引起山西省玉米纹枯病的主要丝核菌融合群对3种杀菌剂的敏感性

为明确引起山西省玉米纹枯病的主要丝核菌融合群对氟酰胺、噻呋酰胺和戊菌隆3种杀菌剂的敏感性,采用菌丝生长速率法测定了氟酰胺、噻呋酰胺和戊菌隆对268株丝核菌菌丝生长的EC50值,建立敏感基线并分析了噻呋酰胺和其他杀菌剂对病菌活性的相关性。结果表明：立枯丝核菌Rizoctonia solani融合群AG-5和玉蜀黍丝核菌R. zeae融合群WAG-Z对噻呋酰胺最为敏感,对氟酰胺敏感性次之,对戊菌隆敏感性最差;立枯丝核菌融合亚群AG-1-IA则对戊菌隆最为敏感,对噻呋酰胺次之,对氟酰胺最差。通过箱形图分析剔除异常的EC50值后,融合群AG-5和WAG-Z对氟酰胺、噻呋酰胺和戊菌隆的敏感性频率均呈连续的单峰曲线分布,符合正态分布。因此,将EC50均值0.165、0.048和2.500μg/mL分别作为融合群AG-5对氟酰胺、噻呋酰胺和戊菌隆的敏感基线;将0.518、0.106和1.616μg/mL分别作为融合群WAG-Z对氟酰胺、噻呋酰胺和戊菌隆的敏感基线。噻呋酰胺与氟酰胺、戊菌隆、己唑醇或咯菌腈对融合群AG-5和WAG-Z的抑制活性不存在相关性。研究结果可为山西省玉米纹枯病杀菌剂施用策略的制...     

小麦纹枯病菌对噻呋酰胺的敏感性及抗药性突变体的主要生物学性状

采用菌丝生长速率法,分别测定了采自河北、山东和河南未使用过酰胺类药剂地区的166株小麦纹枯病菌Rhizotonia cerealis Van der Hoeven对噻呋酰胺的敏感性,并对小麦纹枯病菌抗噻呋酰胺突变体的诱导方法及突变体的主要生物学性状进行了研究。结果表明:噻呋酰胺对166株小麦纹枯病菌的平均EC50值为(0.072±0.022)μg/mL,菌株频率呈连续单峰曲线分布,未发现敏感性明显下降的亚群体,因此可将该EC50值作为小麦纹枯病菌对噻呋酰胺的敏感基线。通过紫外诱导加菌落角变的方法获得了5株抗噻呋酰胺突变体,其抗药性水平介于5.5~18.9倍之间;药剂驯化未能获得抗药性突变体。突变体在PSA平板上的生长速率与亲本菌株无显著性差异,但其菌丝干重、菌核形成数量和菌核干重均明显低于亲本菌株;除突变体HD7-7U对石新828的致病力未发生明显变化外,其他突变体对石新828和良星99的致病力均明显减弱;5株突变体的抗药性均不能稳定遗传;噻呋酰胺与戊唑醇、井冈霉素、咯菌腈、三唑酮、丙环唑和多菌灵之间无交互抗性关系。     

己唑醇对水稻纹枯病的毒力测定及田间药效试验

根据水稻纹枯病菌在含己唑醇系列浓度的PDA培养基上的菌丝生长速率,计算出己唑醇对水稻纹枯病菌的毒力回归方程为:Y=4.0407+2.3632x,r=0.9971,药剂EC₅₀=2.5464mg/L,EC₉₅=12.6463mg/L,试验结果表明己唑醇对水稻纹枯病菌具有较高的生物活性。田间药效显示,5％己唑醇悬浮剂250mg/667m²药后15d防效达69.54％。     

