Different roles of rhizosphere effect and long-term fertilization in the activity and community structure of ammonia oxidizers in a calcareous fluvo-aquic soil     

《Soil biology & biochemistry》2013

Ammonia oxidation is a critical step in the soil nitrogen (N) cycle and can be affected by the application of mineral fertilizers or organic manure. However, little is known about the rhizosphere effect on the function and structure of ammonia-oxidizing bacterial (AOB) and archaeal (AOA) communities, the most important organisms responsible for ammonia oxidation in agricultural ecosystems. Here, the potential nitrification activity (PNA), population size and composition of AOB and AOA communities in both the rhizosphere and bulk soil from a long-term (31-year) fertilizer field experiment conducted during two seasons (wheat and maize) were investigated using the shaken slurry method, quantitative real-time polymerase chain reaction and denaturing gradient gel electrophoresis. N fertilization greatly enhanced PNA and AOB abundance, while manure application increased AOA abundance. The community structure of AOB exhibited more obvious shifts than that of AOA after long-term fertilization, resulting in more abundant AOB phylotypes similar to Nitrosospira clusters 3 and 4 in the N-fertilized treatments. Moreover, PNA was closely correlated with the abundance and community structure of AOB rather than that of AOA among soils during both seasons, indicating that AOB play an active role in ammonia oxidation. Conversely, the PNA and population sizes of AOB and AOA were typically higher in the rhizosphere than the bulk soil, implying a significant rhizosphere effect on ammonia oxidation. Cluster and redundancy analyses further showed that this rhizosphere effect played a more important role in shaping AOA community structure than long-term fertilization. Overall, the results indicate that AOB rather than AOA functionally dominate ammonia oxidation in the calcareous fluvo-aquic soil, and that rhizosphere effect and fertilization regime play different roles in the activity and community structures of AOB and AOA.  相似文献   

Response of ammonia oxidizing archaea and bacteria to changing water filled pore space     

Deirdre B. Gleeson  Christoph Müller  Wai Ma  Daniel V. Murphy 《Soil biology & biochemistry》2010,42(10):1888-1891

This study examined the effect of water filled pore space (WFPS) on gross N fluxes and community structure and abundance of ammonia oxidizing archaea and bacteria in a semi-arid soil. Different WFPS altered the community structure of both AOA and AOB. Ammonia oxidizer communities (for both archaea and bacteria) from ‘wet’ soils (95, 85 and 75% WFPS) and ‘dry’ soils (25, 45 and 55% WFPS) were distinctly different from one another. Additionally there was a significant relationship between community structure and gross rates of nitrification. There was also a significant relationship between WFPS and bacterial amoA abundance but not archaeal amoA abundance suggesting that bacterial ammonia oxidizers are more responsive to changes in soil water availability. These results are in agreement with other studies suggesting that both groups of ammonia oxidizers have distinct physiological characteristics and ecological niches with consequences for nitrification in response to WFPS. Overall findings from this study indicate that nitrification, both in terms of process rates and populations responsible for nitrification activity, is highly responsive to soil water availability.  相似文献   

Community composition of ammonia-oxidizing bacteria in the rhizosphere of intercropped wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis> L.), maize (<Emphasis Type="Italic">Zea mays</Emphasis> L.), and faba bean (<Emphasis Type="Italic">Vicia faba</Emphasis> L.)     

Y. N. Song  P. Marschner  L. Li  X. G. Bao  J. H. Sun  F. S. Zhang 《Biology and Fertility of Soils》2007,44(2):307-314

Cereal/cereal and cereal/legume intercropping systems are popular in the north, northwest, and southwest of China and often result in yield increases compared to monocropping. Rhizosphere interactions may play a significant role in the yield increases, particularly with respect to nutrient availability. The aim of this study was to investigate the effects of intercropping on N availability and community composition of ammonia-oxidizing bacteria in the rhizosphere of wheat, maize, and faba bean at different growth stages. Denaturing gradient gel electrophoresis (DGGE) based on 16S rRNA genes was used to analyze the community composition of bacterial ammonia oxidizers belonging to β-proteobacteria. The results showed that intercropping with faba bean significantly increased nitrate concentrations in the rhizosphere of wheat and maize at the second sampling time (20 June) compared to monocropping or intercropping between maize and wheat. Intercropping significantly affected the community composition of ammonia-oxidizing bacteria in the rhizosphere compared to monocropping, and the effects were most pronounced in the maize/faba bean and wheat/maize intercropping systems when faba bean and wheat were at anthesis and maize was in seedling stage. In wheat/faba bean intercropping, the effects of intercropping on community composition of ammonia-oxidizing bacteria were less pronounced at the seedling stage of the two species but were significant at anthesis.  相似文献   

