地相比,各施氮处理样地土壤动物群落水平整体为高,而且随试验处理时间的增加这种差异有加大的趋势;氮沉降增加处理与取样期之间存在显著的交互作用,除了2月取样,中氮处理土壤动物群落水平都处于最高水平,而对照处理一般处于最低水平,这种趋势在最后一次取样中最为明显;氮沉降处理与土壤动物的垂直分布之间也有明显的交互作用:在土壤I层,从对照至倍高氮处理,土壤动物群     

Worldwide cases of water pollution by emerging contaminants: a review

Environmental Chemistry Letters - Water contamination by emerging contaminants is increasing in the context of rising urbanization, industrialization, and agriculture production. Emerging...     

Phytoplankton as index of water quality with reference to industrial pollution

In this paper Shannon-Weaver (SI-3.58-4.07, SII-3.1-3.72, SIII-1.64-2.25, SIV-2.54-2.95 and SV-3.09-3.23) diversity index was applied to surface phytoplankton to study the water quality status of river Bhadra receiving Mysore paper mill and Iron and steel mill effluent. A total of 45 species of phytoplankton belonging to 5 classes were recorded and study indicated that the phytoplankton diversity (Chlorophyceae-19 species, Bacillanophyceae-16 species, Cyanophyceae-07 species, Euglenophyceae-2 species and Chrysophyceae-1 species) did not reveal the same type of water quality (water temperature 24.62-27.32 degrees C, pH-7.08-7.25, electrical conductivity-67.49-201.94 micromhos/cm, dissolved oxygen-4.13-5.98 mgl(-1), chloride-12.30-40.85 mgl(-1), calcium-6.49-23.74 mgl(-1), total hardness 28.98-76.65 mgl(1), magnesium-4.69-15.92 mgl(-1), total alkalinity-77.26-86.53 mgl(-1), BOD-1.88-4.01 mgl(-1), COD - 16.53-45 mgl(-1), phosphate-0.001-0.53 mgl(-1), sodium-2.70-7.46 mgl(-1) and potassium-2.37-7.88 mgl(-1)). The investigation emphasized the need of phytoplankton community as index of water quality polluted by industrial effluents at the downstream stretch of the Bhadra river.     

低碳条件下土壤微生物量磷对加入无机磷的响应

土壤微生物量磷是土壤有效磷的“源”和“库”,其变化幅度很大,受多种因素影响。采用室内培养的方法,向土壤中加入不同量KH2PO4,分析在土壤有机碳供应不充足条件下土壤微生物量磷对外加无机磷的响应,探讨影响土壤微生物量磷的因素,为提高土壤磷素有效性提供理论依据。结果表明,在土壤有机碳供应不充足的条件下,加入的无机磷对土壤微生物量碳无明显影响,但可显著增加土壤微生物量磷和微生物含磷量,随着无机磷加入量的增加,土壤微生物量磷和微生物含磷量增加幅度增加。土壤微生物量磷及微生物含磷量与土壤有效磷之间成显著直线相关,土壤有效磷每提高1个单位,土壤微生物量磷增加0.22个单位,土壤微生物含磷量增加0.73个单位。     

Chlorpyrifos insecticide uptake by plantain from polluted water and soil

Chlorpyrifos is a common organophosphorus insecticide used for crop protection. Chlorpyrifos use has induced heath issues and water pollution. Such issues may be solved by phytoremediation, which is the use of plants for the cleanup of pollutants. Here, we tested Plantago major L. to clean water and soils under laboratory conditions. Results show that the concentration of chlorpyrifos residues after 5 days exposure reached 36.86 μg/g in roots and 13.93 μg/g in upper plant tissues. Gas chromatography–mass spectrometry (GC–MS) analysis of chlorpyrifos metabolites suggests the formation of 3, 5, 6-trichloro-2-pyridinol (TCP) and diethyl 3,5,6-trichloropyridin-2-yl phosphate (chlorpyrifos-oxon). Chlorpyrifos-oxon was detected in the roots and the leaves after 2 h of testing. After 24 h of testing, the degradation product chlorpyrifos-oxon increased in the roots and the leaves then decreased gradually until the end of testing. TCP levels increased gradually to 192 h then decreased until the end of testing.     

Gastropod herbivory in response to elevated CO2 and N addition impacts plant community composition

In this study, the influence of elevated carbon dioxide (CO2) and nitrogen (N) deposition on gastropod herbivory was investigated for six annual species in a California annual grassland community. These experimentally simulated global changes increased availability of important resources for plant growth, leading to the hypothesis that species with the most positive growth and foliar nutrient responses would experience the greatest increase in herbivory. Counter to the expectations, shifts in tissue N and growth rates caused by N deposition did not predict shifts in herbivore consumption rates. N deposition increased seedling N concentrations and growth rates but did not increase herbivore consumption overall, or for any individual species. Elevated CO2 did not influence growth rates nor have a statistically significant influence on seedling N concentrations. Elevated CO2 at ambient N levels caused a decline in the number of seedlings consumed, but the interaction between CO2 and N addition differed among species. The results of this study indicate that shifting patterns of herbivory will likely influence species composition as environmental conditions change in the future; however, a simple trade-off between shifting growth rates and palatability is not evident.     

