石油烃类污染物降解动力学和微生物群落多样性分析

为了探讨不同初始浓度石油污染土壤堆腐化修复机制,以石油降解菌剂和腐熟鸡粪为调理剂,研究了初始浓度分别为5 000（T1）、10 000（T2）和50 000 mg/kg（T3）的石油污染土壤堆腐化修复过程石油烃类污染降解动力学特征和微生物群落多样性。结果表明：堆腐化修复过程石油烃类污染物降解符合一级反应动力学,反应常数分别为0.012、0.094和0.050 d-1,半衰期分别为6.79、7.37和13.86 d。整个堆腐过程石油烃类污染物平均降解速率分别为112.08、230.05和887.93 mg/(kg·d)。3个处理的孔平均颜色变化率（average well color development）和碳源利用率（除芳香烃类化合物外）随堆腐进程的推进逐渐升高,在堆腐中、后期达到最大,T3处理显著高于T1、T2处理。多聚物类和糖类代谢群是堆腐体系中的优势菌群。主成分分析表明3个处理的微生物群落差异显著（除第9天外）,起分异作用的碳源主要是糖类和羧酸类。微生物群落的丰富度指数和均一度指数随堆腐进程的推进逐渐升高并在堆腐后期达到最大,与T1处理相比,T3处理分别高了0.21%和17.64%,差异达到显著水平（P<0.05）。微生物群落优势度指数在中期达到最大,T1处理分别比T2、T3处理高2.12%和9.44%,3个处理间差异不显著（P>0.05）。堆肥结束时3个处理的种子发芽指数（seed germination index, SGI）分别比堆腐初期提高了18.26%、20.42%和36.41%。该研究结果为黄土高原不同程度石油污染土壤堆腐化修复的应用提供参考依据和理论基础。     

Responses of Soil Microbial Community Structure and Activity to Incorporation of Straws and Straw Biochars and Their Effects on Soil Respiration and Soil Organic Carbon Turnover

Like straw, biochar incorporation can influence soil microorganisms and enzyme activities and soil carbon(C) responses; however,few studies have compared the various effects of straw and biochar and the underlying mechanisms. An experiment was performed to study the changes in soil respiration(SR) and soil organic C(SOC) fluxes in response to the incorporation of three kinds of straw(reed, smooth cordgrass, and rice) and their pyrolyzed products(biochars) at Chongming Island, China. In addition, the microbial activity and community structure of some amended soils were also analyzed to clarify the mechanisms of these responses. The results showed that all biochar incorporation(BC) induced lower SR than the corresponding unpyrolyzed straw incorporation(ST), and the average SR in the soils following BC and ST during the experimental periods was 21.69 and 65.32 μmol CO_2 m~(-2)s~(-1), respectively.Furthermore, the average SOC content was 16.97 g kg~(-1) following BC, which was higher than that(13.71 g kg~(-1)) following ST,indicating that compared to ST, BC was a low-C strategy, even after accounting for the C loss during biochar production. Among the BC treatments, reed-BC induced the lowest SR(17.04 μmol CO_2 m~(-2)s~(-1)), whereas smooth cordgrass-BC induced the highest SR(27.02 μmol CO_2 m~(-2)s~(-1)). Furthermore, in contrast with ST, BC significantly increased the abundance of some bacteria with poorer mineralization or better humification ability, which led to lower SR. The lower easily oxidizable C(EOC) and higher total C contents of biochars induced lower SR and higher SOC in the soil following BC compared to that following ST. Among the BC treatments,the higher total nitrogen content of rice biochar led to significantly higher soil microbial biomass, and the lower EOC content of reed biochar led to lower soil microbial activity and SR.     

