Bacterial Rot of Dieffenbachia maculata (Lodd.) G. Don. Caused by Erwinia chrysanthemi

Five bacterial isolates were obtained in a nursery near Gent (Belgium) from diseased Dieffenbachia maculata (Lodd.) G., Don. cv. Compacta, cv. Camillo and cv. Veerle plants. They were identified by API 20E, API 50 CHE and API ZYM systems as Erwinia chrysanthemi. These strains and seven collection strains were pathogenic to all three D. maculata cultivars tested: cv. Camillo, cv. Compacta and cv. Tropic Snow. Inoculation in the stem or petiole was the only effective method for obtaining systemic infection. The petiole appeared to be the part of the plant in which disease developed most readily. Wounding was required for the induction of the disease. Temperatures between 25° and 30° C, a relative air humidity of 75 % or more and low light intensity (0.5 ft-c) favoured the disease, whereas high inoculum sizes (10⁶ or more cells) accelerated and increased it. Histological studies showed tissue degradation in infected areas. Petioles were most severely affected. Transport of bacteria seemed to occur after vessel infection in stem or petiole tissues.     

Screening of cassava (Manihot esculenta Crantz) accessions against Phytophthora palmivora induced tuber rot of cassava

Cassava (Manihot esculenta Crantz), is an important tropical tuber crop with global importance and plays a significant role in the food, nutritional and livelihood security of around 500 million people. In India, the low productivity of cassava attributes to the soil borne disease, particularly tuber rot caused by Phytophthora palmivora (Butl.) which is destructive and the attack is spreading in alarming rate in all the cassava growing regions causing heavy yield loss of more than 50%. Introduction of disease resistant varieties may alleviate the problem to a certain extent. This paper describes the screening procedures and findings on the disease resistant variety of cassava accession against tuber rot. Variety Sree Padmanabha imparted high resistance against tuber rot, while Sree Sahya was moderately resistant and all other accessions studied were found to be susceptible in in vitro and in field trials. In screening studies, a reproducible positive correlation was obtained between attached tubers in live plant with detached tubers which showed that detached tuber part can be used for the prediction of resistance in attached live plants of cassava for cultivar resistance. The procedure described here could be used as a simple, rapid and efficient method for screening of cassava accessions against tuber rot of cassava.     

Diagnosis and management of Sclerotinia stem rot (white mould) of lentils in Greece

The paper describes the field-level symptoms, the identification and management of Sclerotinia stem rot of lentil caused by the soilborne plant pathogen Sclerotinia sclerotiorum in Greece. Regarding symptoms at a field level, initially plants before flowering turn yellow with roots and the base of the plants become brown; then rotten plants exhibit a dry stem and die. On the diseased tissue, at the base of the stem, the typical white mycelium and the resting bodies (sclerotia) were observed. According to our pathogenicity studies in vitro, on the infected plant tissues the fungus first develop a characteristic fluffy white mycelium which will give rise to large black sclerotia, the most obvious evidence of plants infected with S. sclerotiorum. Finally, concerning evaluation of fungicides, isolates of S. sclerotiorum were sensitive to thiophanate-methyl and to triazole fungicides. Thiophanate-methyl and triazole fungicides proved to be most effective in controlling the disease emerged from mycelium or sclerotia.     

Phytophthora spp. from rubbertree plantations in Yunnan Province of China

Phytophthora spp. associated with leaf fall, stem canker and black stripe of rubbertree (Hevea brasiliensis Muell.-Arg.) in Xishuangbanna of Yunnan Province were isolated from leaves, bark, fruit and soil in the plantations. Of a total of 50 isolates, 42 were designated as P. citrophthora (R. E. Sm. & E. H. Sm.) Leonian, while the others were identified as P. palmivora (Butl.) Butl., P. colocasiae Rac. and P. cactorum (Leb. & Conn) Schroet. This appears to be the first report of P. citrophthora on Hevea brasiliensis.     

The occurrence of sclerotium rot on Momordica charantia caused by Sclerotium rolfsii in Korea

Sclerotium rolfsii is one of the most destructive pathogens and thought to affect a broad range of plant hosts. In July 2014, an occurrence of sclerotium rot was observed on bitter melon (Momordica charantia L.) in Jinju, South Korea. The rot symptoms were most developed on stems and fruit near the soil line, and infected bitter melon plants withered and eventually died. White mycelial mats with numerous sclerotia were produced on diseased stems and fruit near the soil surface. Based on the morphological characteristics, pathogenicity tests, and DNA sequencing and phylogenetic analysis of the internal transcribed spacer (ITS) ribosomal RNA (rRNA) gene region, the causal fungus was identified as S. rolfsii Saccardo. This is the first report of sclerotium rot caused by S. rolfsii on bitter melon in Korea. The recent occurrence of sclerotium rot on bitter melon poses a potential threat to its production in Korea.     