噻呋酰胺对水稻立枯丝核菌群体的活性变化及其对稻田天敌群落的影响

分别从未使用过噻呋酰胺及使用噻呋酰胺3年以上的浙江省稻田采集分离立枯丝核菌Rhizoctonia solani,通过监测、分析病原菌群体对噻呋酰胺的敏感性变化,研究了立枯丝核菌对噻呋酰胺的抗药性风险;并以戊唑醇、井冈霉素等纹枯病防治常用药剂为对照,通过田间试验评价了噻呋酰胺油悬浮剂 (OD) 对稻田天敌群落的影响。结果表明:浙江省未接触过噻呋酰胺的立枯丝核菌群体 (n = 164) 的EC₅₀值分布在 0.008~0.135 mg/L 之间,且呈近似正态单峰曲线,平均EC₅₀值为 (0.073 ± 0.005) mg/L,可作为立枯丝核菌对噻呋酰胺的敏感性基线,用于后续田间抗药性监测。接触过噻呋酰胺3年以上的立枯丝核菌群体 (n = 130) 的EC₅₀值分布在 0.009~0.126 mg/L之间,平均EC₅₀值为 (0.069 ± 0.080) mg/L,未观察到明显的敏感性下降。对稻田天敌群落影响的田间试验表明,采用12%噻呋酰胺油OD处理 7 d 后,绍兴稻田的 Shannon多样性指数和丰富度指数均显著高于清水对照（CK）,而其他时间和地点均与CK无显著性差异。研究表明,采用噻呋酰胺防治水稻纹枯病的田间抗药性风险低,对稻田天敌安全性高。     

山东省玉米纹枯病菌对噻呋酰胺的敏感性及其抗性突变体的生物学性状

为明确山东省玉米纹枯病菌对噻呋酰胺的敏感性及其抗药性风险,采用菌丝生长速率法分别测定了采自山东泰安、临沂、潍坊、莱芜、日照及青岛6个地区的102株玉米纹枯病菌对噻呋酰胺的敏感性。结果表明:其EC₅₀值分布范围为0.010～0.194 μg/mL,平均EC₅₀ 值为 (0.086 ± 0.004) μg/mL,且敏感性呈连续单峰曲线分布。通过紫外诱导与药剂驯化的方法各获得5株耐药性菌株 (TA3-X2、TA17-X6、LY8-3、QD14-Y7和WF6-A2) 和1株抗性突变体 (QD2-Y4),其抗性水平在6.46～20.08倍之间,突变频率分别为0.87%和0.52%。对抗性突变体生物学性状的研究表明,紫外诱导获得的5株耐药性菌株其耐药性不能稳定遗传,而经药剂驯化获得的1株抗性突变体QD2-Y4的抗药性可稳定遗传;耐药性菌株TA3-X2的菌丝生长速率高于亲本菌株,其余菌株与亲本菌株差异不明显;5株耐药性菌株和1株抗性突变体的菌丝干重和菌核干重均低于亲本菌株;TA3-X2、WF6-A2及QD2-Y4的致病力低于亲本菌株,TA17-X6、LY8-3及QD14-Y7的致病力与亲本菌株无明显差异。交互抗性测定表明,噻呋酰胺抗性突变体与戊唑醇、丙环唑、咯菌腈、井冈霉素、苯醚甲环唑和多菌灵之间均无交互抗性,与啶酰菌胺和氟唑菌苯胺之间则存在交互抗性。研究表明,山东省6个地区的玉米纹枯病菌对噻呋酰胺比较敏感,推测噻呋酰胺可作为防治玉米纹枯病的理想候选药剂。     

草莓丝核菌根腐病病原菌鉴定及7种杀菌剂的抑菌作用测定

为了解草莓丝核菌根腐病的病原种类及筛选防治丝核菌根腐病的有效杀菌剂,本研究基于形态学特征、细胞核荧光染色、菌丝融合群测定以及rDNA-ITS的序列分析,对北京和河北承德地区的草莓丝核菌根腐病的病原菌进行了鉴定,并利用菌丝生长速率法测定了7种杀菌剂对丝核菌的抑菌作用。结果发现,北京地区的丝核菌为双核丝核菌(binucleate Rhizoctonia,BNR),属于融合群AG-A;河北的丝核菌为立枯丝核菌Rhizoctonia solani,属于融合群AG-4。氟啶胺、吡唑醚菌酯、噻呋酰胺、戊唑醇、咯菌腈、氟硅唑对2种丝核菌均有很强的抑制作用,EC_(50)值为0.063 9～2.485 7μg/mL,抑霉唑的抑制作用较差,EC_(50)值为9.966 8～11.236 8μg/mL。同一种杀菌剂对不同丝核菌的抑制作用存在差异,噻呋酰胺、戊唑醇、氟硅唑、咯菌腈和抑霉唑对立枯丝核菌的抑制作用强于对双核丝核菌。试验结果为生产上合理选用杀菌剂防治草莓丝核菌根腐病提供了科学依据。     

中国河南省小麦纹枯病菌对咯菌腈的敏感性

为明确河南省小麦纹枯病菌对咯菌腈的敏感性,采用菌丝生长速率法测定了咯菌腈对2013年从河南省15个地市分离的98株病菌的毒力。结果表明:咯菌腈对供试小麦纹枯病菌菌株的EC50值在0.009~0.079 μg/mL之间,平均EC50值为(0.025 ±0.012)μg/mL;98个菌株对咯菌腈的敏感性分布呈连续单峰曲线,未出现敏感性下降的亚群体,可将(0.025 ±0.012)μg/mL作为小麦纹枯病菌对咯菌腈的敏感性基线;方差分析(LSD法)及SPSS聚类结果均显示,同一地市内的菌株对咯菌腈的敏感性差异较大,EC50最大值和最小值之比在1.0~4.1之间,而不同地区菌株间对咯菌腈敏感性差异不明显,咯菌腈EC50平均值变化范围在0.015~0.060 μg/mL之间,后者是前者的4倍;小麦纹枯病菌对咯菌腈的敏感性与其对噻呋酰胺、苯醚甲环唑、井冈霉素、丙环唑及戊唑醇的敏感性之间无明显相关性。本研究结果可为河南省小麦纹枯病防控杀菌剂的合理使用提供理论依据。     

小麦纹枯病菌对三唑酮不同敏感性菌株的生物学特性及对不同杀菌剂的敏感性

为预测小麦纹枯病菌对三唑酮抗药性的发展趋势,采用菌丝生长速率法测定了2013年分离自河南省16个地市的98株菌株对三唑酮的敏感性,比较不同敏感性菌株的生物学性状差异,并分析了其中22株菌株对其它10种杀菌剂的敏感性。结果表明:小麦纹枯病菌群体中已出现对三唑酮敏感性下降的菌株,其中有90株菌对杀菌剂的敏感性属于正态分布,以其EC_(50)均值1.91μg/mL作为小麦纹枯病菌对三唑酮的敏感性基线。敏感菌株菌丝生长速度较快,可达8.50~12.86 mm/d,菌核产量较多,为35.80~42.90 mg/皿,生存适合度较高;敏感性下降及抗性菌株的致病性及菌核萌发等都未发生改变,但菌丝生长速率仅为5.36~10.02 mm/d,菌核产量为9.00~36.90 mg/皿,均下降明显,生存适合度降低;低抗菌株与敏感菌株在菌落形态上相同,但菌丝分枝数增多且分枝菌丝变短。三唑酮对小麦纹枯病菌的毒力较小,EC_(50)大于其它10种杀菌剂;戊唑醇、氟环唑、烯唑醇、咯菌腈和噻呋酰胺的毒力均较大,其EC_(50)≤0.10μg/mL;其余5种杀菌剂的EC_(50)在0.13~0.69μg/mL之间;小麦纹枯病菌对三唑酮的敏感性与其它10种杀菌剂间的决定系数为0.003~0.200,存在微弱的正相关性,表明在生产中这些杀菌剂可与三唑酮轮换或交替使用。     

几种药剂对水稻纹枯病的防治效果探究

使用250g/L嘧菌酯SC 30g/667m~2、240g/L噻呋酰胺SC 30ml/667m~2、5%己唑醇SC 80ml/667m~2、5%井冈霉素SP 100g/667m~2防治水稻纹枯病,于水稻纹枯病发病初期施第1次药,以后每隔7d施1次,共施3次,3次施药后10d各药剂的防治效果均达67.9%~88.9%。其中,嘧菌酯、噻呋酰胺和己唑醇这3种药剂的防效好且相当,为88.0%~88.9%,井冈霉素处理的防效差显著低于以上3种药剂处理的防效,为67.9%。     

福建省玉米小斑病菌对氟啶胺的敏感性及其与不同杀菌剂间的交互抗性

为明确福建省玉米小斑病菌Cochliobolus heterostrophus对氟啶胺的敏感性及其与不同杀菌剂间的交互抗性,采用菌丝生长速率法测定了该省5个地区的73株玉米小斑病菌菌株对氟啶胺的敏感性。结果表明,供试73株玉米小斑病菌菌株对氟啶胺具有较高的敏感性,所有菌株的有效抑制中浓度EC₅₀在0.0023~1.2863 μg/mL之间,平均值为0.2573 μg/mL,其敏感性频率呈连续单峰曲线分布,符合正态分布,因此可将EC₅₀平均值0.2573 μg/mL作为福建省玉米小斑病菌对氟啶胺的敏感基线;5个地区的菌株群体对氟啶胺的敏感性差异不显著,但是不同地区的菌株个体间差异较大;氟啶胺与多菌灵、百菌清、丙环唑、烯唑醇、咪鲜胺和异菌脲之间均不存在交互抗性。     

Epidemiology and simulation of population development of Sitobion avenae in winter wheat

The epidemiology ofSitobion avenae and its natural enemies in winter wheat was studied in 1975, 1976 and 1977. Immigration was important until the end of flowering. The alate immigrants had apterous offspring. These became the driving force in population growth. Their offspring were mostly alatae which usually left the field. A model of the epidemic was developed. Quantitative relations between the aphids and their environment were obtained from literature or established in laboratory trials. The model simulated population development and population composition from the beginning of June till the population peak at the end of June or early in July. Because quantitative data on relations between aphids and their natural enemies and pathogens are scarce, and since the knowledge on wing formation is still limited, the population collapse could not be predicted. In the future, prognosis over a period of three weeks seems possible.Samenvatting De toenemende betekenis van graanbladluizen (vooralSitobion avenae) gepaard gaande met een sterke toename van het gebruik van insecticiden op granen maakte verbetering van de prognose over het schadelijk optreden wenselijk. Door gedetailleerde tellingen in het veld (Fig. 1–7) werden gegevens verkregen over het verloop van de epidemie en het optreden van natuurlijke vijanden in 1975, 1976 en 1977.Een immigratieperiode tot in de bloei kon worden vastgesteld. Daarna lijkt de aantrekkelijkheid van het gewas voor alate luizen te verminderen. De alate immigranten krijgen aptere nakomelingen. Deze vormen de stuwende kracht van de populatiegroei. De nakomelingen van apteren zijn merendeels alaat. Zij verlaten het gewas.Een model van de populatieontwikkeling gedurende de epidemie werd opgesteld. De relatiediagrammen Fig. 9 en 10 laten groei en ontwikkeling vanS. avenae en een predator (Syrphus corollae) zien. Kwantificering van de betrekkingen werd mogelijk door literatuurgegevens en laboratoriumexperimenten.Met het model kon de populatieontwikkeling vanS. avenae vanaf begin juni tot aan de populatiepiek in 1975, 1976 en 1977 vrij goed worden gesimuleerd (Fig. 12). Ook de populatieopbouw kon worden gesimuleerd (Fig. 14). De teruggang van de populatiedichtheid blijkt moeilijker te voorspellen door het ontbreken van gegevens over natuurlijke vijanden.Het lijkt waarschijnlijk dat in de toekomst met het model een prognose over de piek van de bladluispopulatie circa 3 weken tevoren mogelijk zal zijn.     

Tumours of Begonia and some other ornamentals,induced by Corynebacterium fascians

In 1975 many tumours were observed in plants ofBegonia Schwabenland grown in Aalsmeer. Submersion of the roots ofNicotiana megalosiphon seedlings in a homogenate of tumorous tissue, induced tumours after two weeks. Short periods of submergence yielded results similar to those obtained after longer periods. Tumour homogenates lost their infectivity after ten min at 50°C. Aphids transmitted the infectious agent.Treatment with propylene oxide did not inhibit infectivity completely. Filtration through a 450 nm filter removed the infectious agent.Tobacco tumor virus or a viroid could not be isolated. Cultures ofCorynebacterium fascians, isolated from tumours ofN. megalosiphon were highly infectious and induced tumours in healthyN. megalosiphon andBegonia. Tumorous tissue homogenates ofPelargonium zonale, Dahlia sp.,Gladiolus sp., andLilium sp. also caused tumours inN. megalosiphon, from whichC. fascians was isolated. It was not possible to produce tumours inN. megalosiphon with homogenates from roses with symptoms of bud proliferation.Samenvatting In 1975 werden vele tumoren waargenomen inBegonia Schwabenland op Aalsmeerse bedrijven (Fig. 1). De infectiositeit van tumorweefsel kon goed en snel worden vastgesteld door de wortels van zaailingen vanNicotiana megalosiphon in een homogenaat van tumorweefsel te dompelen. Tumoren ontstonden na twee weken, de eindbeoordeling geschiedde na een maand (Fig. 2). Ook verschillende andereNicotiana spp.,Melilotus officinalis (Fig. 3) enPisum odoratum (Fig. 4) werden aangetast.Bij de infectiositeitstoets gaven zeer korte dompeltijden even goede resultaten als langere (Tabel 1). Infectieus sap verloor zijn infectievermogen na 10 min verhitting bij 50°C. Bladluizen brachten de smetstof over. Propyleenoxide verminderde de infectiositeit wel, doch onderdrukte deze niet totaal. Bij filtratie door een 450 nm filter bleef het infectieuse agens op het filter achter. Het tumor-inducerende agens was ook aanwezig in die delen van planten met tumoren welke gezond leken en het ging voor een gering deel over met zaad (Tabel 2).Uit tumoren konden wij geen tabakstumorvirus of een viroïde isoleren. Culturen vanCorynebacterium fascians, geïsoleerd uit tumoren vanN. megalosiphon bleken zeer infectieus en veroorzaakten tumoren inN. megalosiphon enBegonia. Homogenaten van tumorweefsel vanPelargonium zonale, dahlia (Fig. 5), gladiool (Fig. 6) enLilium Mid Century Hybrid Enchantment (Fig. 7) veroorzaakten ook tumoren opN. megalosiphon, waaruitC. fascians werd geïsoleerd. Met sap van kroeskopzieke rozen konden wijN. megalosiphon niet besmetten.     

Nematicidal Activity of Chrysanthemum coronarium

Organic amendments and green manure are potential alternatives to the harmful chemical control means currently used against plant-parasitic nematodes. In this work, Chrysanthemum coronarium was applied to the soil as a green manure to control the root-knot nematodes Meloidogyne incognita and M. javanica. Chrysanthemum coronarium significantly reduced nematode infection of tomato roots and improved plant-top fresh weight, both in the greenhouse and in microplots. Other green manures, derived from Anthemis pseudocotula, wild chickpea (Cicer pinnatifidum), Geranium spp. and wheat, were not as effective as C. coronarium. Chrysanthemum coronarium, retained its nematicidal activity even when applied as a dried material. Only mature C. coronarium plants, in their flowering stage, exhibited nematode control activity, but the green plant parts were more effective than the flowers. An aqueous extract of C. coronarium exhibited in vitro, nematostatic activity towards M. incognita and M. javanica second-stage juveniles and inhibited their hatching from eggs and egg-masses; its nematostatic activity was expressed also against other phytonematode species such as Heterodera avenae and Pratylenchus mediterraneus, but did not affect the beneficial entomopathogenic nematode Steinernema feltiae.     

