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1.
An overview of the occurrence of species of the genus Bursaphelenchus in Romania is presented. The data is based on recent surveys conducted for the first time throughout the country, to monitor and evaluate the potential entry of the pine wood nematode, Bursaphelenchus xylophilus. Wood samples were collected from declining trees, wood‐processing companies and imported wood packaging material. Of the 895 wood samples examined, 11 contained Bursaphelenchus specimens. Morphological and molecular analyses were carried out to characterize the species detected. With respect to the possible presence of B. xylophilus, all samples were negative, confirming the absence of this quarantine pest in Romania. Nevertheless, five Bursaphelenchus species were found: B. hofmanni, B. poligraphi, B. vallesianus, B. willibaldi, and one putative new species belonging to the sexdentati group, classified here as Bursaphelenchus sp. NR512. These results constitute the first report of the genus Bursaphelenchus in Romania. 相似文献
2.
Lin Huang Jian-ren Ye Xiao-qin Wu Xu-ling Xu Jiang-mei Sheng Qing-xia Zhou 《European journal of plant pathology / European Foundation for Plant Pathology》2010,127(1):89-98
A species-specific real-time PCR assay targeting the DNA topoisomerase I gene has been developed to detect Bursaphelenchus xylophilus. The specificity of the assay was confirmed by the lack of amplification of genomic DNA from other Bursaphelenchus or Seinura species. The sensitivity test showed that the limit of the reaction was 0.01 ng of genomic DNA or one individual nematode,
as small as an egg. The validity of the real-time PCR assay was evaluated by analyzing mixed nematode samples extracted from
diseased pine trees in which B. xylophilus was associated with several closely related species, B. mucronatus, B. hofmanni, Aphelenchoides macronucleatus, S. lii and S. wuae. These results demonstrate the potential of the assay to provide rapid, specific and sensitive molecular identification of
B. xylophilus for use in pest risk assessment and quarantine regulations. 相似文献
3.
An ongoing official survey to detect the pine wood nematode Bursaphelenchus xylophilus, a quarantine pest, started in 2003 in coniferous forests in Hungary. Based on the results of the study from 2003–11, B. xylophilus has not yet been detected in Hungary. Two other Bursaphelenchus species (B. mucronatus and B. vallesianus) were identified in samples in 2009. Details of the survey and the measurements of B. mucronatus and B. vallesianus are provided. 相似文献
4.
Official analyses undertaken in the framework of an official survey, or import controls need reliable results. This can be achieved by using validated methods. For morphological tests, this validation process is rarely illustrated despite guidance provided in EPPO PM 7/98 (1) Specific requirements for laboratories preparing accreditation for a plant pest diagnostic activity. This paper presents validation for the morphological identification of Bursaphelenchus xylophilus, with the evaluation results of published identification keys and of internally designed identification keys at B. xylophilus group and species levels. For published identification keys some criteria were shown not to be reliable for routine use: excretory pore position and number of caudal papillae. The key designed in the laboratory for xylophilus group identification was shown to be sensitive and specific when one male and one female were observed. The key designed for B. xylophilus species identification is sensitive, specific and reproducible if only one female of B. xylophilus is observed. The tools designed were validated as simple and reliable for routine analysis. The advantages and limitations of the validation process for morphological tools are discussed for process improvement. 相似文献
5.
Occurrence and ITS diversity of wood‐associated Bursaphelenchus nematodes in Scots pine forests in Switzerland 
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下载免费PDF全文 The quarantine pathogen Bursaphelenchus xylophilus (pine wood nematode, PWN) represents a serious threat for Pinus species in Europe. To exclude its presence in Switzerland, in 2010 and 2011 a countrywide survey was conducted in 102 Pinus sylvestris stands, chosen according to whether they contained dying or dead trees or were located in areas at risk of PWN introduction. In total, 285 trees (1–5 per site) were sampled. Nematodes were extracted from wood chips using a standard procedure, and identified to species by internal transcribed spacer (ITS) sequencing. Bursaphelenchus species were present in 34% of the trees, but no B. xylophilus was identified, i.e. PWN is still not present in Switzerland. The nematodes found belonged to seven different species, with B. vallesianus the most frequent species, followed by B. sexdentati, B. mucronatus kolymensis and B. eggersi. Three other species (B. borealis, B. pinophilus, B. poligraphi) were each only present in one or two trees. Three groups of sequences could not be assigned to a species because of the lack of matching reference sequences. The species composition found in Switzerland suggests co‐existence of southern and central European Bursaphelenchus species. Intraspecific ITS variability differed considerably among the four most common species. Bursaphelenchus eggersi, B. mucronatus kolymensis and B. sexdentati had several variable sites in the ITS region, resulting in multiple ITS genotypes in each species. In contrast, all 99 B. vallesianus isolates had an identical ITS region. This could indicate a founder effect, and possibly that B. vallesianus is not native to the Alpine region. 相似文献
6.