Aggregate-related changes in network patterns of nematodes and ammonia oxidizers in an acidic soil     

《Soil biology & biochemistry》2015

Nitrification plays a central role in global nitrogen cycle, which is affected by biological interaction between soil microfauna and microorganisms. However, the complexity of soil biotic communities made it difficult to reveal organizational principles of the community and the interactions among species. Here, we used the network analysis to decipher the interactions between nematodes and ammonia oxidizers within aggregate fractions under 10-year manure application, and examine their associations with soil variables and potential nitrification activity (PNA). Three aggregate fractions included large macroaggregates (>2000 μm, LA), small macroaggregates (250–2000 μm, SA), and inter-aggregate soil and space (<250 μm, IA). Aggregate factions showed a remarkable effect on association networks of nematodes and ammonia oxidizers. The average connectivity (avgK) and the number of edges in overall networks increased with increasing aggregate sizes, while the average geodesic distance (GD) followed the opposite trend. The LA network could be viewed as a better organized or a better operational soil food web with more functional interrelated members than the SA and IA networks. The modules related to PNA were significantly correlated and clustered together as meta-modules in networks of aggregate fractions. The role-shifts prevailed among the network members such as significant module memberships (MMs) and generalist/specialist operational taxonomic units (OTUs). A half of shared nodes were further identified as shared MMs, dominated by ammonia-oxidizing bacteria (AOB) especially for Nitrosospira cluster 3a and 10. Soil pH could explain partly the shift of module hubs in different networks, while grazing by bacterivores might account for three exclusively connecters related to Nitrososphaera clusters 1.1. The strongly coupled modules correlated positively to pH and total carbon (TC), regardless of aggregate fractions. The network analysis approach provided new insights into potential importance of network interactions between nematodes and ammonia oxidizers in soil nitrogen cycling.  相似文献   

地下部分隔对蚕豆/玉米间作氮素吸收和土壤硝态氮残留影响   总被引：5，自引：2，他引：5  

叶优良 李隆孙建好  张福锁 《水土保持学报》2005,19(3):13-16,53

利用田间试验,探讨了地下部分隔对蚕豆/玉米间作氮素吸收和土壤硝态氮残留的影响,结果表明:蚕豆/玉米间作,蚕豆不分隔条件下籽粒和秸秆吸氮量比分隔分别增加20 10%,34 43%;玉米不分隔条件下籽粒吸氮量与分隔近似,但秸秆吸氮量比分隔减少13 04%;蚕豆和玉米不分隔条件下土壤硝态氮累积量都高于分隔。蚕豆/空带间作,蚕豆不分隔籽粒吸氮量高于分隔,但土壤硝态氮累积量没有差异。空带/玉米间作,地下部分隔与否,作物吸氮量和土壤硝态氮累积量都没有差异。  相似文献   

Direct and indirect influence of arbuscular mycorrhizal fungi on abundance and community structure of ammonia oxidizing bacteria and archaea in soil microcosms     

Yong-Liang Chen  Bao-Dong Chen  Ya-Jun Hu  Tao Li  Xin Zhang  Zhi-Peng Hao  You-Shan Wang 《Pedobiologia》2013,56(4-6):205-212

Both arbuscular mycorrhizal (AM) fungi and ammonia oxidizers are important soil microbial groups in regulating soil N cycling. However, knowledge of their interactions, especially the direct influences of AM fungi on ammonia oxidizers is very limited to date. In the present study, a controlled microcosm experiment was established to examine the effects of AM fungi and N supply level on the abundance and community structure of ammonia oxidizing bacteria (AOB) and archaea (AOA) in the rhizosphere of alfalfa plants (Medicago sativa L.) inoculated with AM fungus Glomus intraradices. Effects were studied using combined approaches of quantitative polymerase chain reaction (qPCR) and terminal-restriction fragment length polymorphism (T-RFLP). The results showed that inoculation with AM fungi significantly increased the plant dry weights, total N and P uptake. Concomitantly, AM fungi significantly decreased the amoA gene copy numbers of AOA and AOB in the root compartment (RC) but not in the hyphal compartment (HC). Moreover, AM fungi induced some changes in AOA community structure in HC and RC, while only marginal variations in AOA composition were observed to respond to N supply level in HC. Neither RC nor HC showed significant differences in AOB composition irrespective of experimental treatments. The experimental results suggested that AM fungi could directly shape AOA composition, but more likely exerted indirect influences on AOA and AOB abundance via the plant pathway. In general, AM fungi may play an important role in mediating ammonia oxidizers, but the AOA community appeared to be more sensitive than the AOB community to AM fungi.  相似文献   