水肥管理对稻田土壤甲烷和氧化亚氮排放的影响

就稻田水肥管理对甲烷和氧化亚氮排放的影响研究进行了综述。文献分析表明,甲烷和氧化亚氮的排放条件存在明显的反位关系,即有利于甲烷排放的水分条件往往不利于氧化亚氮的排放。稻田温室气体的排放与水分管理的历史有明显的关系,不同的肥料施用对甲烷和氧化亚氮排放影响的机制不同。因此,要真正有效地控制温室气体的排放必须首先弄清甲烷和氧化亚氮在不同条件下的排放关系。     

湖滨带植物群落对挟沙水体氮、磷污染物的截留效果

利用菖蒲(Gladiolus hybridus)、菱(Vallisneria spiralis)、黑藻(Hydrilla verticillata)、苦草(Vallisneria spiralis)、狐尾藻(Myriophyllum spicatum)及菹草(Potamogeton crispus)构建的人工湖滨带对挟沙水体氮、磷污染物的截留效果进行了研究。结果表明:人工湖滨带在截留水体悬浮泥沙颗粒物的同时可有效截留水体中的氮、磷营养物质,对防止富营养化具有积极的作用。一定的水力负荷下,滞留时间12h时,夏秋季节人工湖滨带对氮、磷的截留百分率分别为21.5%、34.8%,滞留24h时的氮、磷截留率分别为25%、31.1%。在冬春季节,滞留时间24h时,菹草对挟沙水体氮、磷的截留率分别为6.67%、10.83%,滞留时间48h时的总磷截留率为6.84%。不同水流滞留时间下人工湖滨带对挟沙水体氮磷的截留效果不同,滞留时间越长效果越明显,因此须保证一定的滞留时间才可取得较好的氮磷截流效果。人工湖滨带在截留径流氮、磷营养物的过程中,泥沙对氮、磷的吸附携带作用不容忽视。     

微生物对水-沉积物中苯并[a]芘-镉复合污染修复的研究

从广东汕头贵屿镇的沉积物中分离得到1株对PAHs有较好降解能力且有较强重金属耐受性的菌株（简称B4）,菌种鉴定表明该菌为氧化节杆菌属。以土著微生物、处理方式、沉积物、修复时间等为不同的影响因子对该菌修复水体/沉积物中苯并[a]芘（BaP）-镉（Cd）复合污染进行了初步研究。结果表明：该菌同时具有降解BaP和吸附Cd的性能;土著微生物对BaP有一定的降解能力,并能显著促进B4降解BaP,当体系中BaP质量浓度为1.00 mg.L-1时,降解率达到了68.3%;Cd的吸附却因土著微生物的存在发生一定程度的解吸。振荡培养对BaP的降解效果略优于静止培养修复,而静止修复却更有利于Cd的去除。沉积物促进体系Cd的吸附,却减弱了菌种对BaP的降解。在静止培养修复中,BaP的降解主要发生在7 d以前,降解率保持在35%左右,此时Cd的去除效果亦较好。     

Purification of contaminated paddy fields by clean water irrigation over two decades

Paddy fields near a mining site in north part of Guangdong Province, PR China, were severely contaminated by heavy metals as a result of wastewater irrigation from the tailing pond. The following clean water irrigation for 2 decades produced marked rinsing effect, especially on Pb and Zn. Paddy fields continuously irrigated with wastewater ever since mining started (50 years) had 1,050.0 mg kg^?1 of Pb and 810.3 mg kg^?1 of Zn for upper 20 cm soil, in comparison with 215.9 mg kg^?1 of Pb and 525.4 mg kg^?1 of Zn, respectively, with clean water irrigation for 20 years. Rinsing effect mainly occurred to a depth of upper 40 cm, of which the soil contained highest metals. Copper and Cd in the farmlands were also reduced due to clean water irrigation. Higher availability of Pb might partly account for more Pb transferred from the tailing pond to the farmland and also more Pb removal from the farmland as a result of clean water irrigation. Neither rice in the paddy field nor dense weeds in the uncultivated field largely took up the metals. However, they might contribute to activate metals differently, leading to a different purification extent. Rotation of rice and weed reduced metal retention in the farmland soil, in comparison with sole rice growth. Harvesting of rice grain (and partially rice stalk) only contributed small fraction of total amount of removed metal. In summary, heavy metal in paddy field resulted from irrigation of mining wastewater could be largely removed by clean water irrigation for sufficient time.     