The pinewood nematode Bursaphelenchus xylophilus is a severe pest of coniferous trees, and has been designated as a quarantine organism in the European Union. From the sequence of a satellite DNA family characterized in the genome of this nematode, we developed a PCR procedure that allowed the specific discrimination of this species from closely related Bursaphelenchus species found on coniferous trees. Moreover, because of the repetitive nature of satellite DNA, positive amplification was achieved from B. xylophilus single individuals, which should contribute to an easy diagnostic procedure for assisting in the management of this major pest of conifer forests. 相似文献
7.
Differences in constitutive and inducible defences in pine species determining susceptibility to pinewood nematode 下载免费PDF全文
下载免费PDF全文 C. S. Pimentel E. V. Gonçalves P. N. Firmino T. Calvão L. Fonseca I. Abrantes O. Correia C. Máguas 《Plant pathology》2017,66(1):131-139
The pinewood nematode, Bursaphelenchus xylophilus, originating from North America (NA), is a major invasive pine pest in Eurasia. It was first detected in Portugal in 1999 associated with maritime pine, Pinus pinaster, and has been differently affecting the main local pine species, P. pinaster and P. pinea. Field studies and direct inoculation experiments in Pinus spp. seedlings, under controlled conditions, were performed to assess whether the differences in constitutive and inducible defences are determining the different susceptibility of pine host species to B. xylophilus. Host co‐evolution with the pathogen was also assessed, including the NA P. radiata, widely used in forestry in the northeast of the Iberian peninsula. Pine mortality in the field was positively related with the abundance of B. xylophilus, and concentration of phenolics and condensed tannins in pines. In the greenhouse assay, seedling tissues were analysed for constitutive investment in defences, as well as the potential inducibility of those defences as driven by B. xylophilus inoculation. Slower growing P. pinea presented higher levels of constitutive defences than faster growing P. pinaster, with only P. pinaster being affected by B. xylophilus. Furthermore, co‐evolution with the pathogen is important, with the fast‐growing NA P. radiata presenting an inducible and effective response to B. xylophilus. Results point to the importance of integrating data on pine life history traits, including growth rate, and production of constitutive and inducible defences, into predictive models for this invasive forest pest. 相似文献
8.
C. S. Pimentel P. N. Firmino T. Calvão M. P. Ayres I. Miranda H. Pereira 《Plant pathology》2017,66(5):856-864
The pinewood nematode, Bursaphelenchus xylophilus, native to North America (NA), is now a major invasive pine pest in Eurasia. Pine species differ greatly in their susceptibility to B. xylophilus, and differences in susceptibility might be related to differences in phytochemistry. This study addressed two major questions: (i) which plant chemical profiles (including compounds that act as plant defences and those important for nutrition) favour pinewood nematode development; and (ii) are NA and Portuguese pinewood nematodes different in their capacity to subsist on plant tissues? For this, B. xylophilus isolates from NA and Portugal were tested on pine phloem and xylem of different pine species. It was found that unaltered pine phloem can sustain the population growth of B. xylophilus, but only in a few cases, and this was clearly related to distinct chemical profiles in some pine species. No evidence was found of evolutionary divergence between B. xylophilus populations in Portugal and NA. The pine species with phloem on which pinewood nematodes could grow tended to have low levels of total phenols, condensed tannins, flavonoids and lignin. Evidence was also found that nutrients such as N may be important. 相似文献
9.
10.
Joana M. S. Cardoso Luís Fonseca Isabel Abrantes 《European journal of plant pathology / European Foundation for Plant Pathology》2012,133(2):419-425
The pinewood nematode (PWN), Bursaphelenchus xylophilus, is the causal agent of pine wilt disease. The international economic impact of the introduction of the PWN into new areas
has highlighted the need for the development of accurate and reliable detection methods of B. xylophilus, which are essential to define aspects of its control and management. In the present study, a methodology was developed for
the direct detection of PWN by conventional PCR assay, with a species specific set of primers based on PWN satellite DNA,
using total DNA extracted directly from maritime pine, Pinus pinaster, wood and bark samples, and from the insect vector, Monochamus galloprovincialis. This methodology involves homogenisation of wood, bark and insects using liquid nitrogen, DNA extraction and one or two
PCR amplification steps, which permit the rapid and direct detection of one single nematode present in 100 mg of wood and
bark and in one entire insect without the preliminary steps of nematode extraction. 相似文献
11.
