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1.
为研究施用过量的农用化学品对土壤线虫群落组成及多样性的影响,采用定点试验的方法,在哈尔滨市呼兰区选择典型农田生态系统进行试验,对比研究土壤线虫群落对施用过量的氮肥、磷肥、钾肥、除草剂及杀虫剂的响应。在试验田中共鉴定出土壤线虫27科45属,其中Cephalobus和Aphelenchus为优势属。施用不同浓度的各类农用化学品对土壤线虫群落组成、多样性均产生一定影响。线虫总数及食细菌线虫、食真菌线虫、植物寄生线虫数量在不同处理间均存在显著差异(P<0.05);其中,植物寄生线虫的相对丰度随化肥施用量的升高呈增加趋势。从土壤线虫的生态指数来看,除PPI(植物寄生线虫成熟指数)外,其他生态指数[MI(成熟度指数)、F/B(食真菌线虫与食细菌线虫数量比值)、Evenness(均匀度指数)、SR(丰富度指数)、H’(多样性指数)]在施用不同农用化学品处理之间也存在显著差异,并且,MI随着施用钾肥、氮肥浓度的增加而降低。土壤线虫可以作为揭示施用农用化学品过程中土壤质量变化的生物学指标,其群落及多样性的变化表明土壤线虫群落对农用化学品的过量施用产生了响应,过量施用农用化学品会增加土壤生态系统的干扰,对土壤环境造成威胁。 相似文献
2.
连作番茄根区病土对番茄生长及土壤线虫与微生物的影响 总被引:4,自引:0,他引:4
探索连作番茄根区病土对番茄根结线虫病的诱导效果及引起连作障碍的微生态机制,可为深入了解番茄连作障碍发生机理及探究番茄连作障碍防治方法提供科学依据。本研究利用盆栽试验,测定了番茄在健康土壤及接种病土土壤中生物学特性变化及根结线虫侵染状况,并分析鉴定了土壤中微生物及线虫的种类与数量。结果表明,接种连作番茄根结线虫病株根区病土会对番茄生长及根结线虫侵染产生影响:1)番茄苗期根系根结数达9个?株~(-1),健康土壤无根结;土壤线虫数量较健康土壤增加390.4%;收获期番茄根结线虫侵染率达62.7%,病情指数为80.0%。2)番茄生长受到抑制,叶片防御酶活性降低,收获期茎叶及根系鲜质量较健康土壤分别减少50.2%及33.1%,苗期番茄叶片PPO活性较健康土壤降低15.8%,POD活性较健康土壤增加24.0%,差异均达显著水平(P0.05)。3)番茄根系更易感染有害菌,根系内病原菌甘蓝假单胞菌数量较健康土壤增加463倍,根区土壤细菌、真菌及放线菌总数分别增加46.3%、94.5%及134.0%。4)食细菌线虫、食真菌线虫及植物寄生性线虫数量分别为健康根区土壤的3.3倍、1.6倍及7.3倍,其中的植物寄生线虫95.6%为根结线虫。综上所述,接入连作番茄根结线虫病株根区病土不仅导致番茄遭受根结线虫侵染,而且会导致土壤线虫总量及植物寄生线虫所占比例大幅增加,并使番茄根系内有害细菌数量显著增加,对番茄生长造成显著抑制作用,同时影响番茄的生理生化特性,受线虫侵染番茄防御性酶活性降低,使其更易被根结线虫及病原菌侵染,番茄根区土壤线虫、微生物及根系内优势细菌的种类与数量及其之间的作用发生改变。 相似文献
3.