种间相互作用对作物生长及养分吸收的影响   总被引：15，自引：4，他引：11  

余常兵  孙建好  李隆 《植物营养与肥料学报》2009,15(1):1-8

田间试验采用裂区设计,研究了蚕豆、大豆和小麦在两个施氮水平下与玉米间作对作物生长和养分吸收的影响。结果表明,与单作相比,间作对蚕豆生长和养分吸收无明显影响;间作促进大豆前期生长,但在玉米旺盛生长期其生长和养分吸收受到抑制;间作对小麦生长和养分吸收有明显的促进作用。与蚕豆间作,玉米能够获得更高的产量和养分吸收量;与大豆间作,对玉米前期生长有抑制作用,但玉米旺盛生长后其生长和养分吸收有明显增加;与小麦间作,在共处期玉米生长受到强烈抑制,小麦收获后玉米生长开始逐渐恢复。蚕豆/玉米间作具有产量优势,大豆/玉米间作为产量劣势;小麦/玉米间作在低氮条件下为产量劣势,提高氮肥用量会恢复以至达到单作水平。分析认为,蚕豆和大豆生物固氮和根系分泌物活化土壤磷的特点促进了玉米的生长,小麦强的根系竞争能力抑制了玉米生长;在共处期玉米的遮荫作用会抑制大豆的生长,而小麦收获后受抑制的玉米产量有向单作水平恢复的能力。表明选择合理的作物配置能够充分利用各种资源,促进种间有益作用,提高作物产量。  相似文献   

Responses of ammonia-oxidizing bacteria and archaea to nitrogen fertilization and precipitation increment in a typical temperate steppe in Inner Mongolia     

《Applied soil ecology》2013

As the first and rate-limiting step of nitrification, ammonia oxidation can be realized either by ammonia-oxidizing bacteria (AOB) or archaea (AOA). However, the key factors driving the abundance, community structure and activity of ammonia oxidizers are still unclear, and the relative importance of AOA and AOB in ammonia oxidation is unresolved. In the present study, we examined the effects of long-term (6 years) nitrogen (N) addition and simulated precipitation increment on the abundance and community composition of AOA and AOB based on a field trial in a typical temperate steppe of northern China. We used combined approaches of quantitative PCR, terminal-restriction fragment length polymorphism (T-RFLP) and clone library analyses of amoA genes. The study objective was to determine (1) AOA and AOB diversity and activity in response to N addition and increased precipitation and (2) the relative contributions of AOA and AOB to soil ammonia oxidation in the typical temperate steppe. The results showed that the potential nitrification rate (PNR) increased with N addition, but decreased with increased precipitation. Both N addition and increased precipitation significantly increased AOB but not AOA abundance, and a significant correlation was only observed between PNR and AOB amoA gene copies. The T-RFLP analysis showed that both N and precipitation were key factors in shaping the composition of AOB, while AOA were only marginally influenced. Phylogenetic analysis indicated that all AOA clones fell within the soil and sediment lineage while all AOB clones fell within the Nitrosospira. The study suggested that AOA and AOB had distinct physiological characteristics and ecological niches. AOB were shown to be more sensitive to N and precipitation than AOA, and the ammonia oxidation process was therefore supposed to be mainly driven by AOB in this temperate steppe.  相似文献   

Phosphorus uptake and rhizosphere properties of intercropped and monocropped maize, faba bean, and white lupin in acidic soil   总被引：1，自引：0，他引：1  

Haigang Li  Jianbo Shen  Fusuo Zhang  Petra Marschner  Greg Cawthray  Zed Rengel 《Biology and Fertility of Soils》2010,46(2):79-91

