排序方式: 共有247条查询结果,搜索用时 468 毫秒
31.
为明确敌敌畏及1株高效降解菌(类球红细菌)对草莓叶际微生物群落结构的影响,采用非培养研究方法(PLFA法)对其进行了研究.结果表明:喷敌敌畏处理第1天PLFA含量显著下降,低于对照和其他处理;第3天PLFA含量显著上升,高于对照与其他处理;第7天PLFA含量与处理当天(0 d)无显著差异.喷敌敌畏加类球红细菌处理,第1天和第3天PLFA含量均显著高于对照,第7天PLFA含量与处理当天(0 d)无显著差异.PLFA含量主成分分析表明,喷敌敌畏处理与喷敌敌畏后再喷类球红细菌、喷水处理及对照之间均相距较远.敌敌畏对草莓叶际微生物群落结构产生一定的影响,类球红细菌通过降解作用改变敌敌畏的浓度而影响叶际微生物PLFA含量,高浓度的敌敌畏抑制了微生物的生长,使PLFA含量显著降低,而低浓度敌敌畏促进微生物的生长,使PLFA含量显著升高. 相似文献
32.
土壤微生物群落结构对凋落物组成变化的响应 总被引:9,自引:0,他引:9
凋落物分解是陆地生态系统养分循环的关键过程,明确凋落物多样性如何影响土壤微生物群落构成和多度,继而潜在地改变凋落物分解的微生物学机制有助于认识生物多样性和森林生态系统功能的关系。通过小盆模拟试验,应用磷脂脂肪酸谱图的方法研究了我国南方红壤丘陵区典型物种马尾松和湿地松的凋落物分别与白栎和青冈的凋落物混合,与单一针叶凋落物分解时相比,针阔混合凋落物分解过程中土壤微生物群落结构的变化,结果显示:(1)针阔混合凋落物分解时土壤微生物群落磷脂脂肪酸(Phospholipidfatty acids,PLFA)总量低于单一针叶处理,细菌和放线菌的相对多度高于单一针叶处理,真菌则相反,群落真菌/细菌低于单一针叶处理,土壤微生物生物量的差异主要来自于真菌;(2)主成分分析表明:针阔混合凋落物分解与单一针叶凋落物分解的土壤微生物群落结构差异显著,两个时期(分解9个月和18个月)主成分一分别可以解释65.74%和89.63%的变异,第一主成分主要包括18∶2ω6,9、18∶1ω9c、17∶0和10Me18∶0等磷脂脂肪酸;(3)土壤微生物群落结构受凋落物初始C/N和木质素/N调控,土壤微生物群落细菌的相对多度与凋落物初始C/N和木质素/N显著负相关,真菌则与凋落物初始C/N和木质素/N显著正相关,群落真菌/细菌与凋落物初始C/N和木质素/N显著正相关。针阔凋落物混合分解通过改变凋落物C/N和木质素/N,提供了对分解者更为有利的微环境。 相似文献
33.
Sulfonamides are the second most used antibiotic class in veterinary medicine and applied to livestock to treat bacterial infections. Subsequently, they are spread onto agricultural soils together with the contaminated manure used as fertilizer. Both manure and antibiotics affect the soil microbial community. However, the influence of different liquid manure loads on effects of antibiotics to soil microorganisms is not well understood. Therefore, we performed a microcosm experiment for up to 32 d to clarify whether the function and structure of the soil microbial community is differently affected by interactions of manure and the antibiotic sulfadiazine (SDZ). To this end selected concentrations of pig liquid manure (0, 20, 40, 80 g kg–1) and SDZ (0, 10, 100 mg kg–1) were combined. We hypothesized that incremental manure amendment might reduce the effect of SDZ in soils, due to an increasing sorption capacity of SDZ to organic compounds. Clear dose‐dependent effects of SDZ on microbial biomass and PLFA pattern were determined, and SDZ effects interacted with the liquid manure application rate. Soil microbial biomass increased with incremental liquid manure addition, whereas this effect was absent in the presence of additional SDZ. However, activities of enzymes such as urease and protease were only slightly affected and basal respiration was not affected by SDZ application, while differences mostly depended on the concentration of liquid manure. These results illustrated that the microbial biomass and structural composition react more sensitive to SDZ contamination than functional processes. Furthermore, effects disproportionally increased with incremental liquid manure addition, although extractable amounts of SDZ declined with increasing liquid manure application. 相似文献
34.
