Biological control ofBotrytis cinerea on tomato stem wounds withTrichoderma harzianum

The effectiveness ofTrichoderma harzianum in suppression of tomato stem rot caused byBotrytis cinerea was examined on tomato stem pieces and on whole plants. Ten days after simultanous inoculation withB. cinerea andT. harzianum, the incidence of infected stem pieces was reduced by 62–84%, the severity of infection by 68–71% and the intensity of sporulation by 87%. Seventeen days after inoculation of wounds on whole plants, the incidence of stem rot was reduced by 50 and 33% at 15 and 26 °C, respectively, and the incidence of rot at leaf scar sites on the main stem was reduced by 60 and 50%, respectively. Simultanous inoculation and pre-inoculation withT. harzianum gave good control ofB. cinerea (50 and 90% disease reduction, 10 days after inoculation). The rate of rotting was not reduced by the biocontrol agent once infection was established. However, sporulation byB. cinerea was specifically reduced on these rotting stem pieces. Temperature had a greater effect than vapour pressure deficit (VPD) on the efficacy of biocontrol. Suppression ofB. cinerea incidence byT. harzianum on stem pieces was significant at 10 °C and higher temperatures up to 26 °C. Control of infection was significantly lower at a VPD of 1.3 kPa (60% reduction), than at VPD<1.06 kPa (90–100% control). Reductions in the severity of stem rotting and the sporulation intensity of grey mould were generally not affected by VPD in the range 0.59–1.06 kPa. Survival ofT. harzianum on stems was affected by both temperature and VPD and was greatest at 10 °C at a low VPD and at 26 ° C at a high VPD.     

河北省设施番茄灰霉病菌对啶酰菌胺和咯菌腈的敏感性

 为明确河北省设施番茄灰霉病菌对啶酰菌胺和咯菌腈的敏感性,2013-2016年,采用菌丝生长速率法测定了采自河北省八个地区的2 425株灰霉病菌对啶酰菌胺和咯菌腈的敏感性。2013-2016年监测数据显示,河北省设施番茄灰霉病菌对啶酰菌胺和咯菌腈的敏感性呈下降趋势。2016年从河北省不同地区采集的番茄灰霉病菌对啶酰菌胺具有相似的敏感性,且对啶酰菌胺产生了低水平的抗性,仅在唐山地区检测到了啶酰菌胺的高抗菌株;而不同地区采集的灰霉病菌对咯菌腈的敏感性具有差异,但均为咯菌腈的敏感菌株。因此,啶酰菌胺和咯菌腈仍可用于番茄灰霉病的防治,但应严格控制其使用频率,监测灰霉病菌对其敏感性变化动态。     

Biological Control of Botrytis cinerea in Cyclamen with Ulocladium atrum and Gliocladium roseum Under Commercial Growing Conditions

ABSTRACT The effect of treatments with conidial suspensions of Ulocladium atrum and Gliocladium roseum on leaf rot of cyclamen caused by Botrytis cinerea was investigated under commercial greenhouse conditions. Spraying U. atrum (1 x 10(6) conidia per ml) or G. roseum (2 x 10(6) conidia per ml and 1 x 10(7) conidia per ml) at intervals of 2 to 3 weeks during the production period and spraying U. atrum (1 x 10(6) conidia per ml) at intervals of 4 to 6 weeks resulted in a significant reduction of natural infections of petioles by B. cinerea. U. atrum or G. roseum (1 x 10(7)conidia per ml) was as effective as the standard fungicide program. B. cinerea colonized senesced leaves within the plant canopy and infected adjacent petioles and leaves later. The antagonists colonized senesced leaves and reduced B. cinerea development on these leaves. Thus, the inoculum potential on petioles adjacent to necrotic leaf tissues was reduced. The fate of U. atrum conidia on surfaces of green cyclamen leaves during a 70-day period after application was studied. The number of conidia per square centimeter of leaf surface remained relatively constant during the entire experiment. Sixty percent of the conidia sampled during the experiments retained the ability to germinate. When green leaves were removed from the plants to induce senescence and subsequently were incubated in a moist chamber, U. atrum colonized the dead leaves. Senesced leaves also were colonized by other naturally occurring fungi including B. cinerea. On leaves treated with U. atrum from all sampling dates, sporulation of B. cinerea was significantly less as compared with the untreated control. Our results indicate that early applications of U. atrum before canopy closure may be sufficient to achieve commercially satisfactory control of Botrytis leaf rot in cyclamen.     