Little information is available on phosphorus (P) uptake and rhizosphere processes in maize (Zea mays L.), faba bean (Vicia faba L.), and white lupin (Lupinus albus L.) when intercropped or grown alone in acidic soil. We studied P uptake and soil pH, carboxylate concentration, and microbial community structure in the rhizosphere of maize, faba bean, and white lupin in an acidic soil with 0–250 mg P (kg⁻¹ soil) as KH₂PO₄ (KP) or FePO₄ (FeP) with species grown alone or intercropped. All plant species increased the pH compared to unplanted control, particularly faba bean. High KP supply (>100 mg P kg⁻¹) significantly increased carboxylate concentration in the rhizosphere of maize. The carboxylate composition of the rhizosphere soil of maize and white lupin was significantly affected by P form (KP or FeP), whereas, this was not the case for faba bean. In maize, the carboxylate composition of the rhizosphere soil differed significantly between intercropping and monocropping. Yield and P uptake were similar in monocropping and intercropping. Monocropped faba bean had a greater concentration of phospholipid fatty acids in the rhizosphere than that in intercropping. Intercropping changed the microbial community structure in faba bean but not in the other corps. The results show that P supply and P form, as well as intercropping can affect carboxylate concentration and microbial community composition in the rhizosphere, but that the effect is plant species-specific. In contrast to previous studies in alkaline soils, intercropping of maize with legumes did not result in increased maize growth suggesting that the legumes did not increase P availability to maize in this acidic soil.  相似文献   

Subtle changes in rhizosphere microbial community structure in response to increased boron and sodium chloride concentrations     

Darryl R. Nelson  Pauline M. Mele 《Soil biology & biochemistry》2007,39(1):340-351

Two of the major constraints to grain production in large areas of South-East Australia and cropping soils worldwide are high levels of subsoil boron (B) and excessive salinity (NaCl). Although the effect of these constraints is often studied in plants, the effect on microbially mediated plant-beneficial processes is unclear. To that end, we investigated the impact of B and NaCl on soil microbial community structure (MCS) in the wheat rhizosphere using BIOLOG ecoplates and terminal restriction fragment length polymorphism (T-RFLP). In addition, the effects of B and NaCl on the nitrogen (N) cycle processes of N fixation and ammonia oxidation were assessed by the construction of clone libraries of diazotrophic (nifH) and ammonia oxidising (amoA) rhizobacteria. Analysis of BIOLOG plates using non-metric multidimensional scaling (MDS) revealed addition of both B and NaCl significantly changed MCS, the latter of which was also significant through the analysis of T-RFLP data. Utilisation of several chemical groups of BIOLOG substrates significantly changed in NaCl-amended soil; both B and NaCl affected utilisation of several individual substrates indicative of plant stress including serine and malic acid. A significant decrease in diversity and species richness was observed in high B rhizosphere soil. The community structure of ammonia-oxidising bacteria (AOB), all of which clustered with Nitrosospira-like sequences, did not significantly change in response to addition of B or NaCl, but addition of the latter resulted in a significant increase of diazotroph clones within the α-proteobacteria similar to Azospirillum sp. It appeared that the addition of B and NaCl to soil changed rhizosphere MCS indirectly through increased soil moisture and subtle changes in root exudate patterns, the addition of the latter producing a more distinct change through increased osmotic pressure, leading to a greater increase in rhizodeposition of nutrients, especially carbohydrates. The implications for the current study are that B and NaCl are more likely to affect rhizosphere MCS indirectly through root exudate quantity and/or quality than directly through microbial toxicity, and that plant health is a major determinant in rhizosphere MCS and normal N cycling.  相似文献   

新垦灰钙土蚕豆/玉米间作系统土壤活性有机碳、氮的时空变异研究     

夏志敏  梅沛沛  王平  桂林国  李隆  周建斌 《土壤通报》2012,(2):336-341

以宁夏新垦的淡灰钙土为对象,研究了蚕豆/玉米间作系统不同施氮水平下土壤活性有机碳、氮的时空变异特征。结果表明:新垦淡灰钙土土壤微生物量碳、氮(SMBC、SMBN)及可溶性有机碳、氮(SOC、SON)等活性有机碳、氮含量较低;随着施氮量的增加土壤SMBC含量显著增加;玉米收获期土壤SMBC、SMBN含量显著高于蚕豆收获期;土壤SMBC、SMBN含量空间变异为:蚕豆行间(F-F)含量最高,玉米行(M)、玉米行间(M-M)最低。与不施氮相比,施氮显著提高了蚕豆收获期土壤SOC、SON含量,而玉米收获期各施氮水平间土壤SOC和SON含量无明显差异;土壤SOC、SON的空间变异为:玉米行间>蚕豆行间、蚕豆行(F)、蚕豆与玉米行间(F-M)>玉米行。玉米收获期土壤SMBC及SMBN含量的显著增加,说明土壤微生物对矿质氮的固持对于新垦土壤肥力的提高具有重要作用。  相似文献   