不同施肥处理对土壤微生物学特性和作物产量的影响

采用不同施肥处理试验,分析土壤脲酶、纤维素酶、土壤微生物数量和作物产量的变化,以探索可提高土壤微生物学特性和作物产量的施肥方式。结果显示:土壤脲酶、土壤纤维素酶均表现为施肥处理显著高于不施肥对照(p<0.05)。T5(常规氮磷钾肥+秸秆+秸秆腐熟剂)处理的微生物数量测定结果在两季中与其它处理相比略有增加。小麦产量以T5处理最高,比对照增产38.2%,而玉米产量最高的处理是T3(0.7倍常规氮磷钾肥+有机肥),比对照增产29.2%。相关分析得出,在本试验条件下,两种土壤酶活分别与产量和微生物数量有一定相关性,其中土壤脲酶和土壤纤维素酶可在一定程度上反映土壤肥力,而土壤脲酶在一定程度上可反映土壤微生物数量。综合以上结果,在本实验条件下,T5是最佳的施肥方式。     

南方几种水稻土重金属污染下的土壤呼吸及微生物学效应

采集南方几种重金属污染下的水稻土,通过室内培养的方法研究土壤CO2排放的动态变化以及微生物学指标的差异。结果表明,在60d的培养期内,前7d土壤呼吸速率较高,占了整个排放量的30．89％～64．37％,并且这一阶段重金属对土壤呼吸速率的影响最大。重金属对土壤微生物生物量的影响表现出增加、抑制与无显著性差异的结果,而重金属对微生物熵及微生物代谢熵（qCO2）的影响却是极显著的,同时表现出增加与降低的不同结果。这说明土壤呼吸以及不同的微生物学指标,在长期的复合重金属污染条件下,其表现并不一致,微生物熵与代谢熵用于基本性质差异较大的土壤时,对重金属的响应更为灵敏。此外,土壤重金属的累积还能提高土壤中有机碳的含量。     

Linkage between soil organic carbon and the utilization of soil microbial carbon under plastic film mulching in a semi-arid agroecosystem in China

ABSTRACT

Studying changes in soil organic carbon (SOC) pools and soil microbial C substrate utilization under plastic mulching in different seasons is of great significance for improving soil fertility and sustainable agricultural development. Based on a 2-year plastic film mulching experiment in northeastern China, we investigated the SOC, labile SOC fractions under three treatments: non-mulching (NM), autumn mulching (AM) and spring mulching (SM). The results showed that SOC decreased with soil depth under the AM and SM treatments compared with the NM treatment. The microbial biomass carbon (MBC) and dissolved organic carbon (DOC) under the AM treatment increased significantly in the 0–10 cm soil layer, by 31.2% and 27.2% (p < 0.05), respectively. The AM treatment significantly increased the utilization of amino acids and carbohydrate C sources. Redundancy analysis (RDA) indicated that MBC was the main factor influencing microbial metabolic functional diversity and accounted for the largest variation in the 0–10 cm layer. Pearson’s correlation analysis illustrated that MBC was strongly correlated with the utilization of the microbial C substrate. We suggest that AM may be an effective and sustainable management practice for improving soil quality and maintaining microbial functional diversity in semi-arid agroecosystems in this area.     

铀尾矿周边污染土壤微生物群落结构与功能研究

为给铀尾矿周边污染土壤环境监测及生态修复提供科学参考依据,以我国某铀尾矿周边的污染土壤为研究对象,采用常规稀释平板法和Biolog—Eco微平板反应系统研究了高、中、低污染区的土壤微生物群落结构及功能多样性。结果表明,放射性污染从高到低的各级取样点的三类微生物数量大小为细菌〉真菌〉放线菌;与对照相比,各样点的AWCD下降了37．6％~92．0％,AWCD、Shannon指数（H）、Simpson指数（D）与放射性核素的含量基本呈反比关系,而与有机质、全氮、碱解氮显著正相关;不同土壤微生物群落问的代谢特征随着污染程度的变化而变化,主成分分析表明这种变化主要体现在碳水化合物上。     

Influence of microbial activity and soil moisture on herbicide immobilization in soils

Mobility, extractability, and disappearance of the herbicides diuron, terbuthylazine, metolachlor, and pendimethalin were examined in incubation experiments with two topsoil samples of different natural microbial activity and after sterilization. Soil moisture was held constant at 10, 40, and 60 % WHC. In other variants, the soil water content was changed during the incubation. The four herbicides reveal a fairly different extent of microbial and chemical degradation and immobilization. The herbicide mobility – expressed by coefficients of partition between adsorbed and dissolved herbicide amounts – decreases at a lower rate and extent, when the microbial activity is low or the soil is sterile. With increasing initial soil moisture, also herbicide mobility and extractability increase; but in the course of time, abiotic immobilization occurs to a higher extent. When soil moisture changes during the incubation, formerly non‐extractable herbicide fractions (up to 40 % of the applied amounts) become extractable. Kinetics of herbicide immobilization follow an empirical sigmoidal function, which describes three periods of immobilization. The three‐period shape of the curve and its possible reasons are discussed for the data of the incubation experiments as well as for the results of a long‐term field trial with diuron.     

施用柳枝稷茎和叶对土壤有机碳与微生物量碳的影响及其分解特征

采用室内恒温(25℃)培养的方法,研究施用不同用量的柳枝稷茎、叶对土壤有机碳(SOC)和微生物量碳(MBC)的影响,柳枝稷茎、叶在土壤中分解特性。结果表明:柳枝稷茎、叶施入土壤培养90d后,随着柳枝稷茎、叶施入量的增加,SOC和MBC含量明显增加。在柳枝稷茎、叶施用量相同的条件下,施入柳枝稷叶后,土壤微生物量碳的含量高于施用茎的含量,而施用叶的土壤中有机碳的含量低于施入茎的土壤有机碳的含量。柳枝稷茎、叶在土壤中的分解率具有一定的差异,且与施用量有关。在相同的柳枝稷茎、叶施用量条件下,叶在土壤中的分解率高于茎的分解率,表明了茎中的有机碳在土壤中周转期比叶中的长,说明施用柳枝稷的茎可以有效地促进土壤有机碳的累积。     

深圳市不同城市密度区中环芳烃的发生、来源及生态风险评估

Urbanization may cause increased exposure levels to polycyclic aromatic hydrocarbons(PAHs) and associated health risks for over half of the world's population living in cities,but little evidence has shown a direct spatial relationship between urbanization and soil PAH pollution.Based on the monitored PAH concentrations in 188 topsoil(0-5 cm) samples in Shenzhen,the most rapidly developing city in China,in recent decades,we applied geographical demarcation to determine the occurrences,source apportionments,and spatial ecological risks of soil PAHs across five zones of varying urban densities.Mean concentrations of the 16 US Environmental Protection Agency(EPA) priority PAHs(Σ_(16)PAHs) and the 7 carcinogenic PAHs(Σ_7CarPAHs) both followed the order:Zone D(60%-80%constructive land density(CLD)) Zone E(80%-100%CLD) Zone C(40%-60%CLD) Zone B(20%-40%CLD) Zone A(0%-20%CLD),suggesting that the highest PAH levels occurred in the suburban-urban center transitional zone(Zone D) rather than the urban center zone(Zone E) in Shenzhen.There were significant correlations of Σ_(16)PAHs to TOC and sampling altitude across all samples but not within highly-urbanized regions(Zones D and E),implying a considerable disturbance of urbanization to the soil PAH pool.Source apportionments suggested that soil PAHs of all zones were mainly derived from fossil fuel combustion,with Zone E showing the highest contribution from oil sources among different zones.Spatial ecological risk analysis showed that the contaminated area(467 km~2;23.9%of total area;toxic equivalency quotients 33 ng g~(-1)) had a higher contribution from the highly-urbanized regions(Zones D and E) than the uncontaminated area(42.3%vs.18.1%).Overall,our study highlighted a strong spatial relationship between urbanization and soil PAH pollution.     

酞酸酯污染土壤微生物效应与过氧化氢酶活性的变化特征

采用室内模拟污染土壤,研究了邻苯二甲酸二(乙基-己基)酯和邻苯二甲酸二丁酯两种酞酸酯类化合物对农田土壤微生物生物量碳、土壤基础呼吸与土壤过氧化氢酶活性及其反应动力学参数的影响。结果表明,DBP土壤浓度在10 mg/kg,DEHP土壤浓度在20 mg/kg以下,与对照相比,微生物生物量碳、土壤基础呼吸以及过氧化氢酶活性没有明显影响。土壤浓度为20 mg/kg的DBP处理对土壤基础呼吸有明显的激活作用。两种化合物在高浓度处理的土壤中,均对微生物生物量碳、土壤基础呼吸以及过氧化氢酶活性表现抑制效应,抑制作用随处理浓度的增加而加强,其中两种化合物土壤浓度为100 mg/kg时,在培养期内三者均没有表现出明显的恢复趋势。对过氧化氢酶Km与Vmax以及Vmax/Km等动力学参数分析表明,DBP与DEHP没有对过氧化氢酶促反应速率以及酶与底物亲和力产生明显影响。     

