种植Bt玉米对土壤微生物活性和肥力的影响

在温室种植比较了美国Bt玉米(34B2 4 (Mon810 ) )与同源常规玉米(34B2 3)、中国Bt玉米(12 4 6×14 82 (Cry1A) )与常规玉米(农大3138)对土壤微生物活性和肥力的影响。结果表明,两个Bt玉米品种5次取样(2 5、39、5 3、6 7、82 d)的根际土壤中都能检测到Bt蛋白,含量在2 0～80 ng·g- 1 dry soil之间。4个处理土壤硝化作用和精氨酸氨化作用强度在所有取样时期均没有显著差异;土壤蔗糖酶、土壤蛋白酶和酸性磷酸酶活性则分别只在2 5 d(农大3138<34B2 4与12 4 6×14 82 )、6 7d(34B2 4 >12 4 6×14 82和农大3138)和6 7d(34B2 4 >其它3个处理)存在显著差异;土壤脱氢酶、土壤脲酶和土壤呼吸强度则在多数取样时期多个处理间存在显著差异,说明其与玉米品种特性关系密切,其中,土壤脱氢酶和脲酶活性的差异在两个Bt玉米品种、Bt与同源常规品种(34B2 4与34B2 3)、Bt与常规品种(12 4 6×14 82与农大3138)以及常规与常规品种(34B2 3与农大3138)之间均没有一致的规律,但34B2 4与34B2 3处理的土壤呼吸作用强度高于12 4 6×14 82与农大3138,说明种植该系列品种的土壤中微生物总活性较高、土壤代谢旺盛。82 d后4个处理土壤有机质、NPK全量与速效养分含量均没有显著差异。本试验观测期种植Bt玉米并没有导致土壤微生物活性和土     

保护性耕作对土壤微生物量及活性的影响

研究保护性耕作对土壤微生物特性的影响对于土壤管理具有重要意义。试验研究了保护性耕作对麦田土壤微生物量碳、活跃微生物量、土壤呼吸、呼吸商的影响。前3项采用的方法分别是:基质诱导呼吸法、呼吸曲线数学分析法和CO2释放量法。结果表明,保护性耕作土壤微生物量碳0～10cm土层大于10～20cm土层,而常规耕作两土层间无明显差异。秸秆还田在播种前、越冬期和起身期能显著提高土壤微生物量碳,而开花期和收获期则降低土壤微生物量碳。少耕还田10～20cm土层微生物具有较强的养分调控作用。保护性耕作利于0～10cm土层活跃微生物量的提高。秸秆还田和保护性耕作在耕作作业初期(越冬期和起身期)能增强土壤呼吸速率;在耕作作业后期(开花期和收获期)能显著降低土壤呼吸速率。免耕秸秆覆盖在10～20cm土层呼吸商较高,而常规耕作无秸秆还田在0～10cm土层呼吸商较高。土壤微生物量碳和呼吸商是衡量土壤微生物特性的重要指标。     

Effects of three herbicides on soil microbial biomass and activity

Three post-emergence herbicides (2,4-D, picloram and glyphosate) were applied to samples of an Alberta agricultural soil at concentrations of 0, 2, 20, and 200 μg g⁻¹. The effects of these chemicals on certain microbial variables was monitored over 27 days. All herbicides caused enhancement of basal respiration but only for 9 days following application, and only for concentrations of 200 μg g⁻¹. Substrate-induced respiration was temporarily depressed by 200 μg g⁻¹ picloram and 2,4-D, and briefly enhanced by 200 μg g⁻¹ glyphosate. It is concluded that because changes in microbial variables only occurred at herbicide concentrations of much higher than that which occurs following field application, the side-effects of these chemicals is probably of little ecological significance.     