The Bursaphelenchus genus (Nematoda: Parasitaphelenchidae) comprises mostly wood‐inhabiting nematodes that feed on various tree‐colonizing fungi. One species of the genus, B. xylophilus, has been proven as an agent causing pine wilt disease (PWD). However, involvement of other Bursaphelenchus species in the PWD remains enigmatic. In the current paper, comparative molecular analysis is performed based on nuclear ribosomal DNA (rDNA) of B. vallesianus, a species that was recently isolated from pine trees (Pinus sylvestris) exhibiting wilting and declining symptoms in the Czech Republic. Sequencing of the nuclear‐encoded ITS1–5·8S–ITS2 rDNA region confirmed previous taxonomic conclusions based on morphology. Evolutionary reconstructions resulted in a phylogenetic tree, where the Czech isolate of B. vallesianus occupied a common clade together with other species belonging to the so‐called B. sexdentati group. Unexpectedly, comprehensive analysis of the sequence data revealed a genetic variation distinguishing the Czech isolate of B. vallesianus from all other species of the B. sexdentati group. This dissimilarity consists of the presence of a four nucleotide exchange found in the 5·8S rRNA‐coding gene. The newly identified genetic variation appears to affect the 5·8S rRNA folding, as deduced from secondary structure models. Additionally, it is shown that for the first time, to the authors’ knowledge, both bursaphelenchid internal transcribed spacers (ITS1 and ITS2) fold into the multibranched closed loops. While the ITS2 closed loop is formed with help of canonical 5·8S‐28S rRNA pairing, the ITS1 forms the thermodynamically stable closed loop with no support of flanking rRNA sequences. The current information on bursaphelenchid ITS rDNA sequence diversity and structure is further discussed. 相似文献
12.
Carla S. Pimentel Jessica McKenney Paulo N. Firmino Teresa Calvão Mathew P. Ayres 《Plant pathology》2020,69(8):1565-1573
Bursaphelenchus xylophilus, the pinewood nematode and causal agent of pine wilt disease (PWD), is a globally destructive pine pest. PWD is favoured by high temperatures and drought, but B. xylophilus can also persist in symptomless hosts in areas not prone to PWD. We compared seedlings of different Pinus species that were inoculated with B. xylophilus when well-watered and under moderate temperatures, conditions that favour sublethal infections. We compared isolates of B. xylophilus in south-west Europe (Portugal) and south-east USA (Louisiana). P. pinea, P. pinaster, and P. radiata were challenged in both areas with inoculations of local B. xylophilus. P. sylvestris in Portugal and P. palustris in Louisiana were also tested. Seedling mortality was low, as expected, but nematode establishment was common. There were higher nematode densities and more damage in seedlings of P. sylvestris and P. radiata, followed by P. pinaster, with P. pinea and P. palustris proving to be more tolerant. Life history of hosts was a better predictor of resistance to B. xylophilus than geographical origin, even under sublethal conditions. Fast-growing species (P. radiata and P. pinaster) appeared most likely to be symptomless carriers in areas not prone to the development of PWD. Cold-adapted species (P. sylvestris) may still be suitable hosts for the pathogen, even at the sublethal conditions of their distribution areas. There were more nematodes per gram of host using nematode isolates from Portugal. Nonetheless, our results opposed the hypothesis that North American pinewood nematodes have such low virulence that they are obligatorily saprophytic. 相似文献
13.
Lin Huang Xu-ling Xu Xiao-qin Wu Feng-mao Chen Chao Li Jian-ren Ye 《Phytoparasitica》2010,38(4):369-377
The pine wood nematode (PWN), Bursaphelenchus xylophilus, is a disastrous pathogen of the pine forests in East Asia and Europe. Plant quarantine is one of the most important ways
to prevent its infection in current situation. A nested polymerase chain reaction (PCR) assay targeting the topoisomerse I
gene has been developed to detect PWN in this study. To assess the specificity of the assay, 44 morphologically characterized
nematode isolates including B. xylophilus, B. mucronatus, B. hofmanni, Seinura wuae, S. lii and Aphelenchoides macronucleatus were tested. Positive reactions characterized by amplification product of 509 bp were shown from all isolates of PWN. The
nested PCR assay can detect 50 femtogram (fg) of template DNA or one individual nematode, as small as an egg. The validity
was evaluated by analyzing the nematode samples extracted from the nematode-infested wood in the field. These results show
that the assay is a specific, sensitive method for detection of PWN with the potential in relation to the pest risk assessment
and quarantine regulations. 相似文献
14.
