垃圾堆肥基质对不同草坪植物生态及质量特征的影响

通过田间实验,研究了城市生活垃圾堆肥基质对高羊茅和黑麦草不同品种草坪植物生态及质量特征的影响。结果表明:堆肥能明显促进草坪植物生长,提高地上和地下生物量。与一茬草相比,垃圾堆肥对二茬草的促进作用更为明显,说明了垃圾堆肥营养具有缓释效应。另外,垃圾堆肥能加快草坪植物返青,对越年草坪植物盖度、株高以及生物量具有明显促进作用。不同品种草坪植物对垃圾堆肥的生长响应存在明显差异,在生长速度和生物量指标上,3种高羊茅品种表现较好。采用美国国家草坪评比体系NTEP(9分法)作为评比标准,对各草坪综合质量进行评定。结果垃圾堆肥建植的草坪综合质量均明显好于对照;不同草坪植物之间比较,以爱神综合质量为最佳,尤其表现在密度、颜色和质地方面。     

不同灌溉模式对稻田土壤及糙米重金属积累的影响

为探讨降低土壤和糙米重金属的灌溉模式, 选取江西省萍乡地区的中度重金属污染稻田, 研究了灌浆期习惯性灌溉(间歇性灌溉)和长期淹水灌溉2种灌溉模式对水稻产量、糙米重金属及土壤理化性质的影响。结果表明: 与习惯性灌溉相比, 长期淹水灌溉条件下的水稻产量降低1.25%; 糙米Cd和Pb含量分别降低42.79%和3.70%, 其中糙米Cr含量显著降低44.81%, 但糙米Hg含量显著增加200%, 糙米无机As含量增加3.29%; 土壤Cd含量降低38.77%, 其中土壤有效态Cd含量和阳离子交换量显著降低72.08%和36.71%, 但土壤pH和有机质增加0.97%和6.32%; 同时相关性分析发现糙米Cr含量与土壤有机质呈显著负相关, 与阳离子交换量呈显著正相关, 糙米Hg含量与土壤有效态Cd含量和阳离子交换量呈极显著负相关。长期淹水灌溉可有效降低污染稻田土壤Cd进入水稻, 实现水稻安全生产, 但会增加糙米Hg积累和减产。     

城市垃圾堆肥对高羊茅生长及土壤性质的影响

采用盆栽实验方法,比较了在每盆施用130 g垃圾堆肥(T1)或1.5 g化肥(T2)以及130 g垃圾堆肥与1.5 g 化肥混合施用(T3)条件下高羊茅(Festuca arundinacea L)生长及土壤性质的变化.结果表明:T1和T3处理组的土壤容重显著低于对照(不施肥)和T2处理组,土壤中的阳离子代换量及有机质、碱解氮、速效磷和速效钾含量显著高于对照及T2处理组,且T3处理组的增加幅度更大;T1和T3处理组土壤中Pb、As、Cu、Cr和Cd含量均高于对照和T2处理组,且T1处理组土壤中Pb、As、Cu和Cd含量均显著高于仍处理组,但均小于土壤环境质量一级标准,不会造成土壤环境污染.T1和T3处理组高羊茅种子萌发率均明显低于T2处理组和对照,但随萌发时间的延长逐渐提高,表明垃圾堆肥对高羊茅种子萌发的抑制作用是暂时性的.施肥处理对高羊茅生长均有明显的促进作用;T1、T2和T3处理组高羊茅的株高、地上部分和根于质量、叶片N含量和叶绿素含量总体上均显著高于对照;其中T1处理组在栽培前期高羊茅的株高、地上部分干质量和叶片N含量低于T2处理组,但在后期显著高于T2处理组;而T3处理组高羊茅的各项指标总体上均最高.结果显示:使用垃圾堆肥能明显改善土壤性质、增加土壤肥力;垃圾堆肥具有缓释效应,能改善高羊茅的生长状况、提高草坪质量,与化肥混合施用效果更佳.     

