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1.
河北省禾谷孢囊线虫种群密度和冬小麦产量损失的关系 总被引:3,自引:2,他引:1
为明确禾谷孢囊线虫Heterodera avenae对小麦的危害,于2011年10月—2012年6月在自然环境条件下采用定量接种方法测定了其在不同接种密度下对冬小麦产量和线虫繁殖的影响。结果表明,随着禾谷孢囊线虫接种密度的增加,小麦的株高、穗长、小穗数、分蘖数和籽粒重均呈下降趋势。小麦产量随着接种密度的增加损失率增加,在接种密度大于29个卵和2龄幼虫/g土时,小麦产量损失率均达50%以上,接种密度为465个卵和2龄幼虫/g土时损失率最大,达到77.7%;当接种密度小于116个卵和2龄幼虫/g土时,禾谷孢囊线虫的最终密度随着接种密度的增加而增加,但接种密度大于该值时,最终线虫密度则随着接种密度的增加而减少;且其繁殖系数随着接种密度的增加而降低。以小麦单株籽粒重为参数,利用Seinhorst模型拟合孢囊线虫密度与产量的关系,可知小麦对禾谷孢囊线虫的最低忍耐值为5个卵和2龄幼虫/g土,相对最低产量为0.23。 相似文献
2.
为探究河南省主要禾谷类作物孢囊线虫的发生分布,明确孢囊线虫对不同作物的危害情况,于2017—2020年对河南省18个市50个县(区)的小麦、玉米和水稻作物的孢囊线虫种类和发生分布进行随机取样调查,采用形态学特征、分子生物学鉴定和rDNA-ITS序列进化树分析技术鉴定不同作物孢囊线虫的种类,并根据土壤中孢囊基数和单孢囊卵数明确不同作物孢囊线虫的发病严重度。结果显示,共采集土壤样品308份,其中224份样品检测到孢囊,孢囊检出率为72.7%。小麦孢囊线虫发生分布范围覆盖40个县(区),其中15个县(区)为禾谷孢囊线虫Heterodera avenae侵染,23个县(区)为菲利普孢囊线虫H. filipjevi侵染,南阳市西峡县西坪镇和开封市尉氏县张市镇为禾谷孢囊线虫和菲利普孢囊线虫混合侵染发生区;玉米孢囊线虫H. zeae在濮阳市清丰县韩村镇、许昌市长葛市董村镇和禹州市范坡镇检测点首次被发现;旱稻孢囊线虫H. elachista在信阳市潢川县魏岗乡、来龙乡和新乡市获嘉县亢村镇检测点首次被发现。孢囊线虫发病严重度数据表明,小麦田平均孢囊含量高达17.3个/100 mL;玉米田平均孢囊量为11.0个/100 mL;水稻田平均孢囊量为4.4个/100 mL。表明河南省孢囊线虫高发地块主要集中在豫北、豫东和豫中平原区。 相似文献
3.
近年来, 小麦孢囊线虫病已成为我国小麦生产上的重要病害之一。掌握病原线虫的侵染动态是病害防控基础。本文在田间条件下, 对两种孢囊线虫—禾谷孢囊线虫(Heterodera avenae)和菲利普孢囊线虫(H.filipjevi)在河南郑州的侵染动态进行了比较研究, 结果显示:小麦出苗后2周即可发现孢囊线虫的二龄幼虫侵入到小麦根内, 4周后少量二龄幼虫发育为三龄, 6周后根内幼虫数量达到第一次高峰, 同时发现少量四龄幼虫。小麦出苗60 d后, 由于温度较低, 根内各虫态数量基本维持稳定;在120 d后, 温度逐渐回升, 根内二龄幼虫数量逐渐增加, 幼虫数量的第二次高峰出现在小麦出苗后150 d左右, 但入侵幼虫数量明显少于第一次。此后根内幼虫陆续发育为白雌虫和孢囊, 白雌虫数量高峰出现在小麦出苗后180 d后。H.filipjevi三龄、四龄幼虫及白雌虫出现的时间均比H.avenae的早一周。 相似文献
4.
The impact of resistant and susceptible wheat cultivars on the multiplication of Heterodera filipjevi and H. avenae in parasite‐infested soil 
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下载免费PDF全文 L. Cui L. Sun X. Gao W. Song X. M. Wang H. L. Li Z. Y. Liu W. H. Tang H. J. Li 《Plant pathology》2016,65(7):1192-1199
Cereal cyst nematode (CCN) severely threatens wheat production in many regions of China. Cultivars susceptible to CCN are the main reason for its spread. This study was initiated to determine whether wheat cultivars conferring different resistance levels are the dominant determinants of CCN populations in the rhizospheric soil. Field experiments were conducted at two locations in Henan province, China, where high populations of Heterodera filipjevi or H. avenae have occurred, during the growing seasons of 2010/11 and 2011/12. Conventional enumeration of white female nematodes on the plant roots, reproductive factor (Rf) and a molecular diagnostic approach, PreDicta B test, a soil testing service based on a sensitive quantitative PCR technique, were used to determine the nematode populations in the rhizospheric soils of seven common wheat and durum wheat cultivars with different reactions to CCN. The resistant responses to CCN conferred by durum wheat Wascana and Wakooma and common wheat Madsen were effective against both H. filipjevi and H. avenae and resulted in significantly fewer nematodes (<5 females) on the roots, and lower Rf. Those cultivars were effective in limiting nematode propagation, resulting in fewer CCN eggs in their rhizospheric soils. Taikong 6 conferred moderate resistance (5–10 females) to both Heterodera species. Tianmin 668 only showed resistance to H. avenae. Aikang 58 and Wenmai 19 were susceptible to both CCN species, which facilitated increases in the nematode populations. These results demonstrate that the reactions to CCN of wheat genotypes have obvious impact on the propagation of nematodes. 相似文献
5.
Several endoparasitic nematodes have been reported on leguminous plants in the Mediterranean area. The most widespread are the root-lesion nematodes Pratylenchus mediterraneus, P. penetrans and P. thornei. Symptoms induced by these nematodes usually are not very impressive, but 50% yield loss of chickpea may occur. Among root-knot nematodes, Meloidogyne artiellia is associated with severe yield losses of chickpea in Italy, Spain and especially Syria. Tolerance limits of 0.14 and 0.02 of this nematode per ml soil are reported for winter and spring-sown chickpea, respectively. Meloidogyne incognita and M. javanica can be noxious to French bean and cowpea in sandy soil. The cyst nematode Heterodera goettingiana reduces yields of pea, broad bean and vetch when its population densities exceed 0.5, 1, and 2.1 eggs per g of soil, respectively. Heterodera ciceri occurs in northern Syria and Turkey and is responsible for economic yield losses of chickpea and lentil in fields infested with more than 1 or 2.5 eggs per g of soil, respectively. Pea and grass pea also suffer from infestation of this nematode. The stem and bulb nematode Ditylenchus dipsaci causes severe decline of broad bean, pea and probably lentil during wet seasons. Other nematodes, although present in moderate numbers, appear to have little importance. 相似文献
6.
S. Andersson 《EPPO Bulletin》1982,12(4):463-475
Control of Heterodera avenae should largely aim to keep densities below tolerance limits at sowing-time (in spring oats < 1 egg/g soil, in susceptible barley < 3 eggs/g soil; spring wheat is only slightly less sensitive than oats, autumn-sown cereals are more tolerant than spring-sown ones). To obtain this, knowledge of population dynamics is important. Essential items in population dynamics are the host properties of different plants (characterized by two factors which do not always covary: maximum rate of multiplication and equilibrium density of the nematode), population decline of the nematode under fallow and non-hosts and the external factors influencing these characteristics. For cereals the following host efficiency order is found: winter oats (best), spring oats, spring wheat, spring barley, winter wheat, rye. Winter barley may be close to spring barley, and maize is a bad host. Grasses are generally less good hosts than cereals and usually cause high and moderate densities of H. avenae to decline. However, especially in first-year leys, rather high equilibrium densities may sometimes be maintained. Host properties of plants vary between sites and years and also relations between hosts may change. Populations decline under fallow, non-hosts and resistant cereals, usually in the order of 70–85 96 annually. H. avenae populations are favoured by lighter soils and heavier soils with a proper structure and also by good plant nutrient conditions. Soil moisture in interaction with temperature influences population dynamics in a complex way, in which natural enemies of the nematodes may also be involved, not least certain fungi. In many fields these may keep nematode populations at harmless levels. Traditional control measures like proper crop rotations can only be used to a limited extent. The most promising approach for controlling H. avenae is an appropriate use of resistant cultivars, of which barley cultivars are also tolerant, while oat cultivars are usually very sensitive. Biological control has hitherto not been used actively. Chemical control is profitable in Australia but not under European conditions. Farmers should check the need for control through soil sample investigations or by other means. 相似文献
7.
B.R. Kerry 《EPPO Bulletin》1975,5(4):353-361
Populations of the cereal cyst-nematode decrease when cereals are grown frequently or continuously because the females that develop on the roots between May and July fail to produce eggs, or produce a smaller number than expected. Consequently, cysts in the soil after harvest are fewer and contain fewer eggs. The role of fungal parasites and competitors in limiting populations of cyst-nematodes is reviewed. Parasites of eggs and females of Heterodera avenae Woll. were widespread in British cereal fields, an Entomophthora-like fungus and Verticillium chlamydosporium Barron & Onions being the most common species found. Although fungal parasites may be the cause of the failure of the nematode to increase, it has not yet been established unequivocally. 相似文献
8.
安徽省小麦胞囊线虫田间分布及危害调查 总被引:1,自引:0,他引:1
在田间用涕灭威作播前土壤处理抑制土壤中线虫虫口,测定分析田间小麦孢囊线虫对3个小麦品种分蘖期和孕穗期的生长影响。结果表明:小麦孢囊线虫田间分布模型为聚集分布,土壤中其卵密度范围为0~42.8粒/g土,平均密度为6.5粒/g土,已达到危害水平以上。小麦中前期生长调查表明,小麦孢囊线虫没有对分蘖期小麦生长造成显著影响;孕穗期小麦孢囊线虫的危害能造成小麦每株穗数减少13.8%、鲜重降低14.5%,但对株高没有影响;孕穗期小麦品种对孢囊线虫的反应差异显著,受小麦孢囊线虫危害后,新麦12和皖麦50的单株鲜重量分别降低23.3%和22.5%,孕穗数分别减少了25.9%和11.1%,但徐州8562孕穗数减少不显著。 相似文献
9.
安徽省小麦孢囊线虫田间分布及危害调查 总被引:3,自引:2,他引:1
在田间用涕灭威作播前土壤处理抑制土壤中线虫虫口,测定分析田间小麦孢囊线虫对3个小麦品种分蘖期和孕穗期的生长影响。结果表明:小麦孢囊线虫田间分布模型为聚集分布,土壤中其卵密度范围为0~42.8粒/g土,平均密度为6.5粒/g土,已达到危害水平以上。小麦中前期生长调查表明,小麦孢囊线虫没有对分蘖期小麦生长造成显著影响;孕穗期小麦孢囊线虫的危害能造成小麦每株穗数减少13.8%、鲜重降低14.5%,但对株高没有影响;孕穗期小麦品种对孢囊线虫的反应差异显著,受小麦孢囊线虫危害后,新麦12和皖麦50的单株鲜重量分别降低23.3%和22.5%,孕穗数分别减少了25.9%和11.1%,但徐州8562孕穗数减少不显著。 相似文献
10.
Nigel G. M. Hague Mahmoud Damadzadeh Sahag K. Garabedian Kamal H. Radwan 《Pest management science》1983,14(6):587-595
In-vivo tests of non-volatile nematicides using a fungal-feeding nematode Aphelenchus avenae were shown to be more reliable than in-vitro tests. Phoxim and carbofuran were as effective as thionazin against the stem nematode Ditylenchus dipsaci in preventing eggs being laid, but they did not prevent nematodes from migrating from treated plants. Aldicarb and phoxim delayed the emergence of second-stage juveniles from cysts of the potato cyst nematode Globodera rostochiensis; phoxim at 8 mg kg?1 of soil gave the same results as aldicarb at 2 mg kg?1 of soil and both chemicals altered the sex ratio in the final population. A simple pot-test with G. rostochiensis in foul soil types was used to demonstrate the comparative effectiveness of non-volatile nematicides. 相似文献
11.
为明确不同土壤质地对禾谷孢囊线虫Heterodera avenae发生危害的影响,分别测试了6种土壤质地中禾谷孢囊线虫的侵染、发育及其种群动态。结果显示:在整个小麦生长季,不同土质中禾谷孢囊线虫2龄幼虫(J2)的种群变化趋势一致。冬前土壤中少量线虫孵化,11月下旬各种土质中J2种群密度达到10.8~14.2条/100 mL土壤;4月初为J2发生高峰期,其种群密度为54.6~77.1条/100 mL土壤,且土壤中含壤土比例越高J2数量越大;J2在壤土与砂土比为6:1和1:0土壤中侵入根系的数量最多,单株根系J2数量为672.7~685.0条,且土壤中砂土比例越大J2侵入数量越少,相应地根系内3龄幼虫和形成的孢囊数量也越少;不同土质中不同时期孢囊内虫口减退率不同,但在生长季末不同土质中孢囊内虫口总减退率无显著差异。研究表明,土质对孢囊内虫口减退率无影响,土质沙性越大越不利于禾谷孢囊线虫的发生危害。 相似文献
12.
13.
不同药剂拌种对小麦根腐病和孢囊线虫病的防效 总被引:4,自引:0,他引:4
在田间条件下研究了150 g·L-1苯醚·阿维·吡等10种药剂拌种对小麦根腐病和孢囊线虫病的防治效果。结果表明:30 g·L-1苯醚甲环唑和60 g·L-1戊唑醇拌种处理对小麦根腐病防治效果分别为73.9%和66.2%,但二者对小麦孢囊线虫无防治效果;50 g·L-1阿维菌素和140 g·L-1阿维·吡拌种处理后,土壤中校正孢囊减退率分别为58.4%和69.2%;使用600 g·L-1吡虫啉拌种对孢囊线虫未见明显防治效果,但吡虫啉能对阿维菌素的杀线作用有一定增效作用;复配剂150 g·L-1苯醚·阿维·吡和160 g·L-1戊·阿维·吡对小麦根腐病和小麦孢囊线虫病防治效果较好,二者对小麦根腐病防治效果分别为75.6%和63.8%,校正孢囊减退率分别为71.3%和74.1%;从增产效果来看,150 g·L-1苯醚·阿维·吡拌种后小麦增产效果最好,平均产量为7 869.9 kg·hm-2,增产率为8.6%。综合药剂安全性、防病效果和增产效果,150 g·L-1苯醚·阿维·吡适合在生产上防治小麦根腐病和孢囊线虫病。 相似文献
14.
甘肃省小麦禾谷孢囊线虫的发生及分布 总被引:1,自引:0,他引:1
为了解甘肃省小麦孢囊线虫病发生程度和分布情况,2009-2012年于小麦抽穗至灌浆期,采用Z字形取样法,取根际0~20cm土壤,用漂浮法分离孢囊,统计100g土样的孢囊数量,用形态学方法鉴定线虫。从甘肃省12个地区50个县区,134个乡镇共采集到463个小麦田间土样。结果表明,孢囊平均检出率为47.9%,其中冬麦区孢囊平均检出率为61.5%,春麦区平均检出率为34.2%,冬麦和春麦混播区为52.3%,冬麦、春麦及冬春麦混播区平均孢囊数分别为3.5、6.8和3.9个/100g土样。其中平凉市灵台县和兰州市永登县孢囊线虫发生最为严重,个别地块每100g土样中孢囊数超过40个。根据孢囊形态学特征的观察,将甘肃省采集到的孢囊线虫鉴定为禾谷孢囊线虫(Heterodera avenae)。研究结果可为有效防治甘肃省麦类孢囊线虫病提供依据。 相似文献
15.
Yuji Oka Yigal Cohen 《European journal of plant pathology / European Foundation for Plant Pathology》2001,107(2):219-227
Foliar sprays and soil drenches with DL--amino-n-butyric acid (BABA) reduced the number of Heterodera avenae and H. latipons cysts on wheat and barley. Foliar sprays of wheat with 8000mgl–1 BABA reduced the number of H. avenae cysts by 90%, whereas 2000mgl–1 BABA was enough to reduce the number of H. latipons cysts by 79%. Multiple spray treatments with 2000mgl–1 BABA at 10-day intervals reduced the number of H. avenae cysts on wheat and barley. A soil drench of wheat with 125mgl–1 BABA reduced the number of H. latipons cysts by 93% and H. avenae cysts by 43%. Second-stage juveniles of these nematodes penetrated and formed syncytia in wheat roots soil-drenched with BABA. More adult males of H. avenae were produced in BABA (<250mg1–1)-treated wheat roots (~76%) than in untreated roots (27%). Soil drenches with higher concentrations of BABA inhibited development of adult males and females. Several chemical elicitors of induced resistance were tested for their ability to reduce the number of H. avenae cysts on wheat. Only BABA was found to be an effective resistance inducer. The number of egg masses of an unidentified Meloidogyne sp. root-knot nematode, which infects only monocots, was also reduced by 95% by a soil drench of wheat with 500mgl–1 BABA. Development of this nematode inside the BABA-treated roots was also inhibited. 相似文献
16.
Michael Arndt 《Gesunde Pflanzen》2006,58(3):182-184
For evaluation of ?Nema-Check“, a new test, recently developed at the Bodengesundheitsdienst (BGD?=?Soil Health Service) as a semi-quantitative PCR technique for detection of beet cyst nematodes (Fürstenfeld 2004), a comparison with a conventional method, routinely performed at the Bavarian State Research Center for Agriculture (LfL), was made within a field trial with various sugar beet varieties. As the PCR method was optimized only with regard to distinguish three classes of infestation, the correlation between both methods was only small when values were exceeding 1500 eggs and larvae/100?g soil as observed after cultivation of the susceptible cultivar. To reach a better correlation also in this range, where a linear correlation between the amount of PCR products and nematode concentration is not given with the existing PCR method, a further adaptation is necessary. However, as a routine test for simply differentiating between classes of infestation the PCR method established at the BGD seems to be suitable because initial nematode population determined with both methods differed in only 85,2% and final population in only 94,5% of all samples at a maximum of one class. 相似文献
17.
Heterodera avenae is widely distributed in areas where most cereal crops are produced in Algeria. However, the virulence of the Algerian populations of this nematode on individual cereal species and cultivars has not been well documented. The virulence of H. avenae populations from Tiaret and from Oued Smar were tested under natural outdoor conditions and in an in vitro test to determine reactions of nine barley, oat and wheat cultivars selected from the International differential assortment for identifying pathotypes of H. avenae. All nine cereal differentials expressed the same reactions to both populations. The nematodes reproduced well on the barley cultivar ‘Emir’ and the wheat cultivar ‘Capa’. Resistant entries included the barley cultivars ‘Siri’, ‘Ortolan’ and ‘Morocco’, the oat cultivars ‘Nidar II’ and ‘A. sterilis I.376’, and the wheat cultivars ‘Loros’ and ‘AUS10894’. This matrix of reactions indicated that H. avenae populations from both locations were characterized as H. avenae Group 1 pathotypes but did not conclusively distinguish among pathotypes Ha21, Ha31 or Ha81. The Cre1 gene was identified as a potentially valuable source of resistance when developing wheat cultivars intended for release into these localities. 相似文献
18.
由小麦孢囊线虫引起的小麦孢囊线虫病发生分布范围广,防治困难,严重危害我国小麦生产。在我国危害小麦的孢囊线虫主要包括禾谷孢囊线虫(Heterodera avenae)和菲利普孢囊线虫(H. filipjevi)。种植抗病小麦品种是防治小麦孢囊线虫病最经济有效的措施,近10年来,我国科学家制定了小麦孢囊线虫抗性评价标准,测试了我国主推小麦品种和部分引进种质资源对小麦孢囊线虫的抗感性,鉴定到太空6号、新麦11、VP1620和Madsen等抗小麦孢囊线虫的优良材料,利用抗源创制了一系列的抗小麦孢囊线虫种质材料,从组织细胞学、基因组和转录组等解析了小麦抗孢囊线虫的机制。本文主要从小麦孢囊线虫致病型分化、抗性评价、抗性基因鉴定、抗性机制解析和抗病基因利用等方面进行综述。 相似文献
19.
K. TIILIKKALA 《EPPO Bulletin》1991,21(1):41-47
A crop rotation field study was conducted in 1981–1989 to assess the effect of six crop rotation sequences on a soil population of potato cyst nematode (PCN), Globodera rostochiensis, and on potato yield. In the plots with potato monoculture, the tuber yield decreased from 35 to 4.6 t ha?1. All other cropping systems maintained the yield at the original or an even higher level. In monoculture, the population density of the nematode was raised during the first 3 years from 0.1 to 265 larvae g?1 soil, and the density fluctuated afterwards between 30 and 136 larvae g?1 soil. Three of the cropping systems, (1) susceptible potato once in 5 years, (2) susceptible potato once in 4 years, and (3) potato once in 3 years using resistant (H1) and susceptible cultivars alternately, decreased the nematode density under the economic threshold or even under the level of detection. The nematicide treatments (oxamyl) did not control nematode multiplication but prevented yield losses. No nematicide is currently registered nor needed for the control of PCN in Finland. The nematode can be controlled effectively with crop rotation, resistant cultivars and early harvesting. 相似文献
20.
X. Wang J. Ma H. Liu R. Liu H. Li 《European journal of plant pathology / European Foundation for Plant Pathology》2018,150(1):105-113
The cereal cyst nematode Heterodera avenae is a pathogen of cereal crops and causes high yield losses worldwide. In this study, a collection of 37,348 expressed sequence tags (ESTs) of H. avenae was mined for EST-based simple sequence repeat (SSR) markers, which resulted in the identification of 5604 SSRs. A total of 210 pairs of SSR primers were further developed and used for validation of the amplification rate and assessment of the polymorphism. Eight SSR markers were finally identified and analyzed using 96 individual cysts of H. avenae sampled from three provinces in China. These loci were found to be moderately polymorphic with 3–8 alleles per locus. The observed and expected heterozygosity across the three populations ranged from 0.000 to 0.594 and from 0.000 to 0.731, respectively. The polymorphism information content (PIC) was medium and ranged from 0.080 to 0.562, with a mean of 0.409. The F ST ranged from 0.1034 to 0.1550, indicating moderate genetic differentiation among the three H. avenae populations. These EST-SSR markers can be used to study population genetic diversity and the dispersal route of H. avenae in China. 相似文献