土壤变暖对土壤微生物活性的影响

讨论了土壤变暖对土壤微生物活性的影响及其后果。许多研究表明，土壤呼吸与土壤温度呈正相关关系。描述这种关系所用的模式有线性回归分析、A10关系式、幂关系式、Arrhenius关系式及其它关系式，但这些模式通常不能准确地估计呼吸率。尽管如此，几乎所有的研究都显示土 壤温度强烈地影响土壤微生物活性及呼吸。在一定温度范围内，土壤变暖提高土壤微生物活性及呼吸率。解释这种现象的一种机制是微生物群体组成随温度升高而改变。文章最后指出，为了得出更加的结论及更加准确地预测全球变暖对土壤的影响，应进一步加强土壤变暖对土微生物活性的影响的研究。     

甲胺磷对土壤微生物活性的影响

研究了有机磷杀虫剂甲胺磷在５种没的浓度下对土壤微生物性所产生的影响,结果表明,甲胺磷地细菌、放线菌和固氮菌群的生长具有不同程度的抑制作用,而对真菌却有一定的刺激效应;土壤的呼吸作用、氨化作用增强,自生固氮能力、硝化作用以及铁离子价数转换作用减弱,甲胺磷对土壤微生物活性的影响,随着处理浓度的提高,作用强度、作用时间有所加剧和延长。     

夜间增温对冬小麦土壤微生物量碳氮及其活性的影响

全球气候变暖存在明显的昼夜不对称性,夜间气温升高幅度显著高于白天,但目前关于夜间增温对土壤微生物影响的田间研究尚较少。为此,本研究采用夜间被动式增温系统(passive nighttime warming,PNW),在我国冬小麦主产区(石家庄、徐州、许昌和镇江)进行全生育期田间增温试验,于2008—2010年监测了土壤微生物对夜间增温的响应。结果显示,与不增温对照相比,夜间增温可显著降低土壤微生物量碳、氮含量和微生物活性。冬小麦整个生育期中,夜间增温分别使石家庄、徐州、许昌和镇江试验点土壤微生物量碳平均降低11.4%、7.8%、10.9%和8.5%,微生物量氮平均降低15.2%、16.7%、13.8%和8.4%,微生物呼吸速率平均下降6.6%、9.6%、7.0%和11.1%。在整个增温过程中,石家庄、徐州、许昌和镇江试验点土壤水分含量分别下降8.8%、3.7%、3.8%和2.9%,与对照相比差异不显著。同时,该夜间增温系统使相应试验点0~5 cm土层的温度分别提高1.2℃、0.7℃、0.7℃和0.7℃。本试验表明,夜间增温将可能通过改变土壤微生物特性而影响土壤碳/氮循环,从而影响到土壤养分供应和冬小麦生长;且表现出了一定的纬度差异性。     

不同碳氮比有机肥对有机农业土壤微生物生物量的影响

有机肥能提高土壤微生物活性, 改善土壤品质。碳氮比是影响有机肥肥效的重要因素。本试验以无肥处理为对照(CK), 设置4个有机肥碳氮比处理(20︰1、15︰1、10︰1、5︰1), 在温室中进行茄子盆栽试验, 定期采集土壤样品, 用熏蒸提取法测定土壤微生物生物量碳(SMBC)、氮(SMBN), 研究等氮条件下不同碳氮比有机肥料对土壤生物活性的影响。试验结果表明, 不同碳氮比的有机肥均能提高土壤的SMBC和SMBN含量, 具体表现为SMBC: 20︰1>10︰1≈15︰1>5︰1>CK, SMBN: 15︰1>10︰1>20︰1>5︰1>CK。SMBC/SMBN的比率反映土壤氮素生物活性, 其值越低, 生物活性越大, 氮素损失越少, 本试验SMBC/SMBN表现为: 15︰1<10︰1<20︰1≈5︰1相似文献   

有机农业施肥方式对土壤微生物活性的影响研究

综述了国内外有机农业施肥方式对培肥土壤及土壤主要微生物活性的影响，有机农业施肥方式显著增加土壤微生物数量，调控微生物种群结构，提高土壤有益微生物种群数量，土壤微生物量C、N含量倍数增加。阐明施用有机肥料对维持土壤微生物多样性与生态稳定性的必要性，并展望了施用有机肥与土壤微生物活性的关系。     