Soil microbial biomass and activity: the effect of site characteristics in humid temperate forest ecosystems

Microbial biomass, respiratory activity, and in‐situ substrate decomposition were studied in soils from humid temperate forest ecosystems in SW Germany. The sites cover a wide range of abiotic soil and climatic properties. Microbial biomass and respiration were related to both soil dry mass in individual horizons and to the soil volume in the top 25 cm. Soil microbial properties covered the following ranges: soil microbial biomass: 20 µg C g^–1–8.3 mg C g^–1 and 14–249 g C m^–2, respectively; microbial C–to–total organic C ratio: 0.1%–3.6%; soil respiration: 109–963 mg CO₂‐C m^–2 h^–1; metabolic quotient (qCO₂): 1.4–14.7 mg C (g C_mic)^–1 h^–1; daily in‐situ substrate decomposition rate: 0.17%–2.3%. The main abiotic properties affecting concentrations of microbial biomass differed between forest‐floor/organic horizons and mineral horizons. Whereas microbial biomass decreased with increasing soil moisture and altitude in the forest‐floor/organic horizons, it increased with increasing N_tot content and pH value in the mineral horizons. Quantities of microbial biomass in forest soils appear to be mainly controlled by the quality of the soil organic matter (SOM), i.e., by its C : N ratio, the quantity of N_tot, the soil pH, and also showed an optimum relationship with increasing soil moisture conditions. The ratio of C_mic to C_org was a good indicator of SOM quality. The quality of the SOM (C : N ratio) and soil pH appear to be crucial for the incorporation of C into microbial tissue. The data and functional relations between microbial and abiotic variables from this study provide the basis for a valuation scheme for the function of soils to serve as a habitat for microorganisms.     

铅锌矿区污染土壤微生物活性研究

通过野外调查和采样分析，研究了浙江衢州铅锌矿区土壤的微生物、土壤酶活性及植物重金属积累特性。结果表明：矿区污染区土壤Ph、Zn、Cd、Cu全量的平均值分别是对照土壤的267．8倍、132．6倍、41．8倍、17．0倍。矿区植物体内重金属含量与土壤重金属全量和有效态含量呈显著正相关。矿区土壤随着重金属含量的增加，土壤微生物生物量碳逐渐降低，而土壤基础呼吸、微生物代谢商则升高，矿区中心污染土壤微生物生物量碳只有对照土壤的72％，而基础呼吸和微生物代谢商分别是对照土壤的1．6倍和2．3倍。铅锌矿口附近污染区土壤酶活性较低，对照土壤的各种酶活性最高。其中土壤脱氧酶的活性变化最大，作为矿区重金属污染的指标更灵敏。     

小麦秸秆腐解对自身锌释放及土壤供锌能力的影响

为探讨秸秆在土壤中腐解对其本身所含锌的释放及其对土壤原有锌、外源施入锌形态转化以及对微生物量锌（Mic-Zn）含量的影响,进行了为期42 d的小麦秸秆腐解室内培养试验。结果表明,秸秆在土壤中腐解时CO2-C累积释放量和土壤微生物量碳（Mic-C）随着秸秆添加量的增加而显著增加,而秸秆自身锌含量高低以及外源施锌对其均无明显影响。土壤中无论是否添加秸秆,施入外源锌均明显增加了土壤Mic-Zn和土壤有效锌（DTPA-Zn）含量,土壤交换态锌（Ex-Zn）和松结有机态锌（Wbo-Zn）含量也明显增加;与低锌秸秆相比,高锌秸秆在土壤中腐解可明显增加土壤Mic-Zn和DTPA-Zn含量,提高土壤Ex-Zn和Wbo-Zn比例;秸秆腐解本身释放的锌主要转化为有效性较高的Ex-Zn。因此,增加秸秆还田量以及使用高锌秸秆还田能显著增加土壤Wbo-Zn比例,提高土壤有效锌含量,从而增强土壤供锌能力。     