Reduced sensitivity of Botrytis cinerea to two sterol biosynthesis-inhibiting fungicides: fenetrazole and fenethanil

Isolates of Botrytis cinerea having reduced sensitivity to the sterol biosynthesis-inhibiting (SBI) fungicides fenetrazole and fenethanil were obtained from one out of four sites from which isolates were tested. Reduced sensitivity was associated with poor disease control by fenetrazole, which had been applied with dichlofluanid. Conidial germination and hyphal growth of B. cinerea from the four sites were tested in vitro on media amended with the fungicides. Following fenetrazole or fenethanil treatment, at the site where control had failed, populations of B. cinerea were detected with higher EC₅₀ and EC₉₀ values than at the three other sites. Germination of conidia of B. cinerea was markedly inhibited by 1.0 μg/ml fenetrazole and 0.5–1.0 μg/ml fenethanil. The frequency of isolates insensitive to 1.0 μg/ml fenetrazole or to 0.5 μg/ml fenethanil was 3.4 and 1.8 times higher, respectively, at the site where control had failed, compared with another site where SBI fungicides had never been applied to control grey mould. Grey mould caused by selected isolates of B. cinerea which expressed the phenotype of low sensitivity to SBI fungicides in leaves of tomato, pepper and Senecio cineraria was not controlled by either fenetrazole or fenethanil (1 .5–3.0 μg/ml). However, up to 100% disease reduction was obtained when leaves infected by sensitive isolates were treated with the fungicides.     

Distribution and fitness of isolates of Botrytis cinerea with multiple fungicide resistance in Spanish greenhouses

Forty-nine greenhouses of vegetable crops were surveyed in southeast Spain at the beginning of the disease season in December 1992 to estimate frequencies of resistance to benzimidazoles, dicarboximides and N -phenylcarbamates (NPC) in B. cinerea . Out of 261 isolates collected, 28% were sensitive to both benzimidazoles and dicarboximides, 15% were benzimidazole-resistant and dicarboximide-sensitive, 8% were benzimidazole-sensitive and dicarboximide-resistant and 46% were benzimidazole- and dicarboximide-resistant. Resistance to benzimidazole, dicarboximide and N -phenylcarbamate was determined by measuring the ability of each isolate to grow in the presence of carbendazim, procymidone and diethofencarb fungicides respectively. Carbendazim- or procymidone- resistant isolates were found in all surveyed greenhouses. Three isolates were found with resistance to carbendazim, procymidone and diethofencarb collected in two adjacent greenhouses that were sprayed with the carbendazim and diethofencarb mixture. All other isolates were sensitive to the mixture because they were either sensitive to carbendazim and resistant to diethofencarb or vice versa. Fitness of 31 isolates of B. cinerea was determined in vivo by measuring their sporulation and lesion growth rate on leaf disks. No fitness costs were associated with resistance to iprodione (dicarboximide) and benomyl (benzimidazole). Isolates with EC₅₀ values higher than 101 mg/L for benomyl and 1.6 mg/L for iprodione were considered to be field resistant (they caused visible lesions on cucumber leaf disks treated with each fungicide).     

The Use of a Radioimmunosorbent Assay for Botrytis cinerea1

A radioimmunosorbent assay was developed for Botrytis cinerea which can be used to detect as little as 100 ng of Botrytis mycelium (dry weight). Of 22 fungi tested in the assay, all significant reaction was restricted to members of the Sclerotiniaceae. No reaction was obtained with representative isolates of Aspergillus, Alternaria or Peiticillium. Other Botrytis species gave the most reaction relative to B. cinerea. and related genera such as Monilinia and Sclerotinia yielded small reactions. The assay can be used to detect fi. cinerea infection of grape berries when as little as 0.1 % of homogenate from infected fruit is mixed with homogenate from sound fruit to simulate a minor infection. The assay of free run juice from various lots of grapes was highly correlated with visual assessments of infection in the field. Pursuant to various theories concerning bloom time infection, the assay was used to analyse the B. cinerea content of immature berry tips and floral debris; however, no evidence of such colonization was obtained.     