不同施肥措施对棉田土壤微生物量及其活性的影响

通过测定不同施肥措施下棉田土壤微生物量及微生物活性的动态变化,探讨了不同施肥措施对棉田土壤的培肥效应,结果表明,有机肥合理配施N、P、K化肥,可以促进土壤微生物量显著增长,土壤呼吸强度、纤维素分解强度等微生物活性指标明显提高,增强了土壤养分容量及供应强度,有利于培肥土壤。     

添加木醋液对沙地土壤微生物生物量和酶活性的影响

[目的]探讨沙地添加木醋液后土壤微生物生物量和酶活性的变化,为沙地土壤生物学质量的改良提供理论依据。[方法]采用盆栽植草培养法,以添加自来水为对照,对沙地添加不同稀释倍数(200,150,100,50,20)木醋液后的土壤可溶性有机碳、氮和酚,土壤微生物生物量碳氮以及土壤酶活性进行研究。[结果]向沙土添加木醋液可以显著降低土壤pH值,显著提高土壤易氧化碳、土壤水溶性碳氮、土壤可溶性酚以及无机氮的含量。在添加木醋液稀释高于50倍范围内,随木醋液稀释倍数降低,土壤微生物生物量碳氮增加以及β-糖苷酶、碱性磷酸酶和脱氢酶活性提高。添加稀释20倍的木醋液,导致土壤微生物生物量碳氮以及β-糖苷酶、碱性磷酸酶和脱氢酶活性有所降低。在高于20的稀释倍数范围内,随着施用木醋液稀释倍数的降低,α-糖苷酶、亮氨酸氨基肽酶、酸性磷酸酶和酚氧化酶的活性有显著增加的趋势。[结论]添加不同稀释倍数的木醋液会影响沙地土壤微生物生物量和酶活性。     

近自然杉木林经营对土壤微生物量碳氮特征的影响

在福建农林大学西芹教学林场,比较不同近自然杉木林经营模式(老龄林、萌芽林)与对照(91年二代杉木人工林(炼山)、93年二代杉木人工林(不炼山)、天然林)的土壤微生物量碳氮(MBC、MBN)含量的差异。结果表明:近自然杉木林经营模式(老龄林、萌芽林)和天然林的各层次土壤MBC、MBN含量及其占土壤全碳(TC)和全氮(TN)的比例均高于91年二代杉木人工林和93年二代杉木人工林;土壤MBC含量与土壤MBN含量呈显著正相关;土壤MBC/MBN除在0~10 cm土层,91年二代杉木人工林略高于老龄林外,其它土层均以老龄林最高;从土壤的垂直分布特征来看,5种模式的各层次土壤MBC、MBN含量大小依次均为0~10 cm10~20 cm20~40 cm40~60 cm,即呈现出土壤MBC、MBN含量随土层的加深而降低的趋势。说明近自然杉木林经营模式(老龄林、萌芽林)更有利于土壤微生物的繁殖与生长,具有较高的土壤肥力。     

不同干扰强度下农业生态系统土壤微生物生物量和活性的分异

Different management practices in six agroecosystems located near Goldsboro, NC, USA were conducted including a successional field (SU), a plantation woodlot (WO), an integrated cropping system with animals (IN), an organic farming system (OR), and two cash-grain cropping systems employing; either tillage (CT) or no-tillage (NT) to examine if and how microbial biomass and activity differ in response to alterations in disturbance intensity from six land management strategies. Results showed that soil microbial biomass and activity differed, with microbial activity in intermediately disturbed ecosystems (NT, OR, IN) being significantly higher (P < 0.01) than systems with either high or low disturbance intensities. There was also a significant and a highly significant ecosystem effect from the treatments on microbial biomass C (MBC) (P < 0.05) and on microbial activity (respiration) (P < 0.01), respectively. Multiple comparisons of mean respiration rates distinctly separated the six ecosystem types into three groups: CT < NT, SU and WO < OR and IN. Thus, for detecting microbial response to disturbance changes these results indicated that the active component of the soil microbial community was a better indicator than total biomass.     