水体和甘蓝及土壤中毒死蜱残留检测方法

研究运用不同的样品前处理方式,在装配火焰光度检测器的气相色谱(GC-FPD)上检测,建立了有机磷杀虫剂毒死蜱在水样、土壤和甘蓝中的残留测定方法.研究表明,不同样品中的毒死蜱残留采用本文中介绍的前处理方法是可行的,用石油醚盐析提取和净化水样中毒死蜱,采用丙酮振荡提取甘蓝中毒死蜱,选用索氏提取法提取土壤中毒死蜱,并经液液分配净化后,采用OV-101大口径毛细管柱(30 m×0.53 mm×1.0μm),在装配火焰光度检测器(FPD和磷滤光片)的气相色谱上测定.该分析方法下,毒死蜱的保留时间为1.74 min,线性范围在1.0×10-11—1.0×10-8g之间,其线性相关系数为0.9998,最小检出量为2.0×10-12g.在设定的较低添加浓度的条件下,毒死蜱在水样、土壤与甘蓝上的添加回收率为80%—120%,变异系数均小于5%.该分析方法灵敏、准确、操作简便,适合水样、甘蓝和土壤中低浓度毒死蜱的残留检测.     

离子交换树脂袋法研究森林土壤硝态氮及其对氮沉降增加的响应

用离子交换树脂袋法，研究了鼎湖山三种森林（马尾松林、马尾松针叶阔叶混交林和季风常绿阔叶林）土壤硝态氮对外加氮的响应特征。结果表明，土壤硝态氮显著地受森林类型、季节和氮处理的影响。整体而言，阔叶林土壤硝态氮极显著高于马尾松林和混交林，而马尾松林和混交林之间的差异则不显著。三种森林土壤硝态氮的季节变化均表现为春季和夏季极显著高于冬季和秋季，而冬季又显著高于秋季。外加氮处理提高土壤硝态氮水平，其中在马尾松林和阔叶林氮处理效应显著。所得结果与直接采集土壤或土壤水测定的硝态氮含量的结果一致，表明离子交换树脂袋法是评价土壤硝态氮水平行之有效的手段之一。     

焚烧源二噁英的排放对周边土壤和植被污染的研究进展

经济的飞速发展和城市化进程的加快,带来了严重的生活垃圾负荷问题。垃圾焚烧技术因其具有减容化、无害化和资源化的优点,成为当今国际社会生活垃圾处理的主要技术之一。然而由于人们对于垃圾焚烧源可能产生的二噁英污染问题缺乏一个全面的认识,使得垃圾焚烧厂的建立遭到了民众的强烈反对,成为影响社会和谐稳定的因素;因此,需要对垃圾焚烧源二噁英的排放对周边土壤和植被的污染状况进行综述,对于解决老百姓对于垃圾焚烧二噁英污染的争议有巨大的现实意义。对近年来国内外学者在相关方面的研究进行了详细地综述,结果发现：国内已开展的研究仅限于二噁英对焚烧厂周边土壤的污染调查,而对于焚烧源二噁英对植被及农作物的污染的研究数据非常匮乏;而国外学者已开展的垃圾焚烧厂周边土壤和植被中二噁英污染的调查研究只是停留在二噁英在土壤和植被中总浓度的研究基础上,而对于不同二噁英同族物在焚烧厂附近土壤和植被中的分布特征和蓄积规律方面的研究比较缺乏,尤其是在其他污染源如废弃物的露天燃烧、交通等协同作用下,垃圾焚烧对二噁英污染贡献率的研究比较少,对于垃圾焚烧厂二噁英污染的控制没有起到直观的指导作用。本文指出今后的研究应加强对二噁英在焚烧厂周边土壤和植被中分布特征和蓄积规律研究,这对于焚烧源二噁英的污染防治以及对已被二噁英污染的土壤和植被的生态修复具有重要的意义。     

Responses of soil microbial communities to water stress: results from a meta-analysis

Soil heterotrophic respiration and nutrient mineralization are strongly affected by environmental conditions, in particular by moisture fluctuations triggered by rainfall events. When soil moisture decreases, so does decomposers' activity, with microfauna generally undergoing stress sooner than bacteria and fungi. Despite differences in the responses of individual decomposer groups to moisture availability (e.g., bacteria are typically more sensitive than fungi to water stress), we show that responses of decomposers at the community level are different in soils and surface litter, but similar across biomes and climates. This results in a nearly constant soil-moisture threshold corresponding to the point when biological activity ceases, at a water potential of about -14 MPa in mineral soils and -36 MPa in surface litter. This threshold is shown to be comparable to the soil moisture value where solute diffusion becomes strongly inhibited in soil, while in litter it is dehydration rather than diffusion that likely limits biological activity around the stress point. Because of these intrinsic constraints and lack of adaptation to different hydro-climatic regimes, changes in rainfall patterns (primary drivers of the soil moisture balance) may have dramatic impacts on soil carbon and nutrient cycling.