Studies on Botrytis cinerea in tomatoes. Effect of soil nitrogen level and of methods of deleafing upon the occurrence of B. cinerea under commercial conditions

A high nitrogen level in the soil stimulated vegetative development of tomato plants and decreased the incidence of infection byB. cinerea. Negative correlations were found between the nitrogen level in the soil on the one hand, and, on the other, the number of stem lesions and the proportion of fruits falling prematurely because of infection byB. cinerea at the stalk. In some experiments, similar negative correlations were found between soil nitrogen and the incidence of infected petioles and trusses. Except for two experiments, no correlation was found between the nitrogen level in the soil and the proportion of infected leaves.Deleafing by breaking off the petiole close to the stem resulted in the lowest incidence of stem lesions as compared with that resulting when the petiole was cut either about 3 cm or about 5 cm from the stem.     

Comparison of Antagonists of Botrytis cinerea in Greenhouse-grown Cucumber and Tomato under Different Climatic Conditions

The efficacy of Trichoderma harzianum T39 and the yeasts Aureobasidium pullulans and Cryptococcus albidus against Botrytis cinerea in cucumber and tomato was compared with chemical control. Four experiments were conducted in cucumber grown under different climatic conditions in The Netherlands, and two experiments were done in tomato both in the Netherlands and in Israel. T. harzianum and A. pullulans showed the most consistent control of B. cinerea, reducing stem lesions and death of plants by 40–100% in most cases. Control of stem lesions and subsequent wilting was generally better than control of symptoms on fruits. In some cases, the biocontrol agents were more effective than the broad-spectrum fungicide tolylfluanid and the selective fungicide iprodione. The climatic conditions did not strongly influence the efficacy of the biocontrol agents, but regression analysis showed that high temperature during the day and high vapour pressure deficit during the night reduced biocontrol efficacy. From the results, prospects for biocontrol of B. cinerea in greenhouse vegetables appear good under a range of conditions.     

湖南省草莓灰霉病菌对4种杀菌剂的抗药性检测

为明确湖南省草莓灰霉病菌菌株的抗药性状况,2013-2015年从湖南省不同地区草莓灰霉病病果或病叶上经单孢分离获得草莓灰霉病菌454株,采用最小抑制浓度法(MIC)检测不同地区草莓灰霉病菌株对多菌灵、腐霉利、异菌脲、嘧霉胺的抗药性。结果表明:草莓灰霉病菌对多菌灵、腐霉利、异菌脲、嘧霉胺的抗性频率分别为55.73%,77.31%、3.52%和77.31%;所测菌株对4种杀菌剂的敏感性类型有Cbz~RPcm~RIpd~RPmt~R、CbzSPcm~RIpd~RPmt~R、Cbz~RPcm~RIpdSPmt~R、Cbz~SPcm~RIpdSPmt~S、Cbz~RPcm~SIpd~SPmt~R、Cbz~SPcm~RIpd~SPmt ~R等6种,其所占比例分别为33.26%、5.07%、41.41%、4.63%、3.96%、11.67%,未发现对4种杀菌剂均敏感的类型,表明湖南省草莓灰霉病菌已对多菌灵、腐霉利和嘧霉胺产生抗药性,对异菌脲的抗药性较低。     

Resistance to diethofencarb (NPC) in benomyl-resistant field isolates of Botrytis cinerea

Based on the 'negative cross-resistance' phenomenon between N -phenylcarbamates and benzimidazole fungicides, the fungicidal mixture of carbendazim + diethofencarb (MBC + NPC) was introduced, to control Botrytis cinerea phenotypes which are either sensitive to benzimidazoles and resistant to NPC (wild-type: Ben^S NPC^R). or resistant to benzimidazoles and sensitive to NPC(Ben^R NPC^S). At one out of four sites where the MBC + NPC mixture was used in commercial cucumber greenhouses, grey mould control failed and a new phenotype of B. cinerea was found. The new phenotype was resistant to benzimidazoles, as was 100% of the population screened in the four sites, but retained resistance to NPC. Accordingly, the new phenotype was designated Ben^R NPC^R. It was pathogenic on cucumber seedlings.     