旅游踩踏对张家界国家森林公园土壤微生物区系及活性的影响

随着旅游业成为世界第一大产业，由其对生态环境所造成的破坏就越来越严重，也引起了人们的高度重视，有关旅游对生态环境的影响研究已成为当今环境与旅游的重点之一。微生物是生物圈的三大成员之一，也是土壤圈、水圈的活跃成员。土壤微生物是土壤的重要组成部分，是土壤物质转化的重要参与者，同时又是一个重要而丰富的基因库，是生物多样性与生态平衡的一个重要方面，土壤微生物的平衡发展也是预防植物病害发生的基础。由于有机质转化所需能量的90％以上来自微生物的分解作用，因此，土壤微生物活度总量是土壤-植物体系中有机质转化的较好指标。土壤质地、肥力及植被等都直接影响着土壤微生物的活性及其多样性。国内外研究表明，旅游活动对土壤有机质、土壤水分、土壤物理性状、植物多样性、景观、土壤流失及动物多样性等方面都产生了严重的影响，     

黄土高原中国松人工林演替过程中的土壤微生物和酶活性

Successional and seasonal effects on soil microbial and enzymatic properties were studied in Chinese pine (Pinus tabu- laeformis) plantations in an age sequence of 3-, 7-, 13-, 21- and 28-year-old in northern Ziwuling region in the middle of Loess Plateau, China. The results indicated that plantation age and season affected soil microbial and enzymatic parameters significantly. Soil organic C, total N, microbial biomass C, microbial quotient, basal respiration, dehydrogenase, N-α-benzoyl-L-argininamide (BAA)-protease, urease and β-glucosidase increased quickly and tended to be highest at PF21 (21-year plantation), thereafter they remained nearly at a constant level, whereas the metabolic quotient (qCO 2 ) showed an initial increase and then decreased gradually. Measures of these soil properties showed significant seasonal fluctuations except for organic C and total N, which were found to be relatively stable throughout the study period, and the seasonal distributions were autumn spring summer winter for microbial biomass C, microbial quotient, dehydrogenase, and β-glucosidase; autumn summer spring winter for BAA-protease and urease; and summer autumn spring winter for basal respiration and qCO 2 . Significant season × age interaction was observed for biomass C, basal respiration, dehydrogenase and BAA-protease.     

铅污染对青紫泥微生物活性的影响

土壤微生物量碳、基础呼吸作用、土壤代谢商是表征土壤质量的重要指标,并且与土壤本身的理化性质有关。脱氢酶活性是土壤微生物种群及其活性的重要敏感性指标之一。通过室内培养,研究了不同铅添加水平(200~1 200 mg/kg)对青紫泥田微生物生物量碳及土壤基础呼吸作用、土壤代谢商、土壤脱氢酶的影响。研究表明:随培养时间延长,青紫泥田生物量碳呈下降趋势,基础呼吸作用随铅浓度升高而加强。土壤代谢商随培养时间延长变化趋势不同。外源铅胁迫下土壤脱氢酶活性随铅处理浓度升高明显受抑制。相关分析表明,土壤铅含量与土壤微生物生物量碳、脱氢酶在不同培养时期相关性不同。     

Evaluation of the Effects of Soil Depth on Microbial Activity in Three Agroecosystems in Venezuela

The objective of this study was to determine the total organic carbon (TOC), basal respiration (BR), microbial biomass carbon (MBC), the metabolic quotient (qCO₂), and ratio of microbial biomass carbon to total organic carbon (MBC/TOC) at different soil depths in three agroecosystems in Fundo Zamorano Independencia, Cojedes State, Venezuela. The types of agroecosystems studied were short-cycle corn and bean cropland, pastureland, and gallery forest, which was used as the control soil. The BR was determined by measuring the carbon dioxide released in a closed system, and the MBC was analyzed by applying the substrate-induced respiration method. The BR and the MBC varied depending on depth and transect position, decreasing between 18% and 38% at a depth of >10 cm with respect to the measurements taken between 0 and 10 cm. Significantly greater BR and MBC values were found at the middle transect position, where the soils with the greatest moisture content are located. No significant differences for BR, MBC, and qCO₂ values were found among the agroecosystems. This was due to the high spatial variability of the physical and chemical properties of the soils in the study site. However, with the application of the Kruskal–Wallis test, significant differences for the TOC and MBC/TOC values were found among the agroecosystems. These results highlight the importance of the type of plant cover over soil in different agroecosystems, mainly on pastureland, which maintains the potential of the inocular mycorrhizal of the soil.     