Pine Wilt Disease Caused by the Pine Wood Nematode: The Induced Resistance of Pine Trees by the Avirulent Isolates of Nematode 总被引:6,自引:0,他引:6
Hajime Kosaka Takuya Aikawa Nobuo Ogura Katsuhiro Tabata Tomoya Kiyohara 《European journal of plant pathology / European Foundation for Plant Pathology》2001,107(7):667-675
Since the beginning of the 20th century, pine trees in Japan have been seriously damaged by the pine wilt disease. This disease is caused by the pine wood nematode, Bursaphelenchus xylophilus, which is transmitted by the Japanese pine sawyer, Monochamus alternatus. The control of disease depends to a large extent on chemicals, but the public is now demanding environmentally friendly control methods. The virulence of B. xylophilus varies very widely. Pre-inoculation of young pine trees in a nursery with avirulent B. xylophilus has induced systemic resistance of trees against a subsequent inoculation with virulent B. xylophilus. This induced resistance was considered a hopeful means for developing a biological control for the disease. The induced resistance by the avirulent nematodes was also expressed in mature pine trees in a forest where the disease was naturally epidemic. However, the effects of induced resistance were not satisfactory for practical biological control. Since the inoculation with higher concentrations of the avirulent B. xylophilus induced the resistance more effectively, the pre-inoculation method will need to be improved to develop the biological control. The induced resistance of pine trees by avirulent B. xylophilus should be one of the candidate biological control methods against pine wilt disease. This induced resistance also provides an experimental system to clarify physiological interactions between the nematodes and pine trees. 相似文献
15.
The risks of Bursaphelenchus xylophilus (pine wood nematode) transfer in relation to wood material were assessed. Combinations of infested and non‐infested adjacent boards, long‐blocks and blocks of Pinus pinaster, simulating assembled pallets, were assessed. For the recipient wood, pieces with natural moisture content (MC), heat‐treatment (56°C for 30 min in the core) and kiln‐drying to <20% MC were tested, along with in‐service boards from pallets. Donor and recipient wood materials were kept in direct contact at 25°C or 10°C, with nine replicates per treatment. Bursaphelenchus xylophilus was found to transfer rapidly at 25°C when the wood had an MC above fibre‐saturation point (>30%). Nematode reproduction was rapid and sustained, gradually declining to zero at 40 weeks. Bursaphelenchus xylophilus did not transfer to kiln‐dried or to in‐service wood with an MC below fibre‐saturation point, or to wood at 10°C. The key factors determining nematode transfer were the ambient temperature, the nematode load of the donor wood and the MC of the recipient wood, with a ‘barrier’ of 20% MC below which it becomes unsuitable for nematode transfer. This finding indicates that there is a limited risk of spread of B. xylophilus in treated and untreated solid wood packaging materials. 相似文献
16.
Survival and development of Bursaphelenchus xylophilus (pine wood nematode) was studied for up to 40 weeks in Pinus pinaster sawn wood and branches: 30 boards (1200 × 100 × 25 mm), 30 long‐blocks (1200 × 95 × 95 mm), 10 pine branches with bark and nine branches without bark (1200 mm long). The nematode was found in all materials and through the entire sampling period, with higher abundance in the sawn wood (boards and long‐blocks). In the initial period B. xylophilus reproduced abundantly and a population peak was detected at 8–12 weeks. Subsequently, the populations declined and became dominated by third‐stage resistant larvae (JIII), and in the final sample nematode abundance was very low. Nematode decline in the wood was correlated with a decrease in the moisture content (MC) to below fibre saturation. Survival of the insect vector Monochamus galloprovincialis was also assessed in sawn boards (1200 × 100 × 25 mm, n = 31) and blocks (160 × 95 × 95 mm, n = 40). The majority of the larvae were killed when sawing the wood, although some adults successfully emerged from the boards (10% survival) and blocks (37%). These results represent a contribution to the quantification of the risks of dispersing pine wilt disease through wood packaging materials, confirming that untreated wood can support healthy and abundant B. xylophilus populations for sufficient time for vectors surviving the sawing process to complete their development, to emerge and disperse the nematode. 相似文献
17.
