连作对大豆根部土壤微生物的影响研究

研究了正茬与连作大豆根际及非根际土壤微生物区系的变化。结果表明,细菌总数占绝对优势,连作低于正茬。放线菌数量总体变化幅度不大,真菌数量有显著变化,连作明显高于正茬。连作使土壤pH、含水率和微生物主要生理类群数量明显下降,土壤肥力降低。无论细菌、放线菌和真菌,正茬及连作大豆根际微生物数量明显高于非根际。     

Effects of Mixed Cropping on a Soil Nematode Community in Honduras

Nematode-resistant tropical legumes are effective in reducing populations of plant-parasitic nematodes when used in rotation systems. Mixed cropping is a common practice of many small farmers in Central America, but little is known about the effects of tropical legumes on nematode communities under these systems. To examine the effects of intercropping on the nematode fauna associated with squash (Cucurbita pepo) and cucumber (Cucumis sativa) in Honduras, two field experiments were conducted to compare nematode density and diversity in soil under cucurbits grown as a monocrop with that in soil under cucurbits intercropped with alfalfa (Medicago sativa) or hairy indigo (Indigofera hirsuta). A parallel series of field tests compared soil nematode communities associated with a cucurbit monocrop and a cucurbit intercropped with marigold (Tagetes patula), which may decrease nematode populations through the production of toxic root exudates. Among all four tests, over a period of 90 days, there were no consistent differences in densities of various nematode genera or trophic groups in intercropped versus monocropped plants, nor were there consistent differences in community diversities among treatments.     

轮作和连作对胡萝卜根际和非根际细菌多样性的影响

细菌是土壤最重要的组成部分,土壤细菌的群落结构对土壤的健康至关重要,可以直接影响植物的生长。胡萝卜的长年连作导致其产量低、质量差等一系列问题的发生,连作问题已成为不可忽视的问题。本研究通过HiSeq PE250高通量测序和生物信息学方法获得了玉米胡萝卜轮作种植和胡萝卜连作种植中胡萝卜根际和非根际土壤细菌的组成结构。研究结果表明,相较于胡萝卜连作,玉米胡萝卜轮作种植改变了胡萝卜根际土壤细菌的组成和群落多样性。RM.M (玉米胡萝卜轮作根际土壤样品)样品中的优势菌门为放线菌门和厚壁菌门,RM.R (胡萝卜连作根际土壤样品)的优势菌门是变形菌门;有益菌如芽孢杆菌属和根瘤菌属在玉米胡萝卜轮作种植中的胡萝卜根际富集。RM.M与RM.R的细菌类群差异显著,群落多样性较低;NRM.M(玉米胡萝卜轮作非根际土壤样品)和NRM.R (胡萝卜连作非根际土壤样)的细菌类群差异不明显,群落多样性较高。与连作根际土壤相比,轮作根际土壤中有益菌的相对丰度较大,细菌相对丰度明显增加。本研究结果对通过调节根际土壤细菌组成来保证胡萝卜产量和质量的稳定,解决连作问题具有重要的意义。     

土壤灭菌对辣椒抗连作障碍效果

采用土壤灭菌的方法研究了生物因素对连作3年的辣椒植株生长发育和抗氧化酶活性的影响。探讨了土壤灭菌对辣椒抗连作障碍的效果。结果表明,灭菌的连作土壤,辣椒的株高、茎粗、叶面积、叶绿素含量、地上部鲜重、根鲜重、根系活力等值均高于未灭菌土壤,并伴随着抗氧化酶如超氧化物歧化酶（SOD）和过氧化物酶（POD）的活性降低。说明土壤灭菌提高了地上部和根的健壮程度．降低了连作辣椒中抗氧化酶的活性。与正茬土壤相比,辣椒植株的健壮程度仍存在明显差异,抗氧化酶SOD和POD的活性偏高,这可能是短期连作中,土壤灭菌有效的克服了有害微生物的连作障碍效应,但是不能消除由化感物质引起的连作障碍效应。     