生活垃圾堆肥淋洗液培植无土草皮的生态特征

以生活垃圾堆肥淋洗液培植无土草皮,结果表明,垃圾堆肥淋洗液中有机质、全氮、有效磷及其它营养元素含量显著高于对照土壤淋洗液,能够充分满足草坪植物生长需要。高浓度淋洗液使黑麦草和高羊茅种子萌发高峰期推迟出现,但不影响发芽率,到萌发第11天,种子发芽率分别达到94％和92％以上。对黑麦草而言,80％的淋洗液可显著提高植株高度、地上生物量和叶绿素含量;对高羊茅,60％的淋洗液则为最佳浓度。当淋洗液培植的无土草皮进行田间铺坪90d时,黑麦草和高羊茅草皮地上生物量分别达到5．38g／块和7．89g／块,并显著高于对照草皮（P〈0．05）,而地下生物量和根长差异不显著。垃圾堆肥淋洗液改变了黑麦草和高羊茅植株地上／地下生物量的分配格局,使其根冠比降低,其分别为4．60和3．71,并明显低于对照。从坪用性状上看,铺坪后垃圾堆肥淋洗液培养的草皮叶色深绿,质地柔软光滑,明显优于土壤淋洗液培养的对照草皮。     

微生物堆肥技术修复石油污染土壤的试验研究

目的利用堆肥处理技术对大庆油田原油污染土壤进行生物修复处理研究,建立最佳堆制配比及堆制条件。方法比较堆肥过程中不同碳氮比对石油烃降解效果的影响,分析堆制过程中各理化参数和总石油烃降解的变化趋势,建立最佳堆制配比及堆制条件。结果 3种比例的堆肥处理,总碳含量呈下降趋势而总氮含量呈上升趋势,当C∶N约为30∶1时,堆肥温度9d持续在50℃以上,土壤中石油烃降解率达到最高。60d后,土壤中总石油烃的降解率可达78%。结论堆肥C∶N为30∶1时为最佳的堆制比例。     

生活垃圾堆肥基质草坪建植体系接种草坪土壤线虫多样性特征

通过城市生活垃圾堆肥基质草坪建植体系接种草坪土壤线虫,研究了线虫数量、科属分类、营养类群等线虫多样性变化.结果表明,接种草坪土壤线虫 4 个月后,垃圾堆肥基质中共鉴定出线虫4科7属,包括植物寄生性线虫、食真菌线虫和食细菌线虫3个营养类群;垃圾堆肥基质草坪建植体系中线虫总数明显少于土壤基质.在接种草坪线虫的土壤基质草坪建植体系中,植物寄生线虫为优势营养类群,盘旋线虫属仍为优势属,相对多度达到83.3%,显著高于本底土壤45.1%.在接种草坪土壤线虫的垃圾堆肥基质草坪建植体系中,土壤本底中处于优势属的植物寄生类线虫如盘旋线虫属和螺旋线虫属基本消失了,表明垃圾堆肥基质对植物寄生类群的生长与繁殖表现出明显的抑制作用,优势属也发生了很大变化,食细菌类群的头叶属和丽突属成为优势属,相对多度分别为67.0%和14.0%.因此,从草坪土壤线虫危害角度来说,以垃圾堆肥作为草坪基质将会为草坪植物生长创造良好的基质环境.     

黄河口盐地碱蓬湿地土壤-植物系统重金属污染评价

以黄河口盐地碱蓬湿地为例,评价了淹水和非淹水区湿地表层土壤As、Cd、Cu、Cr、Pb和Zn 6种重金属的污染程度及其在土壤-植物系统中的迁移、富集特征,分析了不同积水深度和土壤理化性质对研究区土壤重金属含量的影响.研究结果表明,与土壤或沉积物质量标准相比,黄河口盐地碱蓬湿地土壤受As和Cd污染最严重,而其它重金属污染较轻;非淹水土壤Cd、Cr和Zn含量高于淹水湿地,而As、Cu和Pb则较低;而且淹水土壤As含量随积水深度增加而呈下降趋势,但积水深度对其他重金属含量的影响不明显.相关性分析结果表明,按照受土壤关键影响因子的不同重金属(除As外)可以分为两类:第一类为Cd、Cr和Zn,这些重金属含量受土壤pH值和盐分影响较大,且相互间存在显著正相关关系,表明它们可能有相同的来源;第二类为Pb和Cu,它们受土壤pH值、盐分和有机质的影响,且Pb和Cu之间存在显著正相关关系.除Cr、Cu和Zn外,重金属在盐地碱蓬的根系内一般不发生显著富集,但绝大多数重金属都表现出地上部分的含量比根系更高的现象.     