Effects of phosphorus-mobilizing bacteria on tomato growth and soil microbial activity

Aims

The aim of our study was to clarify whether inoculating a soil with Pseudomonas sp. RU47 (RU47) bacteria would stimulate the enzymatic cleavage of organic P compounds in the rhizosphere and bulk soil, promoting plant growth. Adding either viable or heat treated RU47 cells made it possible to separate direct from indirect effects of the inoculum on P cycling in soil and plants.

Methods

We performed a rhizobox experiment in the greenhouse with tomato plants (Solanum lycopersicum) under low P soil conditions. Three inoculation treatments were conducted, using unselectively grown soil bacteria (bacterial mix), heat treated (HT-RU47) and viable RU47 (RU47) cells, and one not inoculated, optimally P-fertilized treatment. We verified plant growth, nutrient availability, enzyme activities and microbial community structure in soil.

Results

A plant growth promotion effect with improved P uptake was observed in both RU47 treatments. Inoculations of RU47 cells increased microbial phosphatase activity (PA) in the rhizosphere.

Conclusions

Plant growth promotion by RU47 cells is primarily associated with increased microbial PA in soil, while promotion of indigenous Pseudomonads as well as phytohormonal effects appear to be the dominant mechanisms when adding HT-RU47 cells. Thus, using RU47 offers a promising approach for more efficient P fertilization in agriculture.

     

Diurnal fluctuations in soil water potential

Summary Field data collected from thermocouple psychrometers operated under the control of an automatic switching network and scanning system are presented. A numeric interpolation procedure is described which permits corrections for varying sensitivity of the psychrometers over a wide range of temperatures and water potentials. Psychrometers installed in ceramic cups buried in soil permeated by an active root system showed a significant day-to-night fluctuation in water potential coincident with the evaporative demands of the plant.     

Effect of alginite amendment on microbial activity and soil water content in forest soils

The effect of the amendment with alginite, an organic rock originating from the biomass of fossilized unicellular algae, on microbial activity of forest soils was tested using a pot experiment. Five variants of soil-alginite mixtures were tested in three replicates with two forest soils: a loose sandy soil and a sandy loam. Gravimetric moisture closely correlated with the dose of alginite in both soils. Basal respiration and catalase activity increased with the dose of alginite in the sandy soil, but not in the sandy loam, where the highest response was observed at intermediate doses of alginite. The correlations of microbial activity parameters with moisture in the sandy soil were also much closer than in the sandy loam. The amendment with alginite was thus effective in improving some of the selected microbial activity indicators, but the optimum dose of alginite strongly depends on soil texture.     

水肥处理对黄瓜土壤养分、酶及微生物多样性的影响

以津优1号黄瓜为试材,设3个土壤相对含水量水平（50%～60%、70%～80%、90%～100%）和2个肥料追施量（600 kg N·hm^-2和420 kg P₂O₅·hm^-2,420 kg N·hm^-2和294 kg P₂O₅·hm^-2）处理,研究了不同水肥供应对日光温室黄瓜土壤养分、酶活性及微生物多样性的影响.结果表明：土壤中NH₄⁺-N含量随施肥量的增加而提高,随土壤相对含水量的增加而降低;水肥供给的增加有利于提高土壤中速效磷含量和蔗糖酶活性;肥料增加使土壤中蛋白酶活性降低,而水分降低使土壤中脲酶活性提高.土壤中微生物多样性与土壤中养分含量无显著相关性,与土壤脲酶活性呈显著正相关,与蔗糖酶活性呈显著负相关.土壤相对含水量70%～80%、氮肥追施量600 kg N·hm^-2和420 kg P₂O₅·hm^-2处理的土壤养分含量、蔗糖酶、磷酸酶和脲酶活性较高,且土壤中微生物多样性和均匀度显著高于其他处理,土壤生产潜力最优.     

Effects of heavy metals on microbial activity of water and sediment communities

The effects of Cd²⁺, Cr³⁺ and Zn²⁺ on the microbial activity of water and sediment samples from a contaminated stream were studied. The maximum [¹⁴C]glucose uptake (V_max) and the mineralization (¹⁴CO₂) rates were determined. A 10% reduction in V_max was obtained at lower metal concentrations in water samples than in sediment ones. Moreover, a 10% decrease in ¹⁴CO₂ was observed at significantly minor metal levels, so ¹⁴CO₂ was more sensitive to evaluated heavy metal pollution. On the basis of MICs obtained for both communities, they were more sensitive to Cd²⁺ than to Cr³⁺ and Zn²⁺. Zinc was less inhibitory to V_max and ¹⁴CO₂ rates; Cr³⁺ showed an intermediate toxicity, and Cd²⁺ was 10–100 times more inhibitory than the other metals.     

海拔对高山峡谷区土壤微生物生物量和酶活性的影响

为了解土壤微生物生物量和酶活性随海拔的变化特征,以川西海拔1563 m到3994 m的高山峡谷区的干旱河谷、干旱河谷-山地森林交错带、亚高山针叶林、高山森林和高山草甸土壤为研究对象,采用原位培养法研究了5种不同海拔生态系统中有机层(0～15 cm)和矿质层(15～30 cm)土壤微生物生物量碳氮、土壤蔗糖酶、脲酶及酸性磷酸酶活性的变化.结果表明:有机层土壤中微生物生物量碳氮和3种土壤酶活性呈现出先增加后减少再增加的变化特征,从2158 m开始不断增加,到3028 m左右达到峰值后减少,在3593 m出现最小值后,逆势增加直到3994 m后再次减少;矿质层土壤的微生物生物量碳氮和3种土壤酶活性表现为亚高山针叶林(3028 m)>高山草甸(3994 m)>干旱河谷-山地森林交错带(2158 m)>高山森林(3593 m)>干旱河谷(1563 m).各海拔梯度土壤有机层的微生物生物量和酶活性显著高于矿质层.高山峡谷区土壤微生物生物量与土壤酶活性呈极显著正相关.土壤微生物生物量和土壤酶与土壤含水量、有机碳和全氮呈极显著正相关,土壤蔗糖酶与土壤全磷含量呈极显著正相关,土壤酸性磷酸酶与土壤全磷和土壤温度呈极显著正相关.可见,高山峡谷区海拔变化引起的植被和其他环境因子的变化显著影响了土壤生化特性.     

硫对铅污染水稻土微生物活性及群落结构的影响

对含有不同浓度铅的水稻土添加硫代硫酸钠进行土培试验,研究硫作用下铅污染水稻土微生物活性及群落结构的变化.结果表明:添加硫底物后,土壤的氧化还原电位(Eh)升高,呼吸强度增强,硫氧化菌的数量显著增加.硫促进了土壤中硫氧化菌等微生物的生长并引起群落结构的变化,克隆测序表明,加硫处理下土壤微生物的特异性条带与拟杆菌、硫杆菌、β-变形菌和嗜酸菌具有很高的相似性.硫处理下土壤碳酸盐结合态及铁锰结合态铅含量发生了显著变化.     

土壤样品长期保存对微生物群落代谢活性和功能类群的影响

【目的】评估土壤长期保存(4个月)对土壤微生物群落代谢活性的影响。【方法】采用Biolog? EcoPlateTM生态板研究4 °C风干保存和?20 °C低温冻存的农田土壤和森林土壤中微生物群落的碳源利用模式。【结果】与新鲜土壤样品相比,长期保存的土壤样品的微生物群落对碳源的利用能力大大降低,其多样性、均匀度和Simpson指数均降低;风干保存和低温冻存两者对土壤微生物的碳源利用的影响没有显著差异;除风干保存的土壤样品中利用多聚物类的微生物类群的代谢活性外,两种保存方法显著降低微生物群落的代谢活性,降低幅度为54.5%–99.8%。【结论】长期保存土壤可能会导致对微生物群落信息的低估,土壤微生物代谢活性研究的最佳样品为新鲜 土壤。     

供水及间甲酚对小麦间作蚕豆土壤微生物多样性和酶活性的影响

通过盆栽试验,探讨供水(田间持水量的45%、60%和75%)和化感物质间甲酚对小麦、蚕豆不同种植模式生长盛期土壤微生物多样性和酶活性的影响.结果表明,随灌水水平的降低,不同处理的土壤细菌、真菌和放线菌数量随之减少,间甲酚可加剧灌水减少引起的微生物数量的减少;间甲酚对不同处理土壤微生物多样性指数均具有降低作用,提高灌水水平可缓解间甲酚对间作群体土壤微生物多样性的负效应,但间甲酚在75%灌水水平下对单作微生物多样性的负效应最大,45%的供水水平和间甲酚作用下间作可维持更高的土壤微生物多样性.间甲酚对土壤过氧化氢酶的化感作用不显著,对脲酶和酸性磷酸酶活性的化感作用显著;3种土壤酶活性随供水水平的降低均显著下降,但供水与间甲酚、种植模式的互作效应对酶活性的影响不显著;间作对土壤过氧化氢酶和酸性磷酸酶活性具有极显著影响.     

蚯蚓和秸秆对铜污染土壤微生物类群和活性的影响

试验设置4个Cu浓度水平：0、100、200和400 mg·kg^-1 Cu²⁺,每个Cu浓度水平设置4个处理：对照(CK)、表施秸秆(M)、接种蚯蚓(E)、同时加入蚯蚓和秸秆(ME),研究了在Cu污染土壤中加入蚯蚓和秸秆对土壤微生物数量及活性的影响.结果表明：Cu污染、秸秆和蚯蚓均明显影响土壤微生物类群; Cu污染对细菌、放线菌具有抑制作用,而对真菌没有影响;秸秆显著提高了真菌数量;蚯蚓使土壤细菌、放线菌数量显著增加,而对真菌数量影响不大.Cu污染浓度＞200 mg·kg^-1处理对微生物量碳具有抑制作用;加入秸秆或蚯蚓,可显著提高土壤微生物量碳,而且同时加蚯蚓和秸秆处理土壤微生物量碳增加最显著.加入蚯蚓和秸秆后,土壤呼吸值显著增高.Cu<200 mg·kg^-1时,蚯蚓处理土壤呼吸值最大,平均比对照高3.06～5.58倍;Cu≥200mg·kg^-1时,蚯蚓、秸秆同时加入处理土壤呼吸值最高.4个处理土壤代谢商大小顺序为：ME>E>M>CK.蚯蚓和秸秆处理对土壤NH₄⁺-N没有影响,而对土壤NO₃^--N影响各异.接种蚯蚓,可显著提高土壤NO₃^--N含量;加入秸秆,可显著降低土壤NO₃^--N含量;同时加入蚯蚓和秸秆处理NO₃^--N含量最低.相关分析表明,土壤有效态Cu(DTPA-Cu)与土壤放线菌、细菌呈显著负相关,而与土壤呼吸、土壤NO₃^--N、NH₄⁺-N含量呈显著正相关.引入秸秆和蚯蚓,可在一定程度上减缓Cu污染对微生物数量和活性的影响.     

含铜有机肥对土壤酶活性和微生物群落代谢的影响

以猪粪和麦秆为原料,向原料中添加不同浓度硫酸铜溶液模拟原料铜污染堆制有机肥,通过小白菜盆栽试验施用堆制腐熟的有机肥,研究其对土壤酶活性及群落功能多样性的影响。结果表明,与CK处理(Cu质量分数10.35mg/kg)相比,L处理(Cu质量分数300.00mg/kg)的脱氢酶活性下降了64.75%,H处理(Cu质量分数900.00 mg/kg)的脱氢酶活性下降了90.66%。在Biolog生态测试板(ECO Microplate)温育过程中,CK处理的AWCD值(Average Well Color Development)始终大于L处理和H处理。与CK处理相比,L处理和H处理96h的AWCD值分别下降了3.55%、36.59%,CK处理显著高于H处理(P<0.01)。多样性指数对含Cu有机肥有不同的响应,L处理的shannon指数最高,H处理的simpson指数最高,CK处理的Mclntosh指数及Mclntosh均匀度最高。主成分分析结果表明,对3个处理起分异作用的碳源主要是糖类和羧酸类。     

Seasonal fluctuations in microbial activity in Antarctic moss peat

The Signy Island terrestrial reference sites epitomize unpolluted maritime Antarctic tundra. The extreme transition from the harsh Antarctic winter to the milder summer facilitates studies of the effects of freeze-thaw cycles on microbial activity in moss peat. Seasonal monitoring of peat oxygen uptake showed a transient spring peak at c. 0^oC, attributed to microbial utilization of dissolved organic carbon (DOC). After a more gradual temperature-linked summer increase, autumnal freeze-thaw cycles stimulated a final pre-winter peak. The transient climaxes were associated with blooms of saccharolytic yeasts and microfungi. The bacterial population stabilized after a spring increase but then diversified as DOC became rate-limiting. Effects of pre-monitored spring freeze-thaw cycles on late-winter peat cores were simulated in a Gilson respirometer. In vitro perturbations demonstrated the regulatory effects of DOC availability, water content and temperature on peat respiration and microflora! composition. Comparative respirometry and loss in tensile strength of interred cotton strips showed a difference in decomposer activity beneath a relatively dry Polytrichum-Chorisodontium turf and a wet Cattiergon-Cephalozielta carpet. This was associated with water content and anaerobiosis. Cellulolysis accelerated during the growing season and increased with depth, despite anaerobic conditions. Estimates of annual bryophyte decomposition are presented for use in an Antarctic ecosystem model.     

Effects on microbial activity by extraction of indigenous cells from soil slurries

Abstract: Possible effects on the physiological activity and culturability of soil microorganisms by different soil dispersion procedures, and effects on activity caused by extracting bacteria from soil, were investigated. There was no apparent difference in cfu's with dispersion of a silty loam soil and a loamy sand soil with pyrophosphate as compared to dispersion in NaCl. Substrate-induced respiration was reduced in the silty loam soil, and methanol oxidation was reduced in the loamy sand soil with dispersion in pyrophosphate, and the soil pH was irreversibly increased by the treatment. Extracted bacterial fractions had lower numbers of culturable cells as percentage of the total number of bacteria in each fraction, lower respiration rates and no methanol oxidation activity as compared to the soil slurry both before and after extraction. The physiological activity was apparently not affected by the number of cells extracted. This indicates that the increased extraction rate of indigenous soil bacteria obtained by effective disruption of aggregates and detachment of cells from surfaces, only results in increased extraction of cells that have been physiologically changed as a result of the extraction process.     

不同秸秆还田和耕作方式对夏玉米农田土壤呼吸及微生物活性的影响

采用基质诱导呼吸法和CO2释放量法,研究了冬小麦季长期不同耕作方式(常规翻耕、免耕和深松)和秸秆处理(秸秆还田和无秸秆还田)对夏玉米田土壤呼吸及微生物活性的影响.结果表明:秸秆还田和保护性耕作主要在O～ 10 cm土层起作用.秸秆还田能明显提高土壤微生物生物量碳和微生物活性,降低呼吸熵,在苗期和开花期提高土壤呼吸,而在灌浆期、腊熟期和收获期降低土壤呼吸;在相同秸秆处理条件下,深松和免耕比常规翻耕能显著降低土壤呼吸和呼吸熵,提高微生物生物量碳和微生物活性.整个生育期,秸秆还田结合保护性耕作能显著提高微生物生物量碳和微生物活性,降低呼吸熵,与常规翻耕无秸秆还田相比,深松秸秆还田和免耕秸秆还田0～10 cm土层微生物生物量碳平均提高了95.8％和74.3％,微生物活性提高了97.1％和74.2％.     