冀北辽河源油松天然林土壤微生物碳代谢特征研究

本文以冀北辽河源地区不同林龄油松天然林为研究对象,研究其土壤微生物生物量碳、微生物呼吸及微生物代谢熵随油松林龄的变化趋势。结果表明:随着油松天然林林龄的增加,土壤微生物生物量碳逐渐增加;而土壤微生物呼吸则呈现出先减小后增加的趋势;微生物代谢熵表现为随油松林林龄的增加而降低。相关性分析表明,土壤微生物生物量碳、微生物呼吸分别与微生物代谢熵之间呈现高度的极显著线性负相关。微生物生物量碳与微生物呼吸呈极显著正相关,但线性相关程度较弱。土壤微生物生物量碳和微生物呼吸与土壤温度和含水量均呈极显著正相关,而土壤微生物代谢熵则与土壤温度、土壤含水量呈极显著负相关。上述结果表明,在冀北辽河源地区,土壤微生物生物量碳、微生物呼吸、微生物代谢熵与油松天然林林龄密切相关。随着油松天然林林龄的增加,其土壤微生物活性增强,碳代谢效率增加,土壤质量及可持续利用潜力更高,土壤生态体系更加成熟。     

铀污染对土壤酶活性及微生物功能多样性的影响

为研究外源铀对土壤微生态的影响,设置不同浓度(0、10、20、50、100、150 mg·kg^-1)的铀对土壤进行处理,测定各铀处理组中土壤酶活性和微生物功能多样性。Biolog-ECO微平板技术分析结果表明,随着铀污染浓度升高,微生物活性逐渐降低;各铀处理组土壤微生物群落Shannon、Simpson、McIntosh多样性指数均显著低于对照组。铀处理后,六大类碳源利用能力较对照组显著降低,其中酚酸类碳源平均颜色变化率(AWCD)仅为对照组的19.98%。对照组中,微生物对胺类碳源利用能力最高;10 mg·kg^-1铀处理组中,微生物对多聚物类碳源利用能力最高;50、100和150 mg·kg^-1铀处理组中,微生物对羧酸类碳源利用能力最高。酶活性分析表明,随着铀污染浓度升高,碱性磷酸酶和芳基硫酸酯酶活性均呈下降趋势,而亚硝酸还原酶活性呈先升高后降低的趋势。纤维素酶活性仅在高浓度铀污染土壤中受到抑制。铀处理第30天,酶活性受到的抑制作用最强。4种酶对铀敏感程度依次为芳基硫酸酯酶>碱性磷酸酶>亚硝酸还原酶>...     

Effect of Different Leaf Litters on Carbon,Nitrogen and Microbial Activities of Sodic Soils

This study investigates the effect of single leaf litter of Terminalia arjuna (Ta) and Prosopis juliflora (Pj), mixed leaf litters [Ta, Pj, Azadirachta indica (Ai) and Albizia procera (Ap)] and paddy straw (Ps; Oryza sativa) on chemical properties and microbial activities of slightly sodic (SS), moderately sodic (MS) and highly sodic (HS) soils during 1 year in vitro decomposition process. For this purpose, equal amount (60 g) of single leaf litter [Ta (C : N = 43) and Pj (C : N = 38)], mixed leaf litters [1/4 of Ta, Pj, Ai and Ap (C : N = 30)] and Ps (C : N = 107) was added to equal amount (600 g) of SS, MS and HS soils. After addition of litters, changes in soil organic carbon (SOC), available nitrogen (N_av), microbial biomass carbon, nitrogen, soil respiration, microbial quotient (C_mic : C_org) and metabolic quotient (qCO₂) were observed at 2 months intervals for the whole year in greenhouse at constant soil moisture. The respective annual increase, at the end of the experiment, in SOC and N_av was highest in MS soil (40% and 45%), whereas soil microbial biomass and soil respiration showed decreasing trend from HS soil (39% and 29%) to SS soil (28% and 21%). The highest SOC was mineralized in the MS (42%) and HS (32%) soils containing litter of Ta; although greater (20%) accumulation of SOC in SS soil was noticed with mixed leaf litters. The study reveals that MS and HS soils comparatively showed fast decomposition of litters and significant increase in carbon, nitrogen and microbial activities. Copyright © 2014 John Wiley & Sons, Ltd.     