Cr和As复合污染对水稻幼苗吸收积累Fe,P,As和Cr的影响

通过水培实验,研究As和Cr复合污染在有磷(+P)和无磷(?P)条件下对2个水稻基因型品种(Jin23A和CDR22)生长和吸收积累Fe,P,As和Cr的影响.实验结果表明,As和Cr复合污染可导致水稻茎叶干重下降,但对株高、根长和根干重均影响不大.施P肥可促进水稻生长,提高水稻生物量,缓解水稻的重金属毒害.As和Cr复合污染对水稻植株吸收积累Fe,P,As和Cr的影响不一.加As和加P均导致两个水稻品种茎叶和根中Fe含量下降.As对水稻植株P含量影响不大.P可促进水稻根系对As的吸收,而降低水稻对Cr的吸收积累.加As导致水稻Cr含量提高,尤其水稻根系Cr含量提高更明显.与对照相比,1.0mg/LAs浓度在不加P时分别导致Jin23A和CDR22根系Cr含量提高138.9%和283.6%,加P时则分别为40.2%和154.1%.此外,本文还讨论了Fe,P,As和Cr4种元素在水稻植株体内的迁移情况.     

不同有机废弃物改良新复垦耕地的综合效果评价

由废弃地整理复垦形成的耕地存在土壤有机质和有效养分低、土壤板结、微生物活性弱和土壤耕作性状不良等问题,快速、有效地提高土壤肥力质量是全面提升该类耕地质量和生产性能的重要组成部分.本文通过田间小区试验研究了城郊有机废弃物对新复垦耕地土壤培肥的综合效果,并比较了不同类型城郊有机废弃物在培育耕地质量方面的差异.试验设置了施用等量猪粪、鸡粪、水稻秸秆、蔬菜收获残留物、城市污泥、沼渣、猪粪/水稻秸秆堆肥、生活垃圾堆肥和对照（不施有机肥）9个处理（年用量30 t·hm^-2）,连续进行3年的定点试验.结果表明： 施用任何有机物对改善土壤肥力均有明显的作用.其中,提升土壤碳库管理指数以施用猪粪、鸡粪、猪粪/水稻秸秆堆肥、水稻秸秆和沼渣的效果最为显著;增加土壤水稳定性团聚体和降低土壤容重以施用猪粪/水稻秸秆堆肥和沼渣的效果最佳;施用污泥、猪粪/水稻秸秆堆肥和生活垃圾堆肥可增强土壤保蓄能力;施用猪粪、鸡粪和猪粪/水稻秸秆堆肥对增加土壤有效态养分的效果最为明显;各类有机物均显著提高了土壤微生物数量和酶活性.长期施用污泥、生活垃圾堆肥及畜禽粪存在着土壤重金属污染的风险,但短期施用对土壤环境质量影响不明显.总体上,对土壤肥力的改善效果由大至小依次为：猪粪/水稻秸秆堆肥>鸡粪>猪粪>沼渣>生活垃圾堆肥>水稻秸秆>城市污泥>蔬菜收获残留物;对土壤的相对污染程度由大至小为：城市污泥>生活垃圾堆肥>猪粪>鸡粪>沼渣>猪粪/水稻秸秆堆肥>蔬菜收获残留物>水稻秸秆.     