Stem rots of oil palm caused by <Emphasis Type="Italic">Ganoderma boninense</Emphasis>: Pathogen biology and epidemiology

Oil palm (Elaeis guineensis Jacq.) has been grown in Papua New Guinea since the early 1960s. The most important disease of oil palm in PNG is a stem rot of the palm base. This is the same disease that constitutes a major threat to sustainable oil palm production in SE Asia. Investigations into the causal pathogen have revealed that the stem rots in PNG are caused predominantly by the basidiomycete Ganoderma boninense, with a minor pathogen identified as G. tornatum G. tornatum was found to have a broad host range whereas G. boninense appears to be restricted to palms. The population structure of G. boninense was investigated using inter-fertility studies between isolates collected from basal stem rots on oil palm. Although the G. boninense field populations are predominantly comprised of distinct individuals, a number of isolates were found that share single mating alleles. This indicates that out-crossing had occurred over several generations in the resident or wild population of G. boninense prior to colonization of oil palm. No direct hereditary relationship between isolates on neighbouring diseased palms was found, although an indirect link between isolates causing upper stem rot and basal stem rot was detected.     

Occurrence and Latent Infection of Alternaria Rot of Pingguoli Pear (Pyrus bretschneideri Rehd. cv. Pingguoli) Fruits in Gansu, China

Alternaria rot of Pingguoli pear occurred after latent infection. Fruit surfaces were asymptomatic within 60 days storage under cold condition (0°C, RH 85–90%), but black‐grey hyphae could be seen in the lenticels or calyx tube of Pingguoli pear after 90 days of storage. The tissue collapsed and resulted in visible black spots as the hyphae spread over the fruit. Average incidence of Alternaria rot of fruits from an orchard in Gansu was 28.86% at 100 days of storage. The main fungus isolated from the Alternaria rot on stored Pingguoli pear was identified as Alternaria alternata (Fr. : Fr.) Keissl. This pathogen was able to initially infect the fruit via two pathways during the growing season, and then remain in a latent state. The fungus first colonized the styles at the full‐blossoming stage, and then grew into the carpel cavities progressively after 50 days from petal fall. The percentage latent infection of A. alternata was up to 45% in the carpel cavity until the harvest time. The fungus also attacked fruit surfaces and remained latent in the fruit peel during fruit development. The percentage of A. alternata latent infection at the calyx end, middle part and stem end of the fruit peel was 40%, 24% and 42.8%, respectively, at harvest time.     

Induction of Plant Defense Enzymes and Phenolics by Treatment With Plant Growth–Promoting Rhizobacteria Serratia marcescens NBRI1213

In greenhouse experiments, plant growth–promoting rhizobacteria (PGPR) Serratia marcescens NBRI1213 was evaluated for plant growth promotion and biologic control of foot and root rot of betelvine caused by Phytophthora nicotianae. Bacterization of betelvine (Piper betle L.) cuttings with S. marcescens NBRI1213 induced phenylalanine ammonia-lyase, peroxidase, and polyphenoloxidase activities in leaf and root. Qualitative and quantitative estimation of phenolic compounds was done through high-performance liquid chromatography (HPLC) in leaf and root of betelvine after treatment with S. marcescens NBRI1213 and infection by P. nicotianae. Major phenolics detected were gallic, protocatechuic, chlorogenic, caffeic, ferulic, and ellagic acids by comparison of their retention time with standards through HPLC. In all of the treated plants, synthesis of phenolic compounds was enhanced compared with control. Maximum accumulation of phenolics was increased in S. marcescens NBRI1213–treated plants infected with P. nicotianae. In a greenhouse test, bacterization using S. marcescens NBRI1213 decreased the number of diseased plants compared with nonbacterized controls. There were significant growth increases in shoot length, shoot dry weight, root length, and root dry weight, averaging 81%, 68%, 152%, and 290%, respectively, greater than untreated controls. This is the first report of PGPR–mediated induction of phenolics for biologic control and their probable role in protecting betelvine against P. nicotianae, an important soil-borne phytopathogenic fungus.     

Pythium aphanidermatum root rot of pawpaw (Carica papaya L.) in Nigeria

Root rot of pawpaw (Carica papaya L.) reported in Nigeria is caused byPythium aphanidermatum which was consistently isolated from diseased plant parts and highly pothogenic. Out of 16 different media tested, it grew best on corn-meal-agar (CMA) and CMA supplemented with cellulose and sucrose. The highest number of oospores/ml was on CMA with average diameter of 19.9±0.1 µm. The symptom is characterized by dark brown rot of roots, absence of secondary roots and disintegration of internal tissue of the main root. These cause the progressive decline of the aerial parts of the tree untill it dies.     