Actinomycetes, Bacillus subtilis, and Bacillus thuringiensis were isolated from municipal–solid waste (MSW) compost, and different microbial liquid filtrates (MLF) were prepared. Sterile culture media with no microbes were used as their controls. The effects of MLF on soil nematode communities were examined in pot‐grown Festuca arundinacea Schreb. Fifteen genera of nematodes in background soil were identified, of which Helicotylenchus and Rotylenchus were dominant. The inoculation of MLF strongly affected the abundance and community structure of soil nematodes. Compared with their controls, lower total nematode numbers following MLF incorporation were found. Actinomycetes inoculation changed community structure of soil nematodes, transforming the dominant genera from Helicotylenchus and Rotylenchus into Cephalobus, Chiloplacus, and Aphelenchus. Actinomycetes incorporation resulted in a significant decrease of plant‐parasitic nematodes relative to control pots. Only plant‐parasitic and omnivorous‐predatory nematodes were found in treatments following B. subtilis inoculation, and Helicotylenchus, Rotylenchus were dominant genera with relative abundance of 76.2% and 14.3%, respectively. Although the dominant genera were still Helicotylenchus and Rotylenchus, B. thuringiensis inoculation led to a marked decrease in populations of plant‐parasitic nematodes and an increase in populations of fungivorous and bacterivorous nematodes relative to control. Shannon's diversity index (H′), evenness index (J′), richness index (SR), and Wasilewska index (WI) in pots treated with actinomycetes and B. thuringiensis filtrates were significantly higher than those of their controls, whereas significant lower dominance index (λ) in actinomycetes and B. thuringiensis treatments was observed than their controls. Plant growth was improved in the treatments inoculated with three microbes. The findings highlight that actinomycetes can most effectively suppress plant‐parasitic nematodes, increase community diversity, evenness, and richness, thus improving soil environment for turf growth. 相似文献
4.
Nematode community composition and diversity associated with a topoclimatic transect in a rain shadow desert 总被引:1,自引:0,他引:1
Yosef Steinberger Wenju Liang Elena Savkina Tania Meshi Ginetta Barness 《European Journal of Soil Biology》2001,37(4):315
The effect of a topoclimatic gradient on soil nematode communities was investigated in the Israeli Judean Desert. Four locations along a 35 km gradient, from an elevation of 650 m above sea level with 620 mm rainfall to a –60 m relative to sea level with a rainfall below 110 m, were studied: Givat Yearim, Maale Adumim, Mishor Adumim and Kalia. Monthly soil samples were collected between January 1994 and December 1995. Thirteen nematode families and 17 genera were observed. Cephalobus, Heterocephalobus, Aphelenchoides, Tylenchus, Dorylaimus and Eudorylaimus were found to be the dominant genera. Ecological measurements of soil nematode community structure, diversity, and maturity indices were assessed, and comparisons between four locations and four seasons were made. Significant differences in the total numbers of nematodes were found between the locations (p < 0.01) and seasons (p < 0.05), where Givat Yearim > Maale Adumim > Mishor Adumim > Kalia, winter > spring > autumn > summer. Bacterivores were found to be the most abundant trophic group across locations and seasons, with a mean relative abundance of 55.0%. The densities of bacterivores, plant parasites and omnivores-predators during the winter season exhibited similar trends at all four locations, with Givat Yearim > Maale Adumim > Mishor Adumim > Kalia. None of the ecological indices were significantly different between locations. However, the maturity index (MI), trophic diversity (TD) and Simpson diversity (SI) exhibited significant differences between seasons. 相似文献
5.
Nematode communities of grazed and ungrazed semi-natural steppe grasslands in Eastern Austria 总被引:4,自引:0,他引:4
Pamela Zolda 《Pedobiologia》2006,50(1):11-22
Soil nematode communities were investigated at eight semi-natural steppe grasslands in the National Park Seewinkel, eastern Austria. Four sites were moderately grazed by horses, cattle and donkeys, four were ungrazed. Nematodes were sampled on four occasions from mineral soil, and their total abundance, diversity of genera, trophic structure and functional guilds were determined. Altogether 58 nematode genera inhabited the grasslands, with Acrobeloides, Anaplectus, Heterocephalobus, Prismatolaimus, Aphelenchoides, Aphelenchus, Tylenchus and Pratylenchus dominating. Mean total abundance at sites was 185–590 individuals per 100 g soil. Diversity indices did not separate communities well, but cluster analysis showed distinct site effects on nematode generic structure. Within feeding groups the relative proportion of bacterial-feeding nematodes was the highest, followed by the fungal- and plant-feeding group. Omnivores and predators occurred in low abundance. The maturity indices and plant parasite indices were characteristic for temperate grasslands, but the abundance of early colonizers (c-p 1 nematodes) was low. A high density of fungal-feeding c-p 2 families (Aphelenchoidae, Aphelenchoididae) resulted in remarkably high channel index values, suggesting that decomposition pathways are driven by fungi. Nematode community indices of all sites pointed towards a structured, non-enriched soil food web. At most sites, grazing showed little or no effect on nematode community parameters, but total abundance was higher at ungrazed areas. Significant differences in the percentage of omnivorous nematodes, the sum of the maturity index, the number of genera and Simpson's index of diversity were found at one long-term grazed pasture, and this site was also separated by multi-dimensional scaling (MDS). 相似文献
6.
Fifty sloping fields of barley with different short-term cropping histories across Prince Edward Island were examined for variations in root-zone depth and the severity of soil parasitic nematodes as part of a wider study of relationships between cropping sequence, topographic position, soil physical conditions and crop performance. Root lesion nematode (Pratylenchus penetrans) density in the roots was significantly greater (13%) at foot slopes than at top slopes, and stunt nematode (Tylenchorhynchus spp.) was significantly greater (8%) at top slopes where the soil was drier. The density of stunt nematodes and root lesion nematodes in the soil was significantly greater (>15%) under miscellaneous cereals-barley sequences than under potato-barley or hay-barley, attributable to level of carryover. Root lesion nematode density in the roots was significantly greater (12%) under hay-barley than either of the other two sequences. This nematode also showed a strong tendency to increase in number with increasing root-zone depth, and may be explained on the basis that increased root-zone depth provides increased host root mass (substrate). Stunt nematodes, on the other hand, increased with decreasing root-zone depth and may be explained by the known propensity of these organisms for drier, shallower soil conditions. 相似文献
7.
《Applied soil ecology》2000,14(1):27-36
The nematode communities of 36 grassland ecosystems in Romania, belonging to different plant associations and soil types, were studied. The abundance of nematodes, the species and trophic types present, as well as their distribution in relation to plant community and soil characteristics are analyzed and discussed.The abundance of nematodes from the 36 grasslands studied ranged between 0.41 × 106 and 8.57 × 106 individuals/m2, and a total of 121 genera and 145 species of nematodes were found. The highest diversity was found in grasslands developed on brown earth soil (65–67 genera and 74–76 species), with least diversity in those evolving on podzol and lithosol (33–36 genera with 25–28 identified species). Most of the dominant taxa were found in specific soil layers; some obligate plant parasitic genera (e.g., Paratylenchus, Rotylenchus, Criconema) showed preference for deeper soil layers. The nematode diversity index (H′), with values ranging between 2.38 and 3.47, did not differ significantly between the different types of grasslands. Plant feeding, bacterial feeding, hyphal feeding and omnivorous nematodes were the main groups in mountainous grasslands developed on different soil types. Plant feeding and bacterial feeding nematodes dominated the trophic structure and more plant feeders (62–69%) were found in communities of subalpine and alpine grasslands developed on podzol and alpine meadow soil, than in those developed on rendzina and lithosol (27–33%). The ratio of hyphal feeding to bacterial feeding nematodes (Hf/Bf) is constantly in favour of the bacterial feeding group, the values being an indicator of good soil fertility for most studied grasslands. The nematode communities of grasslands are grouped into six main clusters according to their genera affinity and distinguished by different grassland and soil types. Communities from subalpine grasslands developed on rendzina, acid brown and lithosol have the greatest similarities. An ordination of nematode communities in relation to important environmental variables is presented. Environmental variables relevant in explaining the patterns of nematode composition in grasslands, using canonical correspondence analysis (CCA), are: humus, pH, total nitrogen, exchangeable bases and soil type. No single factor could be selected. 相似文献
8.
Yufei Li Chunyan Zheng Zhiping Cao 《Acta Agriculturae Scandinavica, Section B - Plant Soil Science》2013,63(4):360-371
A comparative study of organic, low input, conventional vegetable greenhouse systems was conducted to assess the effect of management practices on the soil nematode community. Bacterivores were the most dominant trophic group in all three systems with a mean proportion of over 80%, followed by omnivore-carnivores. In general, organic management practices increased the abundance of total nematodes, bacterivores, fungivores, and omnivore-carnivores in comparison with low input and conventional management practices. Though inhibitory effects of plant feeders were found in organic and low input systems, these effects were more evident in organic systems. However, small differences were observed in the composition of trophic groups and fauna analysis. All three systems displayed enriched soil conditions and structured food webs. We inferred that the bottom-up effect resulting from organic input in the soil food web may play a more important role than the disruption effects under our high input greenhouse conditions. The Shannon index (H′) and genus dominance (λ) suggested that in greenhouse conditions, excessive manure input would cause a decrease in nematode diversity but increase the dominance, particularly for enrichment opportunists. We concluded that management practices under greenhouse conditions were more influential on nematode biomass (including trophic groups) than community structure. 相似文献
9.
连作年限对香蕉园土壤线虫群落结构及多样性的影响 总被引:3,自引:1,他引:3
为研究连作对蕉园土壤生态系统的影响,以海南香蕉种植区为例,采集不同连作年限(l a、3 a、5 a、7a、10 a和15 a)蕉园土壤,采用线虫形态学鉴定方法,分析了不同连作年限蕉园土壤线虫群落结构及多样性的变化规律。结果表明:整个生育期不同连作年限地块共发现土壤线虫属45个。苗期随连作年限增加线虫总数、食细菌线虫数量和食真菌线虫数量逐渐降低(15 a除外);营养生长期随连作年限增加线虫总数、食细菌线虫数量和食真菌线虫数量先增加后降低;抽蕾期随连作年限增加线虫总数和食细菌线虫数量先增加后降低,食真菌线虫数量逐渐降低。整个生长季,随着连作年限增加植物寄生线虫数量先增加后降低。苗期、营养生长期和成熟期,随着连作年限增加捕食/杂食线虫数量逐渐降低。苗期和抽蕾期的线虫总数显著高于营养生长期和成熟期。苗期的食真菌线虫数量和营养生长期的植物寄生线虫数量显著低于其他各生长时期。苗期和营养生长期的捕食/杂食线虫数量显著低于抽蕾期和成熟期。苗期随连作年限增加,优势度指数(λ)先增加后降低,香农多样性指数(H)和植物寄生线虫成熟度指数(PPI)逐渐增加,瓦斯乐斯卡指数(WI)和通路指数(NCR)逐渐降低;营养生长期随连作年限增加,λ先增加后降低,NCR和PPI逐渐增加,H、自由生活线虫成熟度指数(MI)和WI逐渐降低;抽蕾期随连作年限增加,λ先增加后降低,NCR和PPI逐渐增加,H和WI逐渐降低;成熟期随连作年限增加,H和MI逐渐降低,PPI逐渐增加。从整个生育期来看,随生长时间推移,H逐渐增加,λ逐渐降低,苗期和营养生长期的MI低于抽蕾期和成熟期,苗期和成熟期的WI低于营养生长期和抽蕾期。本研究显示,土壤线虫群落结构可有效反映连作蕉园土壤的健康状况,土壤线虫可作为土壤中重要的指示生物。 相似文献
10.
施用化学农药对大豆田土壤线虫群落的影响 总被引:2,自引:0,他引:2
针对大豆生长期内单一与复合施用乙草胺和呋喃丹对土壤线虫群落结构的影响进行研究。研究结果表明,乙草胺和呋喃丹单一与复合处理中土壤线虫的数量在各采样时期之间、处理之间及二者的交互作用之间均呈现极显著差异(P<0.01);在大豆生长的不同时期,线虫各营养类群的数量受到不同程度的抑制。对线虫生态指数的分析结果表明,乙草胺单一处理对线虫的丰富度表现出促进效应,而呋喃丹单一处理和二者复合处理对线虫丰富度表现出抑制效应;各处理均显著降低了线虫的总成熟度指数(ΣMI),表明线虫群落受到扰动,食物网受到胁迫。 相似文献
11.
Juan E. Palomares-Rius Pablo Castillo Miguel Montes-Borrego Henry Müller Blanca B. Landa 《Soil biology & biochemistry》2012
Classical and molecular methods were used to study the nematode communities associated with rhizosphere soil and roots of a collection of 16 olive cultivars from a world olive germplasm bank in Mengibar (Jaen province, southern Spain). Classical nematological analysis, including soil nematode extraction, species counting and morphological identification showed that 24 taxa belonging to 9 genera (including Aphelenchoides, Criconemoides, Ditylenchus, Filenchus, Helicotylenchus, Merlinius, Paratylenchus, Tylenchus, and Xiphinema) and 8 families (including Anguinidae, Aphelenchidae, Belonolaimidae, Criconematidae, Hoplolaimidae, Longidoridae, Tylenchidae and Tylenchulidae) of plant-parasitic nematodes were present, with one species (Helicotylenchus digonicus) being prevalent in all samples. The low values of the plant-parasitic nematode index (PPI) indicated a high disturbance of the field soil probably due to application of herbicides and fertilizers. Cluster analysis of population densities of the various nematode species, nematode trophic groups, and ecological indices grouped most olive cultivars into three main clusters indicating that olive genotypes differ in the nematode communities in their rhizosphere soil. The use of T-RFLP analysis discriminated to a higher extent the nematode communities present in the rhizosphere soil from the different olive cultivars as compared to the morphological-based analysis. This study provides the first evidence of an effect of the olive genotype on nematode community composition by combining classical morphological and molecular approaches. 相似文献
12.
Brassicaceous cover crops, such as brown mustard(Brassica juncea) and oil radish(Raphanus sativus), are commonly used for biofumigation, a process that utilizes isothiocyanates(ITCs) generated from the hydrolysis of glucosinolates in Brassica plants to suppress soil-borne pathogens, including plant-parasitic nematodes. Given the biocidal nature of ITCs, limited information is available on the non-target effects of biofumigation on free-living nematodes, which are reliable soil health indicators.... 相似文献
13.
Carbon nanomaterials have been widely used in industry and inevitably enter the environment. However, there is little information about their influence on the abundance and diversity of soil nematode community. We evaluated the impact of three kinds of carbon nanomaterials (graphene, graphene oxide, and carbon nanotubes) on the abundance and diversity of soil nematodes after growing tall fescue for 130 d using a laboratory pot experiment. A total of 29 genera of nematodes were identified in all the treatments. Carbon nanomaterials significantly increased the abundance of total nematodes and plant parasites. The presence of graphene and graphene oxide increased the numbers of bacterivores, and graphene benefited fungivores. The total nematode abundance was 1.9-2.9 times greater in the carbon nanomaterial treatments than in the control with no carbon nanomaterial addition. However, graphene oxide and carbon nanotubes decreased the values of nematode community parameters, e.g., diversity, species richness, and structure index. Compared with the control, the addition of graphene resulted in a community with a higher plant-parasitic index (i.e., the maturity index of the plant-parasitic nematodes). Overall, our findings highlight that the addition of carbon nanomaterials has a negative influence on the composition and diversity of the nematode community, simplifying the community structure. 相似文献
14.
栽培对黑土线虫营养群体的空间分布的影响 总被引:15,自引:7,他引:15
Geostatistics combined with GIS was applied to assess the spatial distribution of nematode trophic groups following two contrasting soil uses in the black soil region of Northeast China.Two plots,one with fallow for 12 years and the other cultivated,were marked on regular square grids with 2-m spacing.Soil samples were collected from each sampling point,nematodes were extracted from these samples and classified into four trophic groups:bacterivores,fungivores,plant parasites,and omnivores/predators.The numbers of total nematodes and trophic groups analyzed had normal distributions on both fallow and cultivated plots.The absolute abundances of total nematodes and trophic groups were observed to be much nore homogeneous on cultivated plot than on fallow one.Geostatistical analysis showed that the densities of total nematodes and trophic groups on both fallow and cultivated plots exhibited spatial dekpendence at the sampled scale and their experimental semivariograms were adjusted to a spherical or exponential model,except those of bacterivores and fungivores oncultivated plot.The spatial distribution of nematode trophic groups was found to be different for the two land uses,indicating that cultivation changed the native condition for soil nematode activities. 相似文献
15.
It is well known that Taylor's power law describes spatial aggregation, but its ecological interpretation remains elusive. Here we used data on spatial organization of soil nematode communities in urban landscapes to test relationships between nematode life history characteristics and the power law aggregation indicator, b. Forty seven genera of soil inhabiting nematodes were identified from 360 samples taken from turfgrass lawns at three public schools located in each of three northeast Ohio cities in July and October 2007. The nematodes were classified according to their life-styles in three life history classifications: trophic group, colonizer-persistor (cp) class, and functional guild, a combination of trophic group and cp-class. Estimates of Taylor's b for 28 more common genera ranged from 1.21 to 2.34. Estimates of b for trophic group, cp-class and functional guild ranged from 1.41 to 2.10, 1.34 to 1.97 and 1.41 to 2.39, respectively. Segregating genera by their trophic group, cp-class and functional guild each accounted for as much inter-genus variation in Taylor's power law as fitting 28 separate regressions. The improvements of fit in parallel line analyses for the three life-style categories over 28 lines for individual genera were highly significant. Bacterial- and plant-feeding groups were more highly aggregated than omnivorous and predatory nematodes. Nematodes in cp-classes 1 and 2 tended to be more aggregated than those in higher cp-classes. The functional guilds were generally more highly aggregated than individual genera, suggesting a higher degree of aggregation at the functional guild level. We conclude that nematode genera vary in their spatial organizations, but membership in a cp-class and functional guild accounts for much of this variability. Thus, Taylor's power law aggregation indicator, b, is sensitive to nematode feeding habits and life strategy traits as they influence a population's pattern of spatial organization. 相似文献
16.
不同种植年限黄瓜温室土壤线虫群落结构及多样性的比较 总被引:1,自引:1,他引:0
17.
为了解西藏墨脱嘎隆拉山铁杉林土壤生态系统线虫群落的结构及多样性特征,采用种类组成、个体密度、多样性指数、功能性指数等特征值分析土壤线虫群落结构及多样性特点,并通过冗余分析及线性相关性分析探讨线虫群落与土壤理化性质间的关系。结果显示,嘎隆拉山铁杉林土壤线虫隶属于5目29科34属,个体密度介于0~1 231条?100 g~(-1)干土之间,平均278条?100g~(-1)干土,土层间无明显差异;群落优势属为垫咽属Tylencholaimus和细齿属Leptonchus;食真菌性线虫是最主要的营养类群;土壤有机质以真菌降解途径为主;嘎隆拉山铁杉林生态系统成熟度高,目前处于相对稳定状态;土壤速效钾含量显著影响线虫群落的数量和多样性;有机质、全氮、碱解氮、有效磷会对线虫数量造成影响;土壤含水量是嘎隆拉铁杉林土壤线虫群落的重要环境影响因子之一。 相似文献
18.
科尔沁沙地黑沙蒿人工植被土壤线虫群落特征 总被引:1,自引:0,他引:1
本文针对科尔沁沙地黑沙蒿人工植被土壤线虫的总数、群落组成、营养类群进行了研究。结果表明,随着黑沙蒿种植年限的增加,土壤线虫数量显著增加。不同年限黑沙蒿植被之间土壤线虫总数差异显著(P<0.01)。在本研究中共获得线虫13科19属,其中Acrobeles为优势属。在半流动沙丘生态系统中,植物寄生线虫为优势营养类群;而在黑沙蒿人工植被生态系统中,线虫群落逐渐向以食细菌线虫占优势的方向演替。本实验结果表明,土壤线虫群落结构对退化沙漠生态系统的恢复阶段具有很好的生物指示作用。 相似文献
19.
黄瓜连作土壤高温处理对根结线虫和枯萎病的影响 总被引:1,自引:1,他引:0
[目的]设施黄瓜连作导致根结线虫和枯萎病发生普遍且严重,利用夏季温室休闲期高温闷棚是解决上述土传病害安全而有效的途径之一。本试验模拟高温闷棚,研究不同温度处理连作土壤根结线虫和枯萎病的变化,旨在为利用太阳光进行温室高温消毒提供理论支撑。[方法]本试验以连作1~19茬‘津优30’黄瓜品种的土壤为试材,首先探明不同连作茬次黄瓜的根结线虫和枯萎病发生程度以及土壤中二者病原物种群数量的动态变化,然后对发病较重的第17茬连作土壤分别进行45℃、50℃、55℃和60℃的高温处理,最后测定比较不同温度处理后的土壤中病原物数量变化,并对高温处理后的土壤进行栽培试验,测量和比较两种病害的发生程度及植株各项生长指标。[结果]随着黄瓜连作茬次的增加,土壤中根结线虫和枯萎病菌的种群数量均增加,两种病害也逐茬加重,至第17茬两种病害的发病程度及其对应病原物的数量均达最高(或次高)水平;对第17茬黄瓜连作土壤进行45℃~60℃的高温处理,随着温度的升高,土壤中的根结线虫和枯萎病菌的数量均减少,当处理温度达55℃时可完全杀灭土壤中根结线虫,达60℃时可同时杀灭枯萎病菌;用高温处理的连作土壤栽培黄瓜秧苗,其根结线虫病和枯萎病的发生程度均随着处理温度的升高而减轻,当处理土壤的温度达到50℃和60℃以上时,根结线虫病和枯萎病分别被完全控制;另外,用60℃处理的连作土壤定植黄瓜,其后期植株生长指标和壮苗指数也显著优于对照。[结论]土传病害随连作茬次增加而加重主要是缘于土壤中病原物积累,定植前对土壤55℃以上的高温处理,可有效减少乃至完全杀灭土壤中根结线虫和枯萎病菌,从而减轻或杜绝两种病害的发生。 相似文献
20.
设施菜地长期施肥对土壤线虫群落结构和多样性的影响 总被引:2,自引:0,他引:2
基于设施菜田肥料定位试验地,研究了长期施用化肥对土壤线虫群落结构及多样性的影响,为设施蔬菜的合理施肥和可持续生产提供理论依据。研究期间,共鉴定土壤线虫38个属,其中假海矛属(Pseudhalenchus)、短体属(Pratylenchus)和真滑刃属(Aphelenchus)为优势属。长期施用化肥显著增加各研究土层的线虫总数,并改变线虫的群落结构。长期施化肥对0~10 cm土层线虫各生态指数的影响不显著。在10~20 cm和20~40 cm土层,长期施用化肥显著提高食真菌与食细菌线虫比例(F/B)而降低线虫通路比值(NCR),表明其促进以食真菌为主的腐屑食物网分解通道;其显著提高优势度指数(λ)而降低香农指数(H)'、均匀度指数(J)和丰富度指数(SR),表明长期施用化肥导致土壤线虫多样性降低。土壤线虫可以作为评价施肥对土壤质量影响的生物指标。 相似文献