Fluctuations in the abundance of ammonia oxidizers and the contents of inorganic nitrogen in solarized soil     

Mina Yamagata  Yoko Shinohara  Masahiro Maesaka  Jun Murase 《Soil Science and Plant Nutrition》2013,59(5):434-440

Solarization makes a great impact on the abundance of ammonia oxidizers and nitrifying activity in soil. To elucidate fluctuations in the abundance of ammonia oxidizers and nitrification in solarized soil, copy numbers of amoA gene of ammonia-oxidizing bacteria (AOB) and archaea (AOA), viable number of ammonia oxidizers and inorganic nitrogen contents were investigated in greenhouse experiments. The copy number of amoA gene and the viable number of ammonia oxidizers were determined by the quantitative polymerase chain reaction and most probable number methods, respectively. Abundance of AOB based on the estimation of amoA gene copy numbers and viable counts of ammonia oxidizers was decreased by the solarization treatment and increased during the tomato (Solanum lycopersicum L.) cultivation period following the solarization. Effect of solarization on the copy number of amoA gene of AOA was less evident than that on AOB. The proportion of nitrate in inorganic nitrogen contents was declined by the solarization and increased during the tomato cultivation period following the solarization. Positive correlations were found between the proportion of nitrate in inorganic nitrogen content and the copy number of bacterial or archaeal amoA gene or the viable number of ammonia oxidizers; the copy number of bacterial amoA gene showed a strong correlation with the viable number of ammonia oxidizers. The present study revealed influences of solarization on the fluctuation in the abundance of ammonia oxidizers and dynamics of inorganic nitrogen contents in soil and the results indicate that the determination of amoA gene of AOB is possibly a quick and useful diagnostic technique for evaluating suppression and restoration of nitrification following solarization.  相似文献   

Microbial population dynamics related to temporal variations in nitrification in three arable fields   总被引：2，自引：0，他引：2  

R. E. Wheatley †  S. Caul  D. Crabb  T. J. Daniell  B. S. Griffiths  & K. Ritz 《European Journal of Soil Science》2003,54(4):707-714

It seems possible that soil potential nitrification rates (PNRs) are determined by the size and structure of both the eubacterial and nitrifier populations. We have examined this possibility by comparing the structure of the eubacterial community with the subcomponents and dynamics of the ammonium‐oxidizer population, within and between three arable fields. PNRs were significantly different between the three fields and also showed significantly different temporal patterns within each field. The use of eubacterial primers in polymerase chain reaction–denaturing gel gradient electrophoresis (PCR–DGGE) analyses indicated that the bacterial community structure in each field was significantly different from that in the others, and that the bacterial components of these communities changed with time through the season. In contrast, PCR–DGGE analyses specific to ammonium oxidizers suggested that the populations in all three fields were similar in types and did not vary with time. Competitive PCR suggested that there were large and biologically significant differences in the size of the nitrifier population between the three fields, but that within each individual field populations did not change over time. Sequencing identified the ammonium oxidizers in the Nitrosospira spp. cluster. There was also no relation between the size of the nitrifier populations and PNR. Functional expression, as PNR, apparently responded to changes in eubacterial community structure.  相似文献   

Response of ammonia oxidizers and denitrifiers to repeated applications of a nitrification inhibitor and a urease inhibitor in two pasture soils     

Xiuzhen Shi  Hang-Wei Hu  Kevin Kelly  Deli Chen  Ji-Zheng He  Helen Suter 《Journal of Soils and Sediments》2017,17(4):974-984