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。     

长期重金属胁迫下的土壤微生物特征: 沈阳张士污灌区的案例研究

Soil samples were collected from Zhangshi Wastewater Irrigation Area in the suburb of Shenyang City, China, an area with a 30-year irrigation history with heavy metal-containing wastewater. The chemical properties and microbial characteristics of the soils were examined to evaluate the present situation of heavy metal pollution and to assess the soil microbial characteristics under long-term heavy metal stress. In light of the National Environmental Quality Standards of China, the soil in the test area was heavily polluted by Cd and to a lesser degree by Zn and Cu, even though wastewater irrigation ceased in 1993. Soil metabolic quotient （qCO2） had a significant positive correlation, while soil microbial quotient （qM） had a negative correlation with content of soil heavy metals. Soil microbial biomass carbon （MBC） had significantly negative correlation with Cd, but soil substrate~induced respiration （SIR）, dehydrogenase activity （DHA）, cellulase activity, and culturable microbial populations had no persistent correlations with soil heavy metal content. Soil nutrients, except for phosphorous, showed positive effects on soil microbial characteristics, which to a certain degree obscured the adverse effects of soil heavy metals. Soil Cd contributed more to the soil microbial characteristics, but qM and qCO2 were more sensitive and showed persistent responses to heavy metals stress. It could be concluded that qM and qCO2 can be used as bioindicators of heavy metal pollution in soils.     

植茶年龄对茶园土壤微生物特性及酶活性的影响

分析了浙江省两个典型茶区土壤化学、微生物学性质以及酶活性。结果表明,茶园土壤的酸化程度随植茶年龄的增加而加重,土壤有效态N以NO-3 N为主。两茶区高龄茶园的土壤微生物量均很低,表明长期植茶形成的独特生态环境对微生物有抑制作用。两茶园土壤微生物代谢商(Rmic/Cmic)都较非茶园对照土壤低,并且随植茶年龄的增加,两者呈相似的变化趋势。土壤微生物商的变化可能与茶园土壤环境胁迫状况有关,低龄茶园的土壤微生物商(Cmic/Corg)高于非茶园对照土壤,也明显高于高龄茶园。土壤有机碳,全N ,有效P ,NH-4 N ,NO-3 N ,脲酶和酸性磷酸酶活性均随植茶年龄的增加而增加,而与土壤pH值呈相反的变化趋势     

Dynamics of microbial biomass in Cambisols under a three year succession fallow in North Eastern Saxony

The response of microbial biomass carbon (C_mic), nitrogen (N_mic), basal respiration, and the metabolic quotient to 3 years of a natural succession fallow were studied in a field experiment on sandy soil in Northeast Saxony/Germany from 1996 to 1998. Soil samples were taken from Eutric Cambisol and Mollic Cambisol every six weeks during the vegetation period at soil depths of 0—10 and 10—30 cm. The C_mic content in the topsoils increased with time of succession in both soil types. This trend was more distinct in the Mollic Cambisol (70.7 μg g^—1 in June 1996 to 270.9 μg g^—1 in October 1998 at 0—10 cm) than in the Eutric Cambisol (69.7 μg g^—1 in June 1996 to 175.0 μg g^—1 in October 1998 at 0—10 cm). By contrast, the N_mic content slightly decreased in the Eutric Cambisol from 18.9 μg g^—1 to 17.7 μg g^—1 during the same time period. In the Mollic Cambisol, the N_mic increased from 18.8 μg g^—1 in spring 1996 to 35.5 μg g^—1 in fall 1998, however to a lower extent than the C_mic. Subsequently, the (C:N)_mic ratio increased from 4.3 to 5.8 at soil depth of 0—10 cm and from 3.5 to 6.5 at 10—30 cm during the 3‐year‐study at the Eutric Cambisol. In the Mollic Cambisol, the enhancement of (C:N)_mic ratio was more pronounced (i.e. from 4.3 to 6.7 at 0—10 cm and from 3.5 to 7.2 at 10—30 cm). Most likely this results from a shift in microbial populations towards a dominance of soil fungi. The already low basal respiration of, on average, 0.26 mg CO₂ g^—1 (24h)^—1 (0—10 cm) in June 1996 decreased with time of succession fallow to 0.15 and 0.22 mg CO₂ g^—1 (24h)^—1 in October 1998 in the Eutric and the Mollic Cambisol, respectively. Thus, the metabolic quotient as an indicator for the efficiency of organic matter turnover in soil was very low in both soils. During the summer months, the metabolic quotients reached minimum levels of ≤ 0.1 μg CO₂ C (g C_mic)^—1 h^—1, probably because of low soil moisture contents. Correlation analyses revealed close relationships between N_mic and total N, N_mic and water content, and N_mic and pH values. These relationships became even more pronounced with the time period of natural succession. For the samples from fall 1998, highly significant correlations were determined between N_mic and total N (coefficients were r_s = 0.91^***), N_mic and water content (r_s = 0.91^***), and N_mic and pH value (r_s = 0.76^***). The values for all biological parameters studied were larger in the Mollic than in the Eutric Cambisol. This indicates higher turnover rates of different C and N fractions in the Mollic Cambisol. In general, set aside of formerly agricultural managed sandy soils resulted in greater C_mic : N_mic ratios and thus, in a change in the microbiological community structure as well as in reduced C and N turnover rates (i.e. low metabolic quotient) under the climatic conditions of the East German lowlands.     