Inactivation of soil-borne plant pathogens during small-scale composting of crop residues

Samples of heavily infested crop residues were incorporated in static compost heaps (2.5–4.6 m³) of the Indore type. Temperature increased to 50–70°C within 6 days depending on the type of crop residues used and the location within the heap. The heat phase (>40 °C) lasted 2–3 weeks and was followed by a c. 5-months maturation phase (<40 °c).=" among=" the=" 17=" pathogens=" tested,=">Olpidium brassicae and one of the four formae speciales ofFusarium oxysporum that were tested survived composting, but also their inoculum was greatly reduced.Survival during specific phases of composting was studied by incorporation and retrieval of samples at various stages of the process.F. oxysporum f. sp.melonis was completely inactivated andO. brassicae andPlasmodiophora brassicae were almost completely inactivated during the short heat phase. The three pathogens survived the long-lasting maturation phase without loss of viability. Heat evolved during composting was found to be the most important factor involved with sanitation of crop residues. The possible involvement of fungitoxic conversion products and microbial antagonism is discussed.     

Effects of the saprophytic leaf mycoflora on growth and productivity of winter wheat

The effects of the saprophytic mycoflora and its interference with cereal aphids on growth and yield of winter and spring wheat was studied in field experiments in 1980, 1981 and 1982.Yields varied between 5000 and 8000 kg dry matter of kernels per ha. The effect of the saprophytic mycoflora on yield was determined in different treatments: A) no control measures against cereal aphids and saprophytic and necrotrophic fungi, B) no control of cereal aphids, control of saprophytic and necrotrophic fungi, C) control of cereal aphids and control of saprophytic and necrotrophic fungi, D) control of cereal aphids and stimulation of saprophytic mycoflora and E) control of cereal aphids, no control of saprophytic and necrotrophic fungi nor stimulation of saprophytic mycoflora.Considerable differences in top densities of saprophytic mycoflora (10 times as large in A and D as in B and C) were determined. The consequences of these differences for the growth and productivity of wheat were minor. A negative effect of saprophytic mycoflora on the yield could not be detected in 1981 and 1982, whereas a small positive significant effect was found in 1980. This stimulation may have been due to competition between necrotrophic fungal pathogens and saprophytic mycoflora. As a result of favourable weather conditions necrotrophic fungal pathogens were very numerous in 1980 and could form an important yield reducing factor. Yield levels may effect the importance of the necrotrophic and saprophytic mycoflora as yield reducing factors. Additionally, in the presence of aphid honeydew captafol was found to be relatively ineffective against saprophytic fungi.     

Identification and pathogenicity of Pythium species causing damping-off of kidney bean

Five Pythium species (Pythium irregulare, P. mamillatum, P. myriotylum, P. spinosum and P. ultimum var. ultimum) were isolated from the hypocotyls and roots of kidney bean plants with damping-off from a commercial field and from experimental plots that have undergone either continuous cropping with kidney bean or rotational cropping with arable crops. In inoculation tests, all five Pythium species were pathogenic to kidney bean. This is the first report of damping-off of kidney bean caused by Pythium species; we named this disease damping-off of kidney bean. The nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under accession numbers AB291811, AB291944 and AB291945.     

Aetiology and causal agents of mango sudden decline disease in the Sultanate of Oman

Mango sudden decline is a recently introduced, economically serious disease in Oman. Affected mango trees have wilting symptoms that usually begin on one side and later spread to involve the entire tree. Trees exude amber-coloured gum from the bark of their trunks or branches and vascular tissues are discoloured. Having entered Oman in the recent past, survey data is presented that shows the disease to have spread throughout the northern part of the country. Evidence is presented that the vascular wilt pathogen Ceratocystis fimbriata causes mango sudden decline disease in Oman, possibly in concert with Lasiodiplodia theobromae and the recently described Ceratocystis omanensis. Isolates of these fungi from affected trees, cause infection and can be recovered from inoculated seedlings. Bark beetles (Hypocryphalus mangiferae) are shown to carry C. fimbriata and L. theobromae and are presumably responsible for transmitting both pathogens to healthy mango trees. Acting as a wounding agent and vector, the bark beetle is likely to have assisted the rapid spread of the disease across Oman.     

浅黄恩蚜小蜂和丽蚜小蜂对温室白粉虱的寄生潜能分析

浅黄恩蚜小蜂Encarsia sophia GiraultDodd和丽蚜小蜂Encarsia formosa Gahan是防治粉虱类害虫的优势寄生蜂,通过生命表技术方法分析了2种寄生蜂对温室白粉虱Trialeurodes vaporariorum(Westwood)的防治潜能。结果表明,丽蚜小蜂在羽化第3天和第10天出现2次寄生高峰,占其总寄生量的13.7%和8.0%,在2次高峰之间逐日寄生粉虱数量比较平稳,单雌逐日平均产雌数保持在10.6~13.4头,10 d后寄生量呈明显的下降趋势;而浅黄恩蚜小蜂羽化10 d内逐日寄生粉虱量变化不大,单雌逐日产雌数稳定在4.2~5.4头,羽化14 d后寄生量呈明显下降趋势。丽蚜小蜂和浅黄恩蚜小蜂的R0、T、rm、λ值分别为171.5、18.0、0.2854、1.3303和61.6、16.2、0.2544、1.2897;粉虱若虫充足时,丽蚜小蜂平均单雌寄生若虫数是浅黄恩蚜小蜂的2.7倍,而后者平均单雌取食若虫数为60.6头,明显高于前者42.7头,总的来看,丽蚜小蜂通过寄生和取食杀死粉虱总量220.8头,明显高于浅黄恩蚜小蜂的127.9头。表明在应用寄生蜂防治温室白粉虱时,单独释放丽蚜小蜂比浅黄恩蚜小蜂显示出更好的防治潜能。     

Pathogenic fungi involved in root rot of peas in the Netherlands and their physiological specialization

Research on root rot pathogens of peas in the Netherlands has confirmed the prevalence ofFusarium solani, F. oxysporum, Pythium spp.,Mycosphaerella pinodes andPhoma medicaginis var.pinodella. Aphanomyces euteiches andThielaviopsis basicola were identified for the first time as pea pathogens in the Netherlands. Other pathogens such asRhizoctonia solani andCylindrocarpon destructans were also found on diseased parts of roots. F. solani existed in different degrees of pathogenicity, and was sometimes highly specific to pea, dwarf bean of field bean, depending on the cropping history of the field.A. euteiches was specific to peas, whereasT. basicola showed some degree of physiological specialization.     

Relationship Between Production of the Phytotoxin Prehelminthosporol and Virulence in Isolates of the Plant Pathogenic Fungus Bipolaris sorokiniana

A gas chromatographic method was developed to quantify the phytotoxin prehelminthosporol, which is a sesquiterpene metabolite of the plant pathogen Bipolaris sorokiniana. The toxin was extracted from mycelium or culture filtrates, pre-cleaned using solid phase extraction, and analyzed by gas chromatography as a trimethylsilyl-derivative. The detection limit of the method was 5ngl^–1 (signal to noise ratio 4:1) which corresponds to ca. 15ng prehelminthosporol per mg dry weight of mycelium or 15ng prehelminthosporol per ml culture filtrate. The total amount of prehelminthosporol (mycelium plus culture filtrate) increased with cultivation time when examined in six isolates of B. sorokiniana after 6, 9, 12 and 15 days of incubation. The screening experiment of 17 isolates for prehelminthosporol production after 8 days of incubation revealed significant differences in the toxin production between the isolates. The isolates with low toxin production had lower virulence towards barley roots compared to those with higher production of the toxin. However, the virulence did not increase with prehelminthosporol level among the high producing isolates. Prehelminthosporol was also analyzed in a number of related Bipolaris and Drechslera species. In addition to B. sorokiniana, three out of six Bipolaris species (B. setariae, B. zeicola, B. victoriae) produced prehelminthosporol, which indicates that ability to produce prehelminthosporol is conserved among closely-related Bipolaris species.