氮添加对巴音布鲁克高寒湿地土壤微生物量和酶活性的影响

随着全球氮沉降速率的快速增加,已对陆地生态系统微生物群落活性和代谢产生了深刻的影响。因此迫切需要了解全球气候变化敏感区土壤中微生物量和酶活性对氮添加的响应。为此,以中亚干旱区巴音布鲁克高寒湿地为研究对象,在保护良好的高寒湿地选择沼泽(S)、沼泽草甸(SM)和草甸(M)3种湿地类型布设野外原位氮添加试验(施氮浓度分别为0、8、16 kg N hm^-2 a^-1),探究短期氮添加对土壤微生物生物量碳(MBC)、微生物生物量氮(MBN)、微生物生物量碳/氮(MBC/MBN)、微生物商(QMB)、土壤蛋白酶、脲酶、碱性磷酸酶、H₂O₂酶和蔗糖酶活性的影响。结果表明:(1)高寒湿地不同湿地类型土壤微生物量和酶活性存在显著差异,其中SM土壤MBC、MBN、MBC\\N、QMB较S和M区高,对酶活性而言,SM和M区土壤蛋白酶和碱性磷酸酶活性较高,M区H₂O₂酶和脲酶活性较高。(2)氮添加显著增加了3种湿地类型中土壤MBC和MBN,其中MBC增加了7.00%-119.00%,MBN增加了8.03%-38.26%。氮添加仅显著增加了S和SM区土壤MBC/N和QMB (增加了24.68%-113.10%),但抑制了M区土壤MBC/N和QMB (抑制了8.93%-10.36%)。(3)氮添加显著增加了3种湿地类型土壤中脲酶、蛋白酶和H₂O₂酶活性,分别增加了7.25%-59.63%、4.71%-58.55%和34.70%-157.27%。但是氮添加对土壤碱性磷酸酶活性无显著影响。对蔗糖酶而言,N1处理增加了S区土壤蔗糖酶活性(增加了58.58%),而N2处理显著降低了22.72%。氮添加对SM和M区蔗糖酶活性无显著影响。(4)结构方程模型的结果显示,氮添加直接增加了土壤微生物量和酶活性。而随着湿地类型的变化(S-SM-M)直接和间接(通过pH)增加了酶活性;湿地类型的变化还通过影响pH、有机碳和有效养分间接增加了土壤微生物量。总之,氮添加和湿地类型可直接或间接的影响着土壤微生物量和酶活性。其中,土壤pH和有机碳是微生物量和酶活性变化的主要影响因素。本研究可为中亚干旱区高寒湿地应对未来气候变化的措施的制定提供技术参考。     

油田外排水对干旱戈壁区人工湿地土壤微生物生物量的影响

为研究油田外排水对干旱戈壁区人工湿地土壤微生物生物量的影响,选择干旱戈壁区某油田外排水形成的湿地内坝内、内外坝间、外坝边缘土壤,及不受排水影响的对照土壤,采用磷脂脂肪酸(PLFA)方法,分析外排水对土壤细菌、真菌、放线菌生物量的影响。结果表明:湿地内坝内、内外坝间、外坝边缘土壤与对照土壤的pH和容重均无显著差异,内外坝间的土壤含水量、电导率、溶解性全盐和全碳含量最高,显著高于内坝内土壤;除含水量外,对照土壤的主要物理性质和养分特征与湿地内坝内、内外坝间、外坝边缘的土壤无显著差异。土壤总微生物量、细菌和真菌生物量从湿地内坝内至外坝边缘逐渐增加。土壤总微生物量、细菌、真菌、放线菌与全氮含量均呈显著正相关,丛枝菌根真菌与全碳呈显著正相关,真菌、丛枝菌根真菌与总石油烃呈显著正相关。研究结果表明,油田外排水增加了湿地外坝边缘的土壤微生物量。