北方农牧过渡带农户农业生产系统模式的生态评价和改良研究

农牧过渡带 (或农牧交错带、半农半牧区 )是指我国传统种植业区和传统畜牧业区的镶嵌结合地带。近世纪以来 ,由于人口剧增 ,垦草种粮面积不断扩大 ,滥垦、过牧、滥樵 ,使草地植被大面积消失 ,沙漠化和荒漠化日趋严重。据报道 ,目前我国北方农牧过渡带荒漠化土地面积已达 1 6 7×10 5ｈａ ,占土地总面积的 5 2 73% ,年增长率约为1 39% [3] 。赤峰市是我国北方农牧过渡带较典型、分布面积较大的地区。该地区资源类型丰富 ,互补优势明显 ,特别是农牧结合的潜力巨大。但长期以来这里区域生态环境恶化加剧 ,导致严重的贫困化。解决这一问题的关…     

Influence of Acidity on Growth and Biochemistry of Pennisetum clandestinum

Hydroponics were used to study the impact of acidity on growth, nutritive properties and metabolic changes in kikuyu grass (Pennisetum clandestinum Hochst). Four treatments (pH 6.0, 5.0, 4.0, and 3.0) were compared for effects on biomass, leaf and root length, crude protein, amino acid content and key enzymes of sugar metabolism. Reduction in biomass, root and leaf length, amino acid contents, glucose-6-phosphate dehydrogenase (G6PDH) and pyruvate kinase (PK) content was observed only at pH 3.0, in association with increased leaf proline content. Kikuyu grass is able to grow normally under mild acidity (down to at least pH 4.0).     

玉米连作、迎茬和轮作对田间杂草群落的影响

采用定位试验方法研究了北方旱作玉米长期 (1 0～ 1 2年 )连作、米豆米迎茬和豆麦米轮作条件下玉米田杂草群落变化。结果表明 ,3种茬口杂草密度以米豆米迎茬最小 ,杂草密度在不同年际间存在着差异 ,随着连作年限的增加 ,使连作区一些杂草种类增加 ,同时也有些杂草种类减少 ,但这种差别主要是在双子叶杂草之间 ,单子叶杂草种类没有变化 ,如连作 1 2年较连作 1 0年杂草增加了牛繁缕 ,减少了鸡眼草。 2年调查结果可知 ,连作、迎茬和轮作 3个茬口相比 ,米豆米迎茬较连作和轮作杂草种类发生的少     

Effects of metabolic inhibitors on mouse preimplantation embryo development and the energy metabolism of isolated inner cell masses

The effects of two metabolic inhibitors, methyl palmoxirate (MP) and amino-oxyacetate (AOA), on mouse preimplantation embryo development and cell number, and inner cell mass (ICM) cell metabolism have been examined. Two-cell embryos were cultured in media supplemented with either MP, which inhibits fatty acid oxidation, or AOA, which inhibits the transamination of glutamate into α-ketoglutarate. Embryos were scored for development daily. On day 5, expanded blastocysts were differentially labeled with fluorochromes to visualize TE and ICM cell nuclei, or the ICMs isolated by immunosurgery and their energy metabolism determined using microfluorometric methods. Embryos exposed to the two inhibitors developed into fully expanded blastocysts, although cell numbers of both the TE and ICM cells were significantly reduced compared to controls. The uptake of glucose in the presence of 1 mM MP or AOA did not differ from the controls, but less glucose was accountable for by lactate production. MP significantly reduced lactate production. In the presence of 4 mM AOA, the amount of glucose oxidized and the amount of lactate formed by ICMs were significantly reduced. The results indicate that the fuels used by isolated mouse ICMs vary in response to substrate availability and that fatty acids may be a potential energy source. © 1996 Wiley-Liss, Inc.     

Effects of Cropping Sequences on Population Densities of Meloidogyne hapla and Carrot Yield in Organic Soil

The influence of various cropping sequences on population densities of Meloidogyne hapla and carrot yield was studied in organic soil under microplot-and field conditions. Spinach, radish, barley, oat, and wheat were poor or nonhosts for M. hapla. Population densities of M. hapla were maintained or increased on cabbage, celery, lettuce, leek, marigold, and potato. Marketable percent-age and root weight of carrots were greater following spinach, oat, radish, and fallow-onion than those following two crops of onion or carrot in microplots. Under field conditions, the carrot-onion-oat-carrot cropping sequence decreased M. hapla population densities and provided a 282% increase in marketable yield of carrot compared to a carrot monoculture. Two consecutive years of onion increased M. hapla population densities causing severe root galling and a 50% yield loss in the following crop of carrot. Based on root-gall indices, carrots could be grown economically for 2 years following radish, spinach, and oat, but not following onion and carrot without the use of nematicides.     

Field and Microcosm Studies of Decomposition and Soil Biota in a Cold Desert Soil

In the extreme cold desert soil of the McMurdo Dry Valleys of Antarctica, we studied the effects of changing moisture and temperature on rates of decomposition and the activity and abundance of soil organisms. Our objective was to understand how moisture and temperature structure invertebrate communities and control important ecosystem processes and soil biotic activity in this extreme environment. First, in a field experiment, we manipulated soil moisture and temperature and compared cotton strip decomposition rates at two dry valley sites with different moisture regimes. At both sites, live nematode abundance and activity were unchanged by soil treatments over the 2-year study. In the same plots, the cotton strips did not decompose, despite soil warming and the addition of moisture. The results suggest that biological activity in the McMurdo Dry Valleys is severely limited and that soil organisms are not responsive to improving environmental conditions. Second, in microcosms, we manipulated dry valley soil moisture at a constant temperature of 10°C and measured the rates of key soil processes. Soil respiration, nitrification, and the decomposition of cotton strips were all greater in dry valley soils that were wetted to 10% moisture content, as compared to soils at 0.6%. These results indicate that the decomposition potential for dry valley soils is high when moisture and temperature limitations are removed. In the field, however, this process was extremely slow, and biota did not respond to improving environmental conditions. Soil processes appear to be limited primarily by the extreme desiccation of the dry valleys. Ecosystems processes are likely restricted to the brief periods following infrequent snowfall, melt, and soil wetting that permit the activity of soil microbes and biota. Received 23 May 2001; Accepted 7 September 2001.     

黑麦染色体组有效利用土壤潜在磷基因的遗传分析

以一整套中国春－帝国黑麦二体异附加系为材料用土培盆栽法对黑麦染色体组有效利用土壤潜在磷基因的遗传分析表明,附加帝国黑麦不同染色体对中国春小麦有效利用土壤潜在磷特性具有不同的效应。黑麦１Ｒ、７Ｒ染色体上携带有对该特性有较强促进作用的基因。而５Ｒ染色体上则携带有对该特性具强烈抑制效应的基因     

杉木解酚菌的筛选及对杉木苗抗酚作用的研究

从杉木林土壤中筛选到5株高效解酚菌（F2,F3,F4,F7,F15)通过盆栽试验,发现F4能抑制杉苗生长,而其余四株则能在不同条件下促进杉苗生长,但不能完全抵抗所加酸的抑制作用,而将五种菌按等比例混合后使用,则不仅能促进菌根苗Z和非菌根苗生长,还能抵抗酚酸的抑制作用。     

小麦玉米不同幅宽套作对种群生态关系和作物产量的影响

小麦玉米不同幅宽套作对种群生态关系和作物产量的影响李萍萍陈欣（南京农业大学农学系,２１００１４）ＩｎｆｌｕｅｎｃｅｏｆＤｉｆｅｒｅｎｔＢｅｄＷｉｄｔｈｏｎｔｈｅＩｎｔｅｒｓｐｅｃｉｆｉｃＲｅｌａｔｉｏｎｓｈｉｐａｎｄＹｉｅｌｄｉｎＲｅｌａｙＣｒｏｐｐ...     

凤丹连作对土壤理化性质和酶活性影响的研究

研究了安徽南陵凤丹园1~5年连续种植地中凤丹根际土壤的理化性质和几种酶活性的变化规律。结果表明：所有种植年限的凤丹根际土壤pH值均小于非种植土壤（p〈0.05）。全N、全P、全K、有机质等理化性质及酶活性（脲酶,硝酸还原酶,多酚氧化酶和蛋白酶）均显著高于非种植土壤（p〈0.05）。各年限根际土壤的脲酶,硝酸还原酶,多酚氧化酶和蛋白酶的R/S值均大于1,显示凤丹对4种根际土壤酶酶活性影响为正效应。连作5年凤丹和1年生凤丹根际土壤相比多酚氧化酶,脲酶和蛋白酶的活性分别下降了64.84%、52.55%、51.59%（均p〈0.05）;连作5年和2年相比,硝酸还原酶下降了23.26%（p〈0.05）,同时土壤全N、全P、全K和有机质分别下降了57.84%,36.76%,47.89%和19.84%（p〈0.05）。说明随凤丹连作,土壤中积累的根系分泌物对4种土壤酶活性表现出抑制作用,可能影响了土壤的理化性质。为揭示凤丹连作障碍的机理提供了实验依据。     

微生物絮凝剂连续化生产及其稳定性研究

利用多孔聚酯泡沫为载体,进行微生物絮凝剂产生菌的固定化及连续生产絮凝剂的研究。研究发现,利用多孔聚酯泡沫可吸附固定XN1菌丝细胞,且能较长时间保持高的活性。固定化XN1菌在三相流化床反应器中连续发酵运行13d无发现菌膜脱落现象,且发酵液絮凝活性均维持在90%以上,说明利用多孔聚酯泡沫颗粒作为固定化载体,连续生产絮凝剂的方法是可行的。另外,研究还发现,该菌所产生絮凝剂具有较高的热稳定性,在反应器中室温下保存数日仍可维持较高的絮凝活性。     

轮作与施肥对滁菊连作土壤微生物特性的影响

为探讨轮作模式与生物有机肥施用对滁菊连作土壤微生物特性的影响,以滁菊、小麦为研究对象,采用田间试验,设置滁菊连作模式、常规滁菊小麦轮作模式和滁菊小麦轮作模式配施生物有机肥(200 kg·667 m-2)3种处理,测定土壤化学性状、土壤微生物量碳氮和土壤微生物数量指标.结果表明:与连作模式相比,常规菊麦轮作模式与菊麦轮作配施生物有机肥模式的土壤pH值,有机质、碱解氮、速效磷与速效钾含量,土壤微生物生物量氮(MBN)、碳(MBC)、微生物熵,以及土壤细菌、真菌和放线菌数量增加,土壤MBC/MBN值和真菌占三大菌群总量的比值降低.在试验条件下,以滁菊小麦轮作配施200 kg·667 m-2生物有机肥效果最佳,土壤有机质含量为15.62 g·kg-1,碱解氮、速效磷和速效钾含量分别达到为64.75、83.26和96.72 mg·kg-1,微生物生物量氮、碳为217.40和38.41 mg · kg-1,细菌、真菌、放线菌数量分别为22.31×106、56.36×103、15.90×105 cfu·g-1.合理轮作和增施生物有机肥可改善土壤酸化状况、土壤肥力和土壤微生物群落结构,增加土壤养分有效供给,对减轻连作障碍具有积极作用.     

Effects of simulated N deposition on understorey vegetation of a boreal coniferous forest

1. We report the short-term effects of simulated nitrogen (N) deposition on the understorey of a boreal forest in northern Sweden. Doses of ¹⁵N double-labelled NH₄NO₃ (0·5, 12·5, 25·0 and 50·0 kg N ha^–1) were applied to 1 m² plots in the summer of 1995 and plants were harvested the following autumn.
2. No significant treatment effects were found in either above- or below-ground biomass which was distributed as follows: the ericaceous shrub Vaccinium myrtillus contributed 76%, the grass Deschampsia flexuosa 4%, and the bryophytes Dicranum majus and Pleurozium schreberi 20%.
3. The recovery of applied N in these species was 24, 27, 27 and 32% of the 0·5, 12·5, 25·0 and 50·0 kg N ha^–1 applications, respectively, and thus the recovery increased with the N dose.
4. In the 0·5 kg N ha^–1 treated plots, the highest concentrations of fertilizer-derived ¹⁵N were found in the bryophytes, while in plots given the three higher N applications, leaves of D . flexuosa had the highest concentrations.
5. N application resulted in elevated concentrations of free amino acid N, which indicate increased storage of N in plant tissues. Furthermore, the N application resulted in increased damage to V . myrtillus by natural enemies. The severity of disease caused by two foliar parasitic fungi showed a clear numerical response to N treatment, as did the amount of herbivory as a result of Lepidoptera larvae.     

Effect of dissolved free amino acids (DFAA) on the biomass and production of microphytobenthic communities

Mixed microphytobenthos communities, manipulated in two different ways in the laboratory (semi-natural and sediment-stripped), were examined for their response to dissolved free amino acids (DFAA) and nitrate (NO₃⁻). The semi-natural manipulation involved only the removal of macrofauna; and the sediment-stripped community used microfauna and flora that were separated from natural sediment and re-established on clean sediment, that is, certain indigenous nutrient sources were removed. Using sediment collected on two different occasions, two sets of experiments were made (3 and 4 week), under different light conditions. The response by the communities to the added nitrogen was measured as biomass (Chl a) and primary production. The stimulus from the DFAA addition on microphytobenthos biomass and primary production was similar to or higher than that from NO₃⁻. A conclusively positive effect from the nitrogen additions could be measured only in the sediment-stripped community. Compared to the semi-natural community, the sediment-stripped community responded faster to the added DFAA. When light was limiting, biomass and production by the sediment-stripped community was enhanced by the N additions, in particular by the DFAA addition. Results suggest that an efficient recycling of nitrogen allows generally nitrogen-poor sandy sediments to sustain high microphytobenthos productivity, thereby retaining nitrogen within the system.     

Growth conditions of and emetic toxin production by Bacillus cereus in a defined medium with amino acids

The growth and emetic toxin (cereulide) production of Bacillus cereus strains in defined culture media were studied. We found that a fully synthetic medium (CADM) allowed the production of emetic toxin and the addition of glucose enhanced it. By subtracting each amino acid from CADM, we found that only three amino acids, valine, leucine and threonine, were essential for growth and toxin production by B. cereus. The addition of high levels (50 mM) of leucine, isoleucine and glutamic acid decreased the toxin production. Other amino acids had no effect at this concentration.     

Effects of Exotic Plant Invasions on Soil Nutrient Cycling Processes

Although it is generally acknowledged that invasions by exotic plant species represent a major threat to biodiversity and ecosystem stability, little attention has been paid to the potential impacts of these invasions on nutrient cycling processes in the soil. The literature on plant–soil interactions strongly suggests that the introduction of a new plant species, such as an invasive exotic, has the potential to change many components of the carbon (C), nitrogen (N), water, and other cycles of an ecosystem. I have reviewed studies that compare pool sizes and flux rates of the major nutrient cycles in invaded and noninvaded systems for invasions of 56 species. The available data suggest that invasive plant species frequently increase biomass and net primary production, increase N availability, alter N fixation rates, and produce litter with higher decomposition rates than co-occurring natives. However, the opposite patterns also occur, and patterns of difference between exotics and native species show no trends in some other components of nutrient cycles (for example, the size of soil pools of C and N). In some cases, a given species has different effects at different sites, suggesting that the composition of the invaded community and/or environmental factors such as soil type may determine the direction and magnitude of ecosystem-level impacts. Exotic plants alter soil nutrient dynamics by differing from native species in biomass and productivity, tissue chemistry, plant morphology, and phenology. Future research is needed to (a) experimentally test the patterns suggested by this data set; (b) examine fluxes and pools for which few data are available, including whole-site budgets; and (c) determine the magnitude of the difference in plant characteristics and in plant dominance within a community that is needed to alter ecosystem processes. Such research should be an integral component of the evaluation of the impacts of invasive species.