Consequences of forest conversion to pasture and fallow on soil microbial biomass and activity in the eastern Amazon

The main change in soil use in Amazonia is, after slash and burn deforestation followed by annual crops, the establishment of pastures. This conversion of forest to pasture induces changes in the carbon cycle, modifies soil organic matter content and quality and affects biological activity responsible for numerous biochemical and biological processes essential to ecosystem functioning. The aim of this study was to assess changes in microbial biomass and activity in fallow and pasture soils after forest clearing. The study was performed in smallholder settlements of eastern Brazilian Amazonia. Soil samples from depths of 0–2, 2–5 and 5–10 cm were gathered in native forest, fallow land 8–10 yr old and pastures with ages of 1–2, 5–7 and 10–12 yr. Once fallow began, soil microbial biomass and its activity showed little change. In contrast, conversion to pasture modified soil microbial functioning significantly. Microbial biomass and its basal respiration decreased markedly after pasture establishment and continued to decrease with pasture age. The increase in metabolic quotient in the first years of pasture indicated a disturbance in soil functioning. Our study confirms that microbial biomass is a sensitive indicator of soil disturbance caused by land‐use change.     

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。     

Soil organic matter quality and microbial activities in spruce swamp forests affected by drainage and water regime restoration

The effect of spruce swamp forest (SSF) drainage and water regime restoration on soil organic matter (SOM) quality and soil microbial heterotrophic activities was studied in pristine, drained and restored SSF in the Bohemian Forest, Czech Republic. Sequential chemical SOM fractionation using cold and hot water and hot acid was used to separate SOM fractions according to their mobility and potential lability/recalcitrance, and Fourier transform infrared spectra were used for SOM characterization. Soil physicochemical parameters and heterotrophic microbial activities were also determined. Drainage of SSF had significant long‐term effects (more than 50 yr) on plant communities and SOM quality. On drained sites, cover of sphagnum moss and sedge was much smaller than on pristine locations. A greater proportion of recalcitrant compounds and a smaller proportion of labile compounds were found in drained SSF as compared to pristine sites, which first led to an energy limitation and was followed by a decrease in microbial biomass and heterotrophic microbial activities (CO₂ production, methanogenesis and methanotrophy). Restoration resulted in slow progressive changes in the vegetation cover, including the spread of sphagnum mosses, retreat of mosses typical of drier conditions and increased sedge cover compared with drained SSF. Moreover, soil physicochemical parameters (pH and bulk density), hot‐water‐extractable C and methanotrophic activity tended to evolve towards the pristine SSF and seem to be good indicators of the restoration process. No other SOM fractions changed significantly after restoration. Thus, to change significantly overall SOM quality and most microbial heterotrophic activities following restoration, more than 7 yr are required.