A Comparative Study of the Effects of Five Chemicals on the Survival of Chlamydospores of Fusarium oxysporum f. sp. narcissi

Formaldehyde is routinely used in hot water treatment for the control of narcissus basal rot (caused by Fusarium oxysporum f. sp. narcissi) and stem and bulb eelworm (Ditylenchus dipsaci). It does not kill all the thick walled chlamydospores of F. oxysporum. Four chemicals were evaluated for their efficacy against F. oxysporum by comparing them with the standard formaldehyde rate. At rates of 0.25% a.i. or more, a glutaraldehyde formulation (Cidex) killed 100% of spores within 160 min. Peratol, a hydrogen peroxide and peracetic acid containing formulation, gave 100% kill after 80 min at a concentration of 0.5%. A thiabendazole formulation (Storite Clear Liquid) killed all the chlamydospores. Decon 90 failed to control the fungus adequately. Formaldehyde (as 0.5% commercial formalin) gave good, but not total, control of the fungus but, at higher rates (2.5%), caused flower malformation and corkiness of bulb base plates. The results suggest that Cidex and Peratol, as they are more effective than formaldehyde in controlling the fungus and less unpleasant to use, may be suitable replacements.     

Zinc influences nodulation,disease severity,leaf drop and herbage yield of alfalfa cultivars

Zinc deficiency is an important limiting factor in sustainable crop production and is a factor often overlooked in determining the benefits and overall success of alfalfa pastures in rotations. A field experiment was conducted to investigate the effects of zinc and alfalfa cultivars on nodulation, herbage yield, leaf drop and disease severity (Phytophthora root rot disease and common leaf spot disease) in alfalfa (Medicago sativa L.). Ten cultivars of alfalfa (Hunter River, Hunterfield, Sceptre Aurora, Genesis, Aquarius, Venus (Y8622), PL69, P5929 and PL34HQ) were tested at two levels of zinc (+Zn: 4 kg ha^–1, -Zn: no zinc added) on a Zn-deficient soil (DTPA zinc of top 0–15 cm soil was 0.4 mg kg^–1 soil, while 15–30 cm subsoil Zn was 0.1 mg kg^–1 soil) under field conditions. Zinc application significantly increased number and dry weight of nodules, herbage yield and leaf to stem ratio of alfalfa plants. There was a significant reduction in leaf drop, and occurrence of Phytophthora root rot (caused by fungus Phytophthora megasperma f. sp. medicaginis) and common leaf spot (caused by fungus Pseudopeziza medicaginis) diseases with Zn application. Alfalfa cultivars had a differential response to low Zn. Hunter River and Hunterfield were the most affected by omitting zinc application, while Sceptre, PL34HQ and Aquarius were comparatively less affected. The present study suggest that Zn nutrition effects nodulation, leaf drop, disease occurrence and production potential of alfalfa. The alfalfa cultivars have differential ability to low Zn supply. Growing of Zn-efficient cultivars and adequate Zn nutrition may also improve the N₂-fixation by alfalfa on low-Zn soils.     

Pythium vexans Causing Stem Rot of Dendrobium in Yunnan Province,China

Since 2002 a severe root and stem disease of Dendrobium has occurred periodically each year in the plantations of Simao City, Yunnan Province, China. Symptoms included water‐soaked and brown lesions, and rot of tissues. Based on the morphological characteristics and the internal transcribed spacer‐1, 5.8S ribosomal RNA gene, and internal transcribed spacer 2 and β‐tubulin gene sequences, the pathogen was identified as Pythium vexans de Bary. The pathogenicity of the fungus was confirmed by satisfying Koch’s postulates. This is the first world record of stem rot of Dendrobium caused by P. vexans.     

Effect of the Compound CGA 78039 and Streptomycin on the Expression of Bacterial Stem Rot in Dieffenbachia

Bacterial stem rot, due to Erwinia chrysanthemi , is a serious problem in ornamental crop protection, e.g. in Dieffenbachia . It was our aim to compare the effect of the synthetic compound CGA 78039 and streptomycin sulphate on the suppression of stem rot disease in Dieffenbachia . Different treatments were applied under natural and artificial infection pressures. Pretreatment of the mother plants with CGA 78039, followed by dipping of the cuttings overnight in the same solution before potting and five subsequent weekly foliar sprays during growth reduced the expression of stem rot in Dieffenbachia significantly.     

Greenhouse and field evaluations of potassium phosphonate: the control of Phytophthora foot rot of black pepper in Vietnam

Phytophthora foot rot of black pepper caused by Phytophthