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Soil properties vary according to the topography. They affect water uptake and root exploration in the soil. Consequently, they may also influence the spread of plant–parasitic nematodes. This study reports on the effect of toposequence-related variations in soil on banana yields, foliar nutrient status, and nematode impact. Twenty banana plots were visited within 6 hills/valleys at each of the three toposequence positions: valley bottom, mid-slope and crest. Important variability in plant growth, nutrition and soil properties was observed within the toposequence. Significantly better plant growth (height and girth) was observed in the valley bottoms, where banana bunch weight was 1.7–3.4 kg higher (although not significant) than at upper toposequence positions. Best plant growth was observed in valley bottoms in contrast to the highest N and K foliar deficiencies in this position. Plants in the valley bottoms had higher foliar Ca and Mg, and K compared to those in the crest. Plants in the mid-slope had greater percentage of dead roots (19.1%), compared to the plants in the valley bottoms (12.3%) and the crest (14.2%). Soils in the valley bottoms were deeper, sandier, with lower organic matter, lower N, and K compared to the soils at higher toposequence. Nematodes likely play a key role in banana root damage, however, their effect appear to be in relation to various soil factors at each position. The abundance of Pratylenchus goodeyi had generally limited impact on banana yields in fields having less than 5% slope (crest and valley bottom) where soil conditions were more optimal for root growth. However, in the presence of increased run-off on steeper middle slopes, root death was increased even under moderate pressure from P. goodeyi. 相似文献
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1种苎麻根腐病线虫的鉴定 总被引:1,自引:0,他引:1
【目的】对分离的一种苎麻根腐病线虫进行形态和分子生物学鉴定,为病原线虫分子生物学检测技术的研发及苎麻根腐病的防治奠定基础。【方法】从感染苎麻根腐病植株根中分离出一种植物病原线虫,利用显微技术观察线虫的形态特征,对其进行初步鉴定;之后采用分子生物学技术,提取单条线虫的DNA,利用通用保守性引物扩增了线虫核糖体DNA内部转录间隔区(rDNA-ITS)序列,并用软件DNAstar和DNAMAN进行序列分析,对该植物病原线虫进行进一步鉴定。【结果】根据形态特征,将获得的苎麻根腐病线虫初步鉴定为咖啡短体线虫。序列分析结果表明,该线虫rDNA-ITS序列与咖啡短体线虫湖北种群、越南种群、台湾种群、日本种群及尼日利亚种群的同源性依次为99.8%,99.0%,98.0%,97.8%和94.6%。该线虫rDNA-ITS序列在GenBank注册号为HQ403649。【结论】形态及分子生物学鉴定结果表明,分离的苎麻根腐病线虫为咖啡短体线虫(Pratylenchus coffeae)。 相似文献
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为了明确咖啡短体线虫对番茄植株的寄生性和致病性,利用温室盆栽接种和贝尔曼漏斗分离接种植株根际线虫的研究方法,测定了供试咖啡短体线虫5个不同地理种群对番茄的寄生性和致病性以及不同种群之间的致病力差异。结果表明:1)接种75d后供试咖啡短体线虫5个不同种群均能侵染番茄根系,并且在番茄根际的繁殖率(Rf)1,番茄是供试咖啡短体线虫5个不同种群的适合寄主;2)接种的番茄植株普遍长势弱,叶片黄化,根系减少,根部出现褐色病斑甚至坏死腐烂,线虫危害症状明显;3)接种番茄植株的株高、地上部鲜重和根鲜重等生长参数显著未接虫的对照组(CK),供试咖啡短体线虫5个不同种群对番茄均具有较强的致病性;4)寄主或地理来源不同的咖啡短体线虫不同种群之间的致病力存在差异,来自河南玉米的HN-K1种群的致病力最强,来自安徽小麦的AH-015A2种群的致病力最弱。综上所述,供试咖啡短体线虫5个不同种群对番茄均具有寄生性和致病性,但不同种群之间的致病力存在明显差异。本研究为番茄根腐线虫病害的识别与防控提供了一定的科学依据。 相似文献
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In coastal foredunes, the grass Ammophila arenaria develops a soil community that contributes to die-back and replacement by later successional plant species. Root-feeding nematodes and pathogenic soil microorganisms are involved in this negative feedback. Regular burial by wind-blown beach sand results in vigorous growth of A. arenaria, probably because of enabling a temporary escape from negative soil feedback. Here, we examine the role of root-feeding nematodes as compared to the whole soil community in causing negative feedback to A. arenaria. We performed a 3-year sand burial experiment in the field and every year we determined the feedback of different soil communities to plant growth in growth chamber bioassays.In the field, we established A. arenaria in tubes with beach sand, added three endoparasitic root-feeding nematode species (Meloidogyne maritima, Heterodera arenaria and Pratylenchus penetrans) or root zone soil to the plants, and created series of ceased and continued sand burial. During three subsequent years, plant biomass was measured and numbers of nematodes were counted. Every year, bioassays were performed with the field soils and biomass of seed-grown A. arenaria plants was measured to determine the strength of feedback of the established soil communities to the plant.In the field, addition of root zone soil had a negative effect on biomass of buried plants. In the bioassays, addition of root zone soil also reduced the biomass of newly planted seedlings, however, only in the case when the field plants had not been buried with beach sand. Addition of the three endoparasitic root-feeding nematodes did not influence plant biomass in the field and in the bioassays. Our results strongly suggest that the negative feedback to A. arenaria is not due to the combination of the three endoparasitic nematodes, but to other components in the soil community, or their interactions with the nematodes. 相似文献
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The influence of some agricultural practices on soil organisms and plant establishment of sugar beet
W. Heijbroek C. F. van de Bund 《European journal of plant pathology / European Foundation for Plant Pathology》1982,88(1):1-17
In a long term field experiment the influence of crop rotation and the application of insecticides and herbicides on soil arthropods (mesofauna), nematodes, soil fungi and weeds was investigated. Possible changes in numbers of not only pathogenic organisms, but also of predators or parasites of pathogens, could affect seedling establishment and/or yield of sugar beet. In soil samples taken during the spring, high population of the springtailOnychiurus armatus ware detected which caused considerable damage in the first two years. Later also rather severe infestations byAtomaria linearis occurred, probably caused by frequent sugar beet cropping.No significant influence of crop rotation on damage caused by soil arthropods could be detected yet, but in the 1/3 sugar beet and 2/3 winter wheat rotation more micro-arthropods and a higher diversity of species were found than in the blocks with continuous sugar beet growing. In the latter ones the numbers ofHeterodera schachtii increased and in 1980 the tolerance level was exceeded. On the contrary in the 1/3 sugar beet blocksPratylenchus spp. were dominant. Since a number of perennial weeds cannot be controlled sufficiently in sugar beet, some of them created a problem in the 1/1 sugar beet blocks.In the plots not treated with a soil herbicide large numbers of annual weeds provided alternative native food forO. armatus, which resulted in less plant damage. No significant effect of chloridazon on the micro-arthropod fauna could be detected. The insecticides lindane and aldicarb controlledO. armatus andA. linearis partially, and improved seedling emergence and to a lesser extent yield. Both insecticides had a variable effect on the relative abundancy ofCollembola and in addition lindane suppressed numbers ofAcariformes and aldicarb those ofParasitiformes. No negative influence on the species diversity could be detected. All effects did not last long and varied considerably from year to year.Indications were found that, if species ofCollembola, which could act as predators of nematodes, were suppressed, the numbers ofPratylenchus spp. andH. schachtii increased.Samenvatting In een veeljarig proefveld (1976–1979) werd de invloed van de vruchtopvolging en toepassing van insecticiden en herbiciden op bodemarthropoden (mesofauna), nematoden, bodemschimmels en onkruiden onderzocht. Niet alleen mogelijke veranderingen in de aantallen schadeverwekkers, maar ook in de aantallen predatoren en pathogenen van bodemplagen zouden het plantbestand en/of de opbrengst van suikerbieten kunnen beïnvloeden.Gedurende de eerste twee jaar van de proef werden in grondmonsters, die gedurende het voorjaar werden genomen, grote aantallen springstaarten (Onychiurus armatus) aangetroffen, die aanzienlijke schade veroorzaakten. Later kwamen eveneens aantastingen door het bietekevertje (Atomaria linearis) voor, waardoor in meerdere of mindere mate planten wegvielen.Er kon nog geen duidelijke invloed van de vruchtopvolging op de schade door bodemarthropoden worden vastgesteld, maar in de rotatie met 1/3 suikerbieten en 2/3 wintertarwe werden meer micro-arthropoden en een grotere soortenrijkdom gevonden dan in de gedeelten met een continuteelt van suikerbieten. In laatstgenoemde veldjes zijn de aantallen bietecystenaaltjes (Heterodera schachtii) toegenomen, waarbij in 1980 de tolerantiegrens werd overschreden. Daarentegen vond in de veldjes met 1/3 suikerbieten in de rotatie een sterkere vermeerdering vanPratylenchus spp. plaats dan in de continuteelt. Aangezien een aantal wortelonkruiden in suikerbieten niet voldoende kan worden bestreden, veroorzaakten enkele na enige jaren een probleem in de continue bietenteelt.In de veldjes die niet met een bodemherbicide waren behandeld vormden grote aantallen zaadonkruiden een alternatieve voedselbron voorOnychiurus armatus, wat een geringere aantasting van kiemplanten tot gevolg had. Er werd geen aantoonbaar effect van chloridazon op de micro-arthropoden vastgesteld.De insecticiden lindaan en aldicarb konden schade doorOnychiurus armatus enAtomaria linearis slechts gedeeltelijk voorkomen; er werd een duidelijk betere opkomst en soms ook een hogere opbrengst verkregen. Beide insecticiden hadden een wisselende invloed op de relatieve talrijkheid vanCollembola en bovendien onderdrukte lindaan de aantallenAcariformes en aldicarb deParasitiformes. Er kon geen negatieve invloed op de soortenrijkdom worden vastgesteld. Al deze effecten waren niet van langdurige aard en verschilden sterk van jaar to jaar.Er werden aanwijzingen gevonden dat, indien bepaalde soortenCollembola, die als predatoren van nematoden kunnen optreden, werden onderdrukt, de aantallenPratylenchus spp. enHeterodera schachtii toenamen. 相似文献
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Soil applications of powdered neem seed or neem cake at 100 g/plant at planting and, subsequently, at 3-month intervals, reduced
the populations ofPratylenchus goodeyi Sher & Allen andMeloidogyne spp. on par with Furadan 5G (carbofuran) applied at 40 g/plant at planting and then at 6-month intervals to banana plants
grown in 100-/ containers with controlled levels of banana nematode infestations. Eight months after planting, banana plants
treated with powdered neem cake, seed or kernel or with neem oil had 4 to 95 times fewer parasitic nematodes than the untreated
control. However, only neem cake powder or neem seed powder applied to unpared banana plants kept the nematode population
below the economic threshold. 相似文献