  相似文献   

丛枝菌根真菌对蚕豆秸秆降解及玉米养分和镉铅吸收的影响     

李胜宝  师俊杰  何永美  李博  阎凯  湛方栋  段红平 《植物营养与肥料学报》2021,27(4):684-694

  【目的】   丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF) 有利于作物对养分的吸收。在镉、铅污染的土壤中,作物常将镉、铅积累在秸秆中,随着秸秆的还田而释放回土壤。探究前茬蚕豆秸秆还田和丛枝菌根真菌 单施或联合施用对土壤肥力、后茬玉米的矿质养分与镉、铅吸收的影响,为AMF 在调控污染农田轮作体系矿质养分与镉铅累积的生态功能提供新认识。   【方法】   采用四室隔板分室系统进行蚕豆秸秆降解试验,供试土壤和蚕豆秸秆均来源于云南省会泽铅锌矿区污染区,土壤全镉和铅含量分别为4.5和269.0 mg/kg,蚕豆秸秆镉和铅含量分别为1.9和10.9 mg/kg。将蚕豆秸秆粉碎至粒径0.5～2.0 mm装入尼龙袋中,埋于土壤内进行腐解培养试验。玉米盆栽试验设4个处理:污染土壤对照 (CK)、接种AMF菌根 (AMF)、添加蚕豆秸秆 (SI)、接种AMF菌根同时添加蚕豆秸秆 (SI+AMF)。分析AMF对蚕豆秸秆降解、矿质养分 (N、P、K) 与镉铅释放、土壤速效养分含量、玉米生长、矿质营养和镉铅吸收的影响。   【结果】   接种AMF显著提高蚕豆秸秆的降解量、矿质养分和镉铅释放量,促进蚕豆秸秆降解。与AMF处理相比,AMF+SI处理玉米根系的AMF侵染率提高了12%。SI处理显著增加土壤速效养分含量和玉米植株钾含量,降低玉米根部的镉含量,但对玉米株高和生物量没有显著影响。接种AMF、SI+AMF处理显著提高土壤速效氮、磷、钾含量,增加玉米氮、磷、钾含量与吸收量,显著提高玉米株高和生物量,同时显著降低土壤有效态镉、铅含量和玉米植株镉、铅含量。双因素分析表明,接种AMF和添加秸秆对土壤速效氮、磷、钾含量影响显著,但接种AMF对植株矿质元素吸收量、土壤有效态镉、铅含量和植株镉、铅含量作用显著,接种AMF与添加秸秆对各测定指标没有显著的交互作用。   【结论】   AMF能促进前茬秸秆降解、养分和镉铅的释放。接种AMF在提高土壤氮、磷、钾养分含量,降低有效态镉、铅含量,提高玉米对氮、磷、钾的吸收,降低镉和铅在玉米植株内的积累量等方面,均显示出良好的应用前景。虽然接种AMF与秸秆还田没有表现出显著的交互作用,但秸秆还田可增加AMF在玉米根部的侵染率,因此,在使用AMF菌剂时应考虑秸秆还田。  相似文献   

Abundance and composition of ammonia oxidizers in response to degradation of root cap cells of rice in soil microcosms     

Yong Li  Takeshi Watanabe  Jun Murase  Susumu Asakawa  Makoto Kimura 《Journal of Soils and Sediments》2014,14(9):1587-1598

Purpose

Nitrification is a key process in the global nitrogen cycle, of which the first and rate-limiting step is catalyzed by ammonia monooxygenase. Root cap cells are one of substrates for microorganisms that thrive in the rhizosphere. The degradation of root cap cells brings about nitrification following ammonification of organic nitrogen derived from the root cap cells. This study was designed to gain insights into the response of ammonia-oxidizing bacteria (AOB) and ammonia-oxidizing archaea (AOA) to mineralized N from root cap cells and the composition of active bacterial and archaeal ammonia oxidizers in rice soil.

Materials and methods

Rice callus cells were used as a model for root cap cells, and unlabelled (¹²C) and ¹³C-labelled callus cells were allowed to decompose in aerobic soil microcosms. Real-time quantitative polymerase chain reaction (PCR), DNA-based stable isotope probing (SIP), and denaturing gradient gel electrophoresis (DGGE) were applied to determine the copy number of bacterial and archaeal amoA genes and the composition of active AOB and AOA.

Results and discussion

The growth of AOB was significantly stimulated by the addition of callus cells compared with the growth of AOA with a much lesser extent. AOB communities assimilated ¹³C derived from the callus cells, whereas no AOA communities grew on ¹³C-callus. Sequencing of the DGGE bands in the SIP experiments revealed that the AOB communities belonging to Nitrosospira spp. dominated microbial ammonia oxidation with rice callus amendment in soil.

Conclusions

The present study suggests that root cap cells of rice significantly stimulated the growth of AOB, and the active members dominating microbial ammonia oxidation belonged to Nitrosospira spp. in rice rhizosphere.  相似文献   

施氮量和蚕豆/玉米间作对土壤无机氮时空分布的影响   总被引：4，自引：2，他引：2  

李玉英  孙建好  余常兵  程序  张福锁  李隆 《植物营养与肥料学报》2009,15(4):815-823

在田间条件下于2006—2007年研究了不同氮水平下（N 0、75、150、225、300 kg/hm2）蚕豆/玉米间作体系与其相应单作体系土壤无机氮的时空分布规律,旨在为河西走廊灌区蚕豆/玉米间作体系的氮素管理提供理论依据。用土钻法采集土壤剖面样品,CaCl2浸提,流动分析仪测定土壤无机氮的方法研究了施氮量和蚕豆/玉米种间相互作用对土壤无机氮时间和空间变化特点。结果表明:灌漠土无机氮以NO3--N为主。蚕豆和玉米无机氮含量在蚕豆收获前种植方式间均无显著性差异,蚕豆收获后至玉米收获,间作显著降低了两种作物各层无机氮含量;无机氮含量随着施氮量增加而显著增加。蚕豆收获后间作体系0—100 cm土层无机氮累积量略高于单作体系,且0—100 cm 土层无机氮累积量高于100—160 cm土层;玉米收获后,间作蚕豆和玉米土壤无机氮累积量在0—100 cm土层分别平均降低了51.7%和16.6%,在100—160 cm土层平均降低了42.1%和6.1%;与不施氮相比,施氮蚕豆和玉米无机氮累积量在0—100 cm土层分别平均增加了40.1%和81.5%,在100—160 cm土层分别增加了69.6%和40.6%;与单作体系相比,间作体系0—100 和100—160 cm土层土壤无机氮分别降低43.4%和34.1%。因此,施氮肥显著增加土壤无机氮的累积,而豆科/禾本科间作减少了土壤无机氮的残留。  相似文献   

小麦蚕豆间作对根际土壤氮转化微生物的影响     

唐艳芬  续勇波  郑毅  雷宝坤 《农业环境与发展》2016,(5):482-490

通过田间小区试验,采用磷脂脂肪酸(PLFA)、实时荧光定量PCR研究了小麦蚕豆间作不同生育期对根际土壤微生物群落的变化、氨氧化细菌(AOB)、氨氧化古菌(AOA)以及反硝化细菌中亚硝酸还原酶(nirK)、一氧化氮还原酶(norB)和氧化亚氮还原酶(nosZ)基因拷贝数以及土壤酶活性和土壤硝态氮、铵态氮含量的影响。结果表明:与单作相比,小麦蚕豆间作显著提高了根际土壤中总的PLFAs生物量、细菌、真菌、放线菌和好氧菌的生物量。土壤样品中的amoA基因拷贝数在10~5~10~6范围内AOB的amoA基因数量高于AOA。在不同的生育期,根际土壤中nirK的基因拷贝数都是间作高于单作;在拔节期,间作蚕豆的norB基因显著高于其他种植模式(P0.05);在拔节期、抽穗期,nosZ基因均是间作显著高于单作(P0.05),并随着生育期呈现降低的趋势。间作降低了根际土壤NO_3~--N的含量,提高了NH_4~+-N的含量(P0.05)。说明小麦蚕豆间作后改变了根际土壤的微环境,使得土壤微生物群落结构发生改变,这种改变在一定程度上能够对土壤氮素的有效保蓄和供应、同时防止氮素损失和污染起到积极作用,为间作增产提供了氮素营养保障。  相似文献   