Kamlesh Jangid Mark A. Williams Thomas M. Schmidt William B. Whitman 《Soil biology & biochemistry》2011,43(10):2184-2193
The response of soil microbial communities following changes in land-use is governed by multiple factors. The objectives of this study were to investigate (i) whether soil microbial communities track the changes in aboveground vegetation during succession; and (ii) whether microbial communities return to their native state over time. Two successional gradients with different vegetation were studied at the W. K. Kellogg Biological Station, Michigan. The first gradient comprised a conventionally tilled cropland (CT), mid-succession forest (SF) abandoned from cultivation prior to 1951, and native deciduous forest (DF). The second gradient comprised the CT cropland, early-succession grassland (ES) restored in 1989, and long-term mowed grassland (MG). With succession, the total microbial PLFAs and soil microbial biomass C consistently increased in both gradients. While bacterial rRNA gene diversity remained unchanged, the abundance and composition of many bacterial phyla changed significantly. Moreover, microbial communities in the relatively pristine DF and MG soils were very similar despite major differences in soil properties and vegetation. After >50 years of succession, and despite different vegetation, microbial communities in SF were more similar to those in mature DF than in CT. In contrast, even after 17 years of succession, microbial communities in ES were more similar to CT than endpoint MG despite very different vegetation between CT and ES. This result suggested a lasting impact of cultivation history on the soil microbial community. With conversion of deciduous to conifer forest (CF), there was a significant change in multiple soil properties that correlated with changes in microbial biomass, rRNA gene diversity and community composition. In conclusion, history of land-use was a stronger determinant of the composition of microbial communities than vegetation and soil properties. Further, microbial communities in disturbed soils apparently return to their native state with time. 相似文献
35.
Arbuscular mycorrhizal (AM) fungi are root symbionts that enhance plant growth and improve soil fertility and soil structure in drylands. Even though AM fungi are obligate biotrophs, organic matter (OM) can stimulate their growth, but the mechanisms behind this are still unknown. Here, we compared the effect of nutrient patches of different OM sources to intrinsic components of OM such as inorganic nutrient supply and an improved soil water-holding capacity (WHC; via application of hydrophilic polymers), on AM fungal growth. Fatty acids extracted from in-growth mesh bags incubated in the field were used as biomarkers for AM fungi and other soil microbes. We found an enhancement of AM fungal growth in certain nutrient patches. Two out of three OM types stimulated AM fungal growth strongly, and also the addition of inorganic nutrients enhanced AM fungi, though to a lesser extent than OM. Enhanced soil WHC, on the other hand, did not influence AM fungal growth. AMF were more strongly enhanced by the mineral nutrients relative to other soil organisms. Intrinsic nutrients might be an important factor for AMF growth stimulation in OM additions, but there was no evidence that nutrients alone can explain this phenomenon. 相似文献
36.
Continuous cultivation has been known to decrease soil organic matter content. Application of organic matter to cultivated soil is an important practice from the point of view of maintaining an adequate amount of soil organic matter. Soil organic matter content significantly affects soil microbial activity, which is an important index of soil quality. In this study, a field experiment was conducted to examine the long-term effects of different kinds of organic matter in combination with inorganic nitrogen (N) fertilizer on chemical and biological properties of soils. There were seven treatments, namely (1) CK (without fertilization), (2) Chem-N (applying chemical N fertilizer only), (3) Comp (applying compost with the same rate of N as the Chem-N treatment), (4) Comp + l/3 N (applying compost complemented with 33% of the chemical N fertilizer of the Chem-N treatment), (5) Comp + 2/3 N (applying compost complemented with 66% of the chemical N fertilizer of the Chem-N treatment), (6) GM + 1/3 N (applying green manure complemented with 33% of the chemical N fertilizer of the Chem-N treatment) and (7) Peat + 1/3 N (applying peat complemented with 33% of the chemical N fertilizer of the Chem-N treatment). After continuous treatment for 12 years and with cultivation of 24 crops on the same area, soils were sampled for analyses of chemical and biological properties, enzymatic activities and phospholipid fatty acid (PLFA) profiles. The results showed that compared with CK and Chem-N treatments, applications of compost and peat increased soil organic carbon (SOC) content and altered microbial activities and microbial community structure. However, application of green manure for 12 years had no effect on SOC content. Both microbial activities and PLFA profiles were clearly dependent on the characteristics of the applied organic amendments. In summary, a peat application led to the highest increase in SOC content compared to compost and green manure; however, compost-treated soil had a higher microbial population and higher microbial and enzyme activities, while the effects of both green manure and chemical N fertilizer on soil properties were similar. 相似文献
37.
以江苏东台沿海地区杨树人工林地为研究对象,建立野外模拟氮沉降试验样地,试验设置5个氮处理水平,分别为对照(0 kg· hm-2· a-1)、低氮(50 kg· hm-2· a-1)、中氮(100 kg· hm-2· a-1)、高氮(150 kg· hm-2· a-1)和超高氮(300 kg · hm-2· a-1)。于2012年5月开始在生长季(5—10月)每月进行施氮处理,2013年8月和10月运用磷脂脂肪酸法分别分析了土壤微生物群落的变化特征。结果表明,施氮处理近2 a后,两个月份中的土壤微生物磷脂脂肪酸总量均显著下降,细菌、真菌中磷脂脂肪酸的量出现了不同程度的下降,真菌与细菌中磷脂脂肪酸的量之比没有显著变化。磷脂脂肪酸组成的主成分分析显示,除低氮处理样地外,其他水平施氮样地均使微生物群落结构显著变化,且超高氮处理样地变化格局具有季节差异性。 相似文献
38.