重金属污染黄壤生态修复中的微生态效应

以黄壤作为供试土壤,种植重金属富集植物与非富集植物,采用室内培养方法对外加镍污染黄壤的微生物活性及其群落结构进行了研究。结果表明:较低浓度Ni有利于提高土壤微生物活性,当Ni浓度>100 mg/kg时供试土壤的微生物活性开始下降,其中微生物生物碳、氮量和基础呼吸随重金属浓度增加而明显下降,但种植重金属富集植物的土壤下降幅度明显低于种植非富集植物的土壤。结果还显示,镍严重污染破坏了土壤微生物区系,使土壤细菌、放线菌及真菌数量下降,其中放线菌对重金属毒性影响最为敏感,重金属富集植物车前草引起土壤微生物区系的变化较小,表现了良好的修复能力。     

长期冬种绿肥改变红壤稻田土壤微生物生物量特性

以进行了31年的双季稻-冬绿肥长期定位试验的红壤性水稻土为对象,研究了长期冬种绿肥条件下土壤微生物生物量特性的季节变化,为阐释冬绿肥措施在稻田生态系统土壤碳氮转化中的作用机制提供理论基础。试验包括双季稻-紫云英(RRV)、双季稻-冬油菜(RRP)、双季稻-黑麦草(RRG)及双季稻-冬闲(RRF)4个处理,在典型时期(绿肥盛花期、绿肥翻压后、早稻成熟期、晚稻收获后)采集土壤样品,分析土壤微生物生物量碳氮及微生物商等方面的变化。结果表明,3种冬绿肥均提高了土壤微生物生物量碳(SMBC)、微生物生物量氮(SMBN)和微生物商,在土壤性质相对稳定的晚稻收获后均显著高于对照处理,全年平均值也多显著高于对照处理。豆科绿肥紫云英对SMBC和SMBN的提高作用最显著,晚稻收获后相对冬闲分别提高了21.12%和98.45%,全年平均值分别提高了15.92%和36.49%。取样时期对SMBC、SMBN和微生物商有较大的影响,但变化趋势基本一致,即绿肥翻压前后无明显变化,早稻成熟期降至最低,至晚稻收获后再次上升。SMBC/SMBN比值在不同绿肥处理间差异不大,但有明显的季节变化,早稻成熟期较高而晚稻收获后降低。因此,南方稻田冬种绿肥后土壤微生物特性明显改善,冬种绿肥是提升稻田土壤肥力的高效措施。     

长期氮肥施用对玉米根茬矿化分解的影响

通过室内培养和田间分解试验,研究了施氮量为N 0、120和240 kg/hm2处理的玉米根茬(R0、R120、R240)在15和45 cm两个肥力条件不同的土层中有机碳矿化分解特性及其对土壤活性有机碳组分的影响。结果表明,在室内矿化培养条件下,根茬CO2累积释放量和潜在碳矿化量均为R120R240R0;R120和R240根茬碳矿化率在表层土壤(15 cm)和底层土壤(45 cm)中分别较R0提高21.1%、12.7%和45.3%、33.7%。在田间埋藏分解条件下,分解386 d后R0、R120和R240根茬碳残留率在表层土壤中分别为36.3%、25.2%和28.7%,在底层土壤中分别为38.4%、30.6%和31.1%;根茬碳残留率与其C/N、木质素含量以及木质素/N正相关,而与根茬全氮含量呈负相关关系,表明根茬分解率随着其本身全氮含量的增加而提高;添加玉米根茬显著增加土壤微生物量碳含量143%~297%,增加土壤可溶性有机碳含量19.9%~118.2%。综上可见,长期施用氮肥影响作物根系的养分组成,显著提高其全氮含量,在评价土壤碳、氮养分循环时,应注重长期氮肥施用对作物残茬养分累积及其在土壤中分解、转化的影响。