Infection of flowers and fruits of red raspberry by Botrytis cinerea

The frequency and site of symptomless infection of flower buds, flowers, and fruits of red raspberry by Botrytis cinerea was studied using surface-disinfestation and culture techniques. Flower buds were rarely infected but open flowers were rapidly colonized and necrotic stamens and styles were an important source of infection for the developing fruit. The receptacle tissue within the drupelet cluster cavity was mostly sterile. Dichlofluanid sprays reduced symptomless infection of fruits and were more effective when applied early. Post-harvest rot tests indicated that incidence of grey mould was not related to symptomless infection unless fruits were surface-disinfested before subjecting to the rotting test.     

Sensitivity of Red Delicious Apple Fruit at Various Phenologic Stages to Infection by Alternaria alternata and Moldy-core Control

The fungus Alternaria alternata, is considered to be the predominant fungus involved in moldy-core of Red Delicious strains of apple. In this paper, we report on the sensitivity of various phenologic stages to infection by A. alternata, and on the efficacy of various fungicides in controlling moldy-core disease in apple orchards. Artificial inoculations conducted in the orchard during 1999 and 2000 seasons revealed that the beginning of bloom (10–30%) and full bloom were the most susceptible developmental stages for infection. Natural infection with A. alternata in fruits was relatively high, reaching 44% and 46% of the fruits on control non-treated trees in 1999 and 2000. Four foliar applications of polyoxin B, difenoconazole and azoxystrobin, starting from the beginning of bloom until fruit set, reduced the number of infected fruits by 54–70%, 61–70% and 50–65%, respectively, compared with non-treated trees. Four or eight foliar applications of each fungicide provided similar levels of control. There were no significant differences between two, four or six foliar applications of difenoconazole, neither between two or four applications of polyoxin B. Adding CaCl₂, as a tank mixture with difenoconazole at full rate, did not improve efficacy. Alternaria was recovered from the inner part of the core region of 71–88% of the fruits of the non-treated control, but was recovered less frequently from the outside part of the core region. Fruits of difenoconazole and polyoxin B treated trees were less colonized with A. alternata at both the inner and outside parts of the core region, as compared with controls. Results indicate that a control programme based on spray applications of difenoconazole or polyoxin B, during bloom period, can effectively reduce Alternaria on Red Delicious.     

Persistence of dicarboximide-fungicide resistance in populations ofbotrytis cinerea in a warm,dry temperate agroclimate

Failures to control gray mold with vinclozolin and iprodione in cucumber greenhouses in Israel, during the winter and spring of 1981, were attributed to the development of resistance to dicarboximide fungicides in populations ofBotrytis cinerea Pers. In seven out of eight greenhouses where resistance had been found in 1981, most or all of theB. cinerea population was resistant also in January 1982. This demonstrates the capability of resistant strains to survive during the warm and dry Mediterranean summer, and to provide competitive inoculum for crop infection in the subsequent winter.     

Efficiency of isolates ofConiothyrium minitans as mycoparasites ofSclerotinia sclerotiorum,Sclerotium cepivorum andBotrytis cinerea on tomato stem pieces

Summary Twenty five isolates ofConiothyrium minitans were screened for antagonism toSclerotinia sclerotiorum in a Petri dish bioassay using tomato stem segments placed on sterile sand. The antagonistic activity of 23 isolates was quite uniform and only two less antagonistic isolates were identified. Antagonism, expressed as a reduction in the rate of tissue colonization byS. sclerotiorum, occurred, whetherC. minitans was co-inoculated at the same time, one day before or one day afterS. sclerotiorum, but was slightly restricted whenS. sclerotiorum was given a lead of one day. On average, 50–80% of sclerotia of S.sclerotiorum formed on the stem pieces were infected byC. minitans two weeks after inoculation. Excluding the less antagonistic isolates,Coniothyrium minitans was recovered from over 80% ofS. sclerotiorum-infected stem segments when co-inoculated but from a maximum of only 7% of stem pieces when exposed toC. minitans alone. When the experiments were carried out on non-sterile soil instead of sterile sand, infection of stem pieces byS. sclerotiorum was reduced and recovery ofS. sclerotiorum andC. minitans from stem segments was decreased. SevenC. minitans isolates were also screened againstSclerotium cepivorum andBotrytis cinerea and, whereas the effect ofC. minitans onS. cepivorum-infected tissue and sclerotia was essentially similar to that observed withS. sclerotiorum, B. cinerea infected tissue and sclerotia were not invaded by the antagonist.     

Comparison of the development <Emphasis Type="Italic">in planta</Emphasis> of a pyrrolnitrin-resistant mutant of <Emphasis Type="Italic">Botrytis cinerea</Emphasis> and its sensitive wild-type parent isolate

Botrytis cinerea is able to build-up resistance to pyrrolnitrin, an antibiotic produced by diverse biocontrol agents, possibly compromising the durability of this method of disease control. The development of two near-isogenic lines of B. cinerea differing in their level of resistance to pyrrolnitrin was compared in tomato plants and on PDA medium. In tomato plants, significant differences in the percentage of infected petioles 1 day after inoculation and in symptom progression on petioles and stems were observed between the resistant mutant and the sensitive wild-type parent, suggesting a difference in their level of aggressiveness. Cytohistological investigations revealed that conidia of both near-isogenic lines germinated 6 h after inoculation and mycelium developed within petiole tissues 12 h after inoculation. However, while the wild-type parent isolate spread throughout the petiole and rapidly invaded the stem tissues via the leaf-abscission zone 72 h after inoculation, the pyrrolnitrin-resistant mutant failed to extend beyond petiole tissues to invade the stem. Moreover, 72 h after inoculation, the mycelial development of the pyrrolnitrin-resistant mutant was accompanied by abnormal glycogen accumulation and chlamydospore-like cell formation. In contrast, wild-type parent mycelium was normally structured with intensive colonization of stem tissues. Additionally, on PDA medium the mycelium of the pyrrolnitrin-resistant mutant was less vigorous than the wild-type isolate. These results suggest that the acquisition of pyrrolnitrin-resistance in B. cinerea is accompanied by changes in mycelial structure and reduction in mycelial growth, leading to a noticeable loss of aggressiveness on tomato plants.     

两种蚕豆赤斑病菌对常用杀菌剂的抗药性检测及比较

对采自浙江、湖北和安徽3省的蚕豆赤斑病样品进行了病原菌的分离和鉴定,采用菌丝生长速率法检测了引起赤斑病的2种病原菌——蚕豆葡萄孢Botrytis fabae和灰葡萄孢B.cinerea 的抗药性发生情况,并在离体条件下通过抗药性诱导试验比较了二者的抗药性风险。结果共分离得到153个菌株,其中蚕豆葡萄孢122株(占79.7%),灰葡萄孢31株(占20.3%)。共检测到37株多菌灵高水平抗药性菌株(其中蚕豆葡萄孢9株)和42株异菌脲低水平抗药性菌株(其中蚕豆葡萄孢17株);嘧霉胺对153个菌株的EC50值在0.01~5.13 μg/mL之间,平均EC50值为0.72±0.15 μg /mL;表明蚕豆赤斑病菌对常见杀菌剂已表现出一定的抗药性,且灰葡萄孢的抗药性问题比蚕豆葡萄孢要严重得多。抗药性诱导试验进一步证实,灰葡萄孢的抗药性风险明显高于蚕豆葡萄孢。     

The Role of Trichoderma harzianum Protease in the Biocontrol of Botrytis cinerea

The role of protease of Trichoderma harzianum in the biocontrol of Botrytis cinerea was examined. Two isolates of T. harzianum were compared for their ability to produce protease in liquid culture medium and on the surface of bean leaves. The biocontrol agent T. harziaum T39 produced 58mU/ml of protease and T. harzianum NCIM1185 produced 54mU/ml on the 5th day of growth in liquid culture medium. On bean leaves, combinations of B. cinerea and T. harzianum isolates were examined for the synthesis of protease. The protease activities were 0.9 and 0.6mU/ml for T. harzianum T39 and NCIM1185, respectively, and 0.5mU/ml for B. cinerea alone after 48h of incubation. In the presence of T. harzianum T39 culture liquid containing protease, a 55% reduction in B. cinerea germination and a 80% reduction in the germ tube length were observed after 17h of incubation in vitro. When T. harzianum isolates were added to B. cinerea on bean leaves, increased synthesis of protease was observed (1.0 and 1.2mU/ml for T39 and NCIM1185, respectively). In the presence of T. harzianum NCIM1185 protease, although the rate of germination was reduced, B. cinerea attained 98% germination after 17h of incubation. The hydrolytic enzymes produced by B. cinerea, endo-polygalacturonase (PG) and exoPG were partially deactivated by protease from the T. harzianum isolates. Carboxymethyl cellulase was deactivated only by protease of NCIM1185. On the surface of bean leaves, the protease (obtained from liquid culture medium of T. harzianum isolates) resulted in 56–100% reduction of disease severity. The culture liquid containing protease synthesized on the surface of bean leaves treated with B. cinerea and with T. harzianum was collected and added to fresh leaves infected by B. cinerea. There was 56–100% and 30–75% reduction of disease severity with liquid droplet collected from the leaves treated with T. harzianum T39 and NCIM1185, respectively. Increased control of disease was obtained by combining the conidia of T. harzianum isolates with protease obtained from culture media. Protease inhibitors, trans-epoxysuccinyl-L-leucylamido-(4-guanidino)butane (E64), antipain hydrochloride, and a mixture of inhibitors, but not pepstatin A, fully or partially nullified the biocontrol effect of T39. T39 was found to be a poor producer of chitinase and -1,3-glucanase in vitro. These enzymes were not detected on leaves treated with T39. Involvement of protease in biocontrol of B. cinerea is suggested.     

Quantitative Aspects of Infection of Sclerotinia sclerotiorum Sclerotia by Coniothyrium minitans – Timing of Application, Concentration and Quality of Conidial Suspension of the Mycoparasite

White mould disease leads to production of sclerotia, which subsequently survive in soil and may be responsible for future epidemics. The effect of the mycoparasite Coniothyrium minitans in decreasing survival of sclerotia of Sclerotinia sclerotiorum was studied. Infection of sclerotia of S. sclerotiorum by C. minitans can be achieved by a single conidium. Under optimal conditions, 2 conidia per sclerotium produced 63% of the maximum infection (ca. 90%) of sclerotia produced by up to 1000 conidia. Similar results were observed on the infection of stem pieces infected by S. sclerotiorum. In field trials, application of conidial suspensions of C. minitans to a bean crop soon after white mould outbreak led to a higher percentage of sclerotial infection than later applications. Ninety per cent infection of sclerotia was obtained within 3 weeks of application by C. minitans suspensions in the range of 5 × 10⁵ and 5 × 10⁶ conidia ml^–1 at 1000 l ha^–1. The concentration of the conidial suspensions and the isolate used were of less importance. The result was marginally affected by the germinability of the conidia (75% against 61% infected sclerotia at 91% and 16% viability of isolate IVT1, respectively). Less apothecia of S. sclerotiorum developed in soil samples collected after 2 months from plots sprayed immediately after disease outbreak than from those treated 11–18 days later. It is concluded that a suspension of 10⁶ conidia ml^–1 in 1000 l ha^–1 (= 10¹² conidia ha^–1) sprayed immediately after the first symptoms of disease are observed, results in > 90% infection of sclerotia of S. sclerotiorum. The infection of sclerotia, which prevents their carry-over, occurs within a broad range of inoculum quality.     

Evaluation of Microbial Antagonists for Biological Control of Botrytis cinerea Stem Infection in Cucumber and Tomato

Of fifteen isolates of yeasts, filamentous fungi and bacteria and a commercial product, tested in a bioassay with stem segments, eleven isolates consistently reduced incidence of disease and sporulation of Botrytis cinerea Pers; Fr in tomato and seven isolates in cucumber. Several isolates reduced disease by more than 75% in all experiments. Six antagonists that performed well in the bioassays and that were fairly easy to produce in vitro, were selected for further testing in two glasshouse experiments with cucumbers. After application of spores of B. cinerea and the antagonists or the fungicide tolylfluanid to pruning wounds, disease incidence was reduced by 50–100% by all antagonists in both experiments and only in one experiment by tolylfluanid.For Trichoderma harzianum T39, Aureobasidium pullulans and Cryptococcus albidus, biological control efficacy in bioassays with cucumber stem segments was not strongly influenced by temperatures in the range between 18 and 30°C, but at 24°C the efficacy of the three antagonists strongly decreased at relative humidities of 90% and 80% (vapour pressure deficits 0.299 and 0.598kPa, respectively) compared to 100.