田间玉米和蚕豆对低磷胁迫响应的差异比较   总被引：1，自引：1，他引：0  

张瑜  刘海涛  周亚平  李春俭 《植物营养与肥料学报》2015,21(4):911-919

【目的】植物在长期进化过程中形成了一系列适应机制,以应对低磷胁迫。本文提出玉米主要通过根系形态变化适应低磷胁迫的假设,并通过与蚕豆植株在根系形态与生理方面对低磷胁迫反应的比较试验加以验证。【方法】在中国农业大学上庄长期定位试验田进行两年田间实验,玉米和蚕豆分别单作,重复3次。在玉米抽雄前的拔节至大喇叭口期和蚕豆的初花至盛花期两次取样(两年的两次取样时间间隔10~12天),比较研究了不供磷和供磷100 kg/hm2下玉米和蚕豆生长和磷素吸收、根系在0—40 cm土层中分布、以及根际p H值和酸性磷酸酶活性的差异。【结果】1)玉米植株的生物量和含磷量远远高于蚕豆;第一次取样时蚕豆的根冠比高于玉米,而且两种植物低磷下的根冠比高于供磷充足处理。两次取样时玉米的总根长大于蚕豆,两种植物的大部分根系分布在0—20 cm表层土壤,玉米根系在0—10 cm土层的分布更多。2)蚕豆根系的比根长明显大于玉米,但单位根长吸磷量低于玉米,两种植物间的上述差异不受取样时间和供磷水平的影响。3)两次取样时,蚕豆根表的酸性磷酸酶活性均明显高于玉米。玉米根表的酸性磷酸酶活性在两个供磷水平下没有差异。第一次取样时,缺磷蚕豆根表的酸性磷酸酶活性高于供磷充足的蚕豆植株。4)缺磷蚕豆的根际土壤p H值明显低于供磷充足蚕豆;但玉米根际土壤p H值在缺磷和供磷充足条件下无显著差异。【结论】低磷条件下两种植物的根冠比均明显增加。玉米根系单位根长的吸磷量高于蚕豆,并且在含磷量丰富的表层土壤分布有更多根系,但缺磷条件下玉米没有增加根系的质子和酸性磷酸酶的分泌,主要以根系形态变化来适应低磷胁迫。结果支持本文提出的玉米主要通过根系形态变化适应低磷胁迫的假设。但蚕豆在低磷条件下除了增加根系生长外,还具有通过增加质子分泌和根表酸性磷酸酶活性提高根际土壤有效磷浓度的潜力。  相似文献   

Nitrapyrin affects the abundance of ammonia oxidizers rather than community structure in a yellow clay paddy soil     

Gu  Yan  Mi  Wenhai  Xie  Yinan  Ma  Qingxu  Wu  Lianghuan  Hu  Zhaoping  Dai  Feng 《Journal of Soils and Sediments》2019,19(2):872-882

Purpose

Yellow clay paddy soil (Oxisols) is a low-yield soil with low nitrogen use efficiency (NUE) in southern China. The nitrification inhibitor nitrapyrin (2-chloro-6- (tricholoromethyl)-pyridine, CP) has been applied to improve NUE and reduce environmental pollution in paddy soil. However, the effects of nitrapyrin combined with nitrogen fertilizers on ammonia oxidizers in yellow clay paddy soil have not been examined.

Materials and methods

A randomized complete block design was set with three treatments: (1) without nitrogen fertilizer (CK), (2) common prilled urea (PU), and (3) prilled urea with nitrapyrin (NPU). Soil samples were collected from three treatments where CK, PU, and NPU had been repeatedly applied over 5 years. Soil samples were analyzed by quantitative PCR and 454 high-throughput pyrosequencing of the amoA gene to investigate the influence of nitrapyrin combined with nitrogen on the abundance and community structure of ammonia oxidizers in yellow clay paddy soil.

Results and discussion

The potential nitrification rate (PNR) of the soil was significantly correlated with the abundances of both ammonia-oxidizing archaea (AOA) and ammonia-oxidizing bacteria (AOB). Application of urea significantly stimulated AOA and AOB growth, whereas nitrapyrin exhibited inhibitory effects on AOA. Phylogenetic analysis showed that the most dominant operational taxonomic units (OTUs) of AOA and AOB were affiliated with the Nitrosotalea cluster and Nitrosospira cluster 12, respectively. AOA and AOB community structures were not altered by urea and nitrapyrin application.

Conclusions

Nitrogen fertilization stimulated nitrification and increased the population sizes of AOA and AOB. Nitrapyrin affected the abundance, but not community structure of ammonia oxidizers in yellow clay soil. Our results suggested that nitrapyrin improving NUE and inhibiting PNR was attributable to the inhibition of AOA growth.

  相似文献