Pine wilt disease (PWD), recently introduced into Europe, is caused by the pine wood nematode (PWN) Bursaphelenchus xylophilus and is a devastating illness that affects mainly pine trees. It is known that the PWN is capable of infecting other conifers; however, there is currently no information on which other plant species may be susceptible to PWD. In this study, the potential susceptibility of two common species of European forests, Picea abies and Cupressus lusitanica, to PWN was assessed through the monitoring of visual external symptoms, dimension and localization of the nematode population in stems, quantification of total chlorophyll, total soluble phenolics and lignin, at 7, 14, 21 and 28 days after inoculation. The degree of susceptibility was established through the comparison of symptoms with Pinus pinaster, a well‐known PWN host. Furthermore, the stem ultrastructure of P. abies, C. lusitanica and Pn. pinaster was analysed by scanning electron microscopy. The results suggest that P. abies and C. lusitanica are resistant to PWN, and that lignin biosynthesis in these species is affected at an early stage of the infestation. Nevertheless, P. abies seems to be a compatible host that could act as a repository for PWN. 相似文献
18.
The pine wood nematode, Bursaphelenchus xylophilus, infects pine trees, leading to fatal pine wilt disease. Here, recombinant venom allergen-like protein (VAP) was obtained by expressing Bx-vap-1 in insect cells. Three-year-old Pinus massoniana were inoculated with recombinant VAP, simulating B. xylophilus esophageal gland secretions. Recombinant VAP up-regulated α-pinene synthase gene expression, the trees showed disease symptoms 15 d after inoculation and the xylem pith revealed brown tissue discoloration, indicating that recombinant VAP could damage P. massoniana cells. Recombinant VAP did not, however, lead to cavitation, indicating that the VAP secreted from B. xylophilus acts as a defense response elicitor. 相似文献
19.
Literature data on the nematode fauna of Pinus spp. in Bulgaria are summarized. 48 plant-parasitic nematodes have been reported so far associated with six pine species and a variety of one of these species. In the course of the present study of pine nematode fauna in Rila and Rhodope mountains, Crossonema menzeli, Criconemella xenoplax, Bursaphelenchus sp., Longidorus vineacola, L. leptocephalus, Longidorus sp. and Trichodorus similis were found. Morphological data on some of the species studied are given. The males of L. leptocephalus was more common than the females. L. leptocephalus and Bursaphelenchus sp. are new geographical records. Pinus sylvestris is a new plant host for C. menzeli and L. leptocephalus. 相似文献
20.
M. Tigano K. De Siqueira P. Castagnone‐Sereno K. Mulet P. Queiroz M. Dos Santos C. Teixeira M. Almeida J. Silva R. Carneiro 《Plant pathology》2010,59(6):1054-1061
The objectives of this work were to evaluate the genetic variability of Meloidogyne enterolobii by molecular markers, and develop species‐specific molecular markers for application in detection. Sixteen M. enterolobii isolates from different geographical regions (Brazil and other countries) and hosts were used in this study. The identification and purification of the populations were carried out based on isoenzyme phenotype. The DNA amplification of the intergenic region (IGS) of the rDNA and of the region between the cytochrome oxidase subunit II (COII) and 16S rRNA genes (mtDNA) produced specific fragments of the expected size for this nematode, i.e. 780 and 705 bp, respectively. Intraspecific variability among the isolates was evaluated with three different neutral molecular markers: AFLP, ISSR and RAPD. The results showed a low level of diversity among the isolates tested, indicating that M. enterolobii is a genetically homogeneous root‐knot nematode species. The RAPD method allowed the identification of a species‐specific RAPD fragment for M. enterolobii. This fragment was cloned and sequenced, and from the sequence obtained, a set of primers was designed and tested. The amplification of a 520‐bp‐long fragment occurred only for the 16 isolates of M. enterolobii and not for the 10 other Meloidogyne species tested. In addition, positive detection was achieved in a single individual female, egg‐mass and second stage juvenile of this nematode. This SCAR species‐specific marker for M. enterolobii represents a new molecular tool to be used in the detection of this nematode from field samples and as a routine diagnostic test for quarantine devices . 相似文献