不同气候条件下潮土微生物群落的变化 总被引:2,自引:0,他引:2
针对气候变化的背景研究农田土壤微生物对气候变化的响应机制是调控农田土壤养分循环的理论基础。本研究基于设置在3个气候带(冷温带海伦、暖温带封丘和中亚热带鹰潭)的潮土移置试验,利用磷脂脂肪酸(PLFA)分析方法研究了移置第6年土壤微生物群落的变化特征。结果表明,在3种气候条件下潮土移置6年后土壤部分理化性质显著变化,土壤有机质含量表现为冷温带最高而中亚热带最低;在种植玉米的不同施肥处理中,土壤中微生物总PLFAs、革兰氏阳性细菌(G+)、革兰氏阴性细菌(G-)、细菌和放线菌PLFAs含量均表现为海伦封丘鹰潭,真菌/细菌比值在冷温带最低;PLFA图谱的主成分分析显示气候条件显著影响了土壤微生物的群落结构,海伦和封丘位于PC1正轴,而鹰潭位于负轴,受气候影响较大的特征PLFA包括18:1ω7c、16:1ω5c、16:0、18:0和18:2ω6,9c;逐步回归分析显示温度、降雨和土壤有机质是影响微生物群落的主要因子。总体上,气候条件的变化在短期内(6年)改变了土壤微生物的群落结构,可以影响农田生态系统的生物地球化学循环。 相似文献
39.
不同作物根际土壤微生物的群落结构特征分析 总被引:1,自引:0,他引:1
为探究根际微生物群在支持植物生长、发育和健康方面的重要作用,本研究在2017年7月采集同一农田中大豆[Glycine max (L.) Merr.]、玉米[Zea mays)、花生(Arachis hypogaea L.]、四季豆[Phaseolus vulgaris L.]、豇豆[Vigna unguiculata (L.) Walp]、番薯[Ipomoea batatas (L.) Lam.]和芋艿[Colocasia esculenta (L.) Schoot]7种不同作物,通过Illumina MiSeq测序技术和磷脂脂肪酸(PLFA)对这7种不同作物的根际微生物群落结构和组成进行了分析。结果显示,不同作物根际土壤微生物的PLFA种类和组成差异显著,但均以表征革兰氏阴性菌、革兰氏阳性菌和真菌的特征脂肪酸为主。花生根际土中微生物的PLFAs含量最高,花生根际土中的真菌细菌比(F/B)显著高于其他作物,且其革兰氏阳性菌与革兰氏阴性菌比(G+/G-)最低。尽管在门水平,变形菌门、放线菌门、酸杆菌门和厚壁菌门是7种作物根际微生物的主要优势门,但是在纲水平和目水平不同作物根际微生物组成存在差异。Alpha多样性分析表明,大豆根际的OTU丰富度(Chao1,P<0.001)和细菌群落多样性(Shannon,P<0.001)在7种作物中最高。非度量多维尺度分析(NMDS)表明,根际微生物群落结构在OTU和PLFAs水平下均以不同作物形成聚类,不同聚类间的差异显著。根际敏感微生物的筛选和比较进一步说明不同作物对根际微生物的选择具有差异性,群落中某些特定菌群优势度存在区别,不同作物具有不同敏感微生物的选择倾向。本研究为构建健康的植物根际微生物群落以促进植物育种提供了基础。 相似文献
40.
Repeated fertilizer applications to cultivated soils may alter the composition and activities of microbial communities in terrestrial agro-ecosystems. In this study, we investigated the effects of different long term fertilization practices (control (CK), three levels of mineral fertilizer (N1P1K1, N2P2K2, and N3P3K3), and organic manure (OM)) on soil environmental variables and microbial communities by using phospholipid fatty acid (PLFA) biomarkers analysis in subtropical China. Study showed that OM treatment led to increases in soil organic carbon (SOC), total nitrogen (TN) and total phosphorus (TP) contents, while the mineral fertilizer treatment led to increases in dissolved organic carbon (DOC) content. Changes in soil microbial communities (eg. bacteria, actinomycetes) were more noticeable in soils subjected to organic manure applications than in the control soils or those treated with mineral fertilizer applications. Fungal PLFA biomarkers responded differently from the other PLFA groups, the numerical values of fungal PLFA biomarkers were similar for all the OM and mineral fertilizer treatments. PCA analysis showed that the relative abundance of most PLFA biomarkers increased in response to OM treatment, and that increased application rates of the mineral fertilizer changed the composition of one small fungal PLFA biomarker group (namely 18:3ω6c and 16:1ω5c). Further, from the range of soil environmental factors that we examined, SOC, TN and TP were the key determinants affecting soil microbial community. Our results suggest that organic manure should be recommended to improve soil microbial activity in subtropical agricultural ecosystems, while increasing mineral fertilizer applications alone will not increase microbial growth in paddy soils. 相似文献