矿区道路两侧雪岭云杉叶片重金属富集效应

采矿及矿产品运输过程会对环境造成重金属污染进而对生物体产生危害。为定量描述艾维尔沟矿区道路两侧重金属污染程度、明确雪岭云杉叶片对重金属的吸收富集效应,通过采集雪岭云杉叶片和土壤样品,测试其铅(Pb)、锌(Zn)、镉(Cd)、砷(As)、铜(Cu)、铬(Cr)的含量,分析重金属的富集效应和空间分异特征。结果表明:(1)雪岭云杉叶片和土壤中各重金属含量差异显著(P0.05),叶片中Pb的含量显著高于其余重金属(P0.05),平均达86.28μg/g,土壤中Zn、Cu超过了国家土壤质量标准的一级限制值,而As比三级限制值大41%;(2)以背景区(板房沟林场)的土壤和雪岭云杉叶片重金属为评价标准,研究区雪岭云杉叶片重金属综合污染指数为2.05,属中度污染,其中As和Pb单项污染指数较高,达3.65和2.57。研究区土壤重金属综合污染指数为1.69,属轻度污染;(3)随距离增加,除土壤和叶片中Pb含量表现为负线性递减外,As和Cu均表现为先升高后降低,土壤中Cr、Zn逐渐升高,但叶片中Cr逐渐降低,Zn变化不大;(4)冗余分析(RDA)结果显示土壤中Cu、As、Pb与雪岭云杉死树胸径和树高呈正相关关系,而Cr、Zn与其呈负相关。采矿及运输已对土壤和雪岭云杉的生长造成影响,本文对天山雪岭云杉森林的生态修复与保育具有一定的借鉴作用。     

Changes in the speciation,partitioning and phytoavailability of chromium induced by organic soil amendments

Abstract

This study investigated the effect of two organic amendments (compost of cattle ruminai content and Sphagnum-moss peat) on the reduction of hexavalent chromium and the distribution of this metal among the main solid phases of a soil with low organic matter content treated with different levels of Cr(VI) (0–2000 mg Cr kg^?1 soil). At the same level of added organic carbon, the peat reduced Cr(VI) added to the soil from 250 to 2000 mg kg^?1, with 100% efficiency. The reduction efficiency of the compost, however, decreased with the increasing dose of Cr(VI) soil. The distribution of Cr between the different soil components was evaluated by a sequential chemical extraction procedure. The concentration of water-soluble and exchangeable Cr decreased with the addition of organic amendments to the soil, whereas Cr increased in the organic fraction. The effect of added organic material on the Cr absorption was examined with two ornamental plants (Melissa officinalis and Begonia semperflorens). The increased Cr(VI) in the soil increased the Cr concentration in plant tissues. The addition of organic matter produced a greater aerial biomass for each level of added Cr in comparison with unamended soil. Sphagnum moss peat was more effective than the compost to decrease the total Cr and the Cr(VI) concentration in the water-soluble and exchangeable fraction of soil, thereby reducing the Cr accumulation in plants tissues and phytotoxic symptoms.     

Using the Selective Ion Exchange Resin Extraction and XANES Methods to Evaluate the Effect of Compost Amendments on Soil Chromium(VI) Phytotoxicity

The Cu-saturated selective ion exchange resin (DOWEX M4195) extraction method was used to investigate the effects of two amendments, 5 and 15% organic matter in the form of hog-dung compost (HC) or cattle-dung compost (CC), on Cr(VI) bioavailability in three soils spiked with various levels of Cr(VI). The results showed that addition of composts could decrease the amounts of resin-extractable Cr(VI) in Cr(VI)-spiked soils, and the CC amendment decreased resin-extractable Cr(VI) more than the HC amendment. The X-ray Absorption Near-edge Structure spectroscopy (XANES) method was used to examine the distribution of Cr(III) and Cr(VI) species in Cr(VI)-spiked soils that were affected by compost amendments, and to elucidate the mechanisms for the decrease of resin-extractable Cr(VI) due to the application of composts. The XANES results suggested that the decrease in the amounts of resin-extractable Cr(VI) after compost addition was mainly due to the reduction of Cr(VI) to Cr(III). The amounts of soil resin-extractable Cr(VI) were also correlated with wheat seedling growth in order to evaluate the effect of compost amendments on decreasing the phytotoxicity of soil Cr(VI). The results showed that there was a sigmoidal relationship between soil resin-extractable Cr(VI) and the plant height of wheat seedlings and the obtained effective concentrations of resin-extractable Cr(VI) resulting in 10 and 50% growth inhibition (EC₁₀ and EC₅₀) were 76 and 191 mg kg⁻¹ respectively. The above results suggested that the resin extraction method was a useful tool for assessing Cr(VI) phytotoxicity and that addition of composts would enhance Cr(VI) reduction to Cr(III) in soils and thus relieve Cr(VI) phytotoxicity.     

紫色土外源锌、镉形态的生物有效性

通过对7种形态Zn,Cd与有效态Zn,Cd(DTPA提取）的相关分析及各形态Zn,Cd与植株Zn,Cd含量的通径分析,评价各形态Zn,Cd的生物有效性及对植株的相对贡献和途径。结果表明,交换态Zn,Cd与有效态Zn,Cd呈极显著正相关（r=0.954,0.953),交换态Zn,Cd与植株Zn,Cd含量的通径系数为1．267、1．168,交换态Zn,Cd有效性高,具有最大的生物活性,对植株Zn,Cd含量的贡献最大。其它形态如碳酸盐结合态锌、氧化锰结合态Zn、Cd通过交换态作用于植株的通径链系数（间接通径系数）分别为0．856、0．592、0．723,上述形态对植株Zn,Cd含量也有影响,具有一定的生物相对有效性,但通过交换态间接作用。交换态不仅自身具有最大的生物有效性,而且还作为其它形态Zn,Cd生物有效性的中介,为紫色土其它Zn,Cd库流向植株的主要通道。     

The conditions favourable to oxidation of Cr (III) to Cr (VI) and the presence of chromium forms on the area contaminated by tannery wastes

The aim of this paper was to study the conditions favourable to Cr (III) oxidation such as: type of soil, soil water content, presence of organic matter and three oxidisers (MnO2, NaNO3 and Fe2O3). Also concentrations of different species of chromium in water and soils were examined in the area contaminated with tannery wastes containing 5-10% of Cr2O3. The action of oxidisers was studied in batch experiment for 2 h at room temperature at pH=5.35+/-0.2. The highest level of oxidised trivalent chromium was registered for soil with the lowest content of organic matter (0.72% C(org)), when Cr (III) was oxidised by MnO2, Fe2O3 and NaNO3 did not show properties towards Cr (III) oxidation under the conditions described.     

Hexavalent chromium-reducing plant growth-promoting rhizobacteria are utilized to bio-fortify trivalent chromium in fenugreek by promoting plant development and decreasing the toxicity of hexavalent chromium in the soil

BackgroundFenugreek is known to have good anti-diabetes properties. Moreover, several studies accounted that the trivalent form of chromium [Cr(III)] also have anti-diabetic properties. However, its hexavalent form i.e., Cr(VI) is known to be highly toxic and carcinogenic to living beings and retarded plant growth even if it is present in low concentration in soil. Many plant growth-promoting rhizobacteria (PGPR) are reported to have the potential to reduce the Cr(VI) into Cr(III) in soil. In view of the above, the present objective was designed to effectively utilize Cr(VI) reducing PGPRs for the growth and development of fenugreek plant in Cr(VI) amended soil, apart from reducing Cr(VI) in soil and fortification of Cr(III) in the aerial part of plants.MethodsThe experiment was carried out to evaluate the effect of Cr(VI)-reducing PGPRs viz. Bacillus cereus (SUCR44); Microbacterium sp. (SUCR140); Bacillus thuringiensis (SUCR186) and B. subtilis (SUCR188) on growth, uptake and translocation of Cr as well as other physiological parameters in fenugreek grown under artificially Cr(VI) amended soil (100 mg kg⁻¹ of Cr(VI) in soil).ResultsThe aforementioned concentration of Cr(VI) in soil cause severe reduction in root length (41 %), plant height (43 %), dry root (38 %) and herb biomass (48 %), when compared with control negative (CN; uninoculated plant not grown in Cr(VI) contaminated soil). However, the presence of Microbacterium sp.˗SURC140 (MB) mitigates the Cr toxicity resulting in improved root length (92 %), plant height (86 %), dry root (74 %) and herb biomass (99 %) as compared with control positive (CP; uninoculated plants grown in Cr(VI) contaminated soil). The maximum reduction in bioavailability (82 %) of Cr(VI) in soil and its uptake (50 %) by the plant were also observed in MB-treated plants. However, All Cr(VI)-reducing PGPRs failed to decrease the translocation of Cr to the aerial parts. Moreover, the plant treated with MB observed diminution in relative water content (13 %), electrolyte leakage (16%) and lipid peroxidation (38 %) as well as higher chlorophyll (37 %) carotenoids (17 %) contents and antioxidants (18%) potential.ConclusionThis study demonstrates that MB can lower the Cr(VI) toxicity to the plant by reducing the bioavailable Cr(VI), consequently reducing the Cr(VI) toxicity level in soil and helping in improving the growth and yield of fenugreek. Additionally, Cr(III) uptakes and translocation may improve the effectiveness of fenugreek in treating diabetes.     

Growth substrates made from duck excreta enriched wood shavings and source-separated municipal solid waste compost and separates: physical and chemical characteristics

Production and use of compost is an effective means to reduce wastes, and offers a large potential as growth substrates and source of nutrients. The objective of this study was to determine the physical and chemical characteristics of duck excreta enriched wood shavings (DMC) and source-separated municipal solid waste (MSW) composts and separates, and to assess the physical characteristics of growth substrates made from these two composts and selected substrates. MSW compost separates were the following sizes: F1 > 4 mm diameter, 2 mm < F2 < 4 mm, 1 mm < F3 < 2 mm and F4 < 1 mm. Growth substrates were prepared by mixing DMC and F2 and F3 MSW separates (M/M ratios). Growth substrates A-E consisted exclusively of 10-60% DMC and 20-60% of MSW separates F2 and F3. Growth substrates F-J, and K-O were the same as substrates A E, with 15% M/M brick fragments or shredded plastic added as porosity agents, respectively. Growth substrates (BE/S) made of black earth (BE) and sandy loam soil (Ls) in a 1:4 (M/M) ratio, commercially available peat substrate (Pr) and an in-house sphagnum peat-based substrate (Gs) were used for comparison. Principal component analysis (PCA) showed that DMC was a better material than MSW with respect to porosity and water field capacity. MSW compost and separates differed by their relatively high levels of water-soluble and HCl-hydrolyzable N and increased advantageous water retention capacity. PCA also showed that substrates A-E exhibited porosity and water field capacity similar to those of Pr. Substrates F-J had porosity and water field capacity similar to those of BE/S, whereas substrates K O were more similar to Pr and to substrates A and B. The presented data indicate that DMC and MSW separates were complementary in providing good physical and chemical characteristics to the growth substrates.     

Soil quality and barley growth as influenced by the land application of two compost types

Agricultural use of organic residues offers an attractive method for their safe disposal and a valuable source of organic amendments and nutrients. A field experiment was conducted to investigate the influences of 0, 25, 50 and 100 t/ha spent mushroom compost (SMC), forced aeration compost (FAC) and inorganic fertilizer on soil properties and yield of barley (Hordeum vulgare). The considered soil properties (0-15 cm), after a growing season, included pH, EC, available P, Kjeldahl N, available cations, DTPA extractable elements, soil OC content, and bulk density and grain yield was also determined. Application of organic materials increased organic status of the soil and nutrient content. The effectiveness of the two composts on improving the productivity of the soil varied. SMC produced strongest correlations between soil nutrient levels and plant yield. Neither compost raised soil copper and zinc to levels that were of concern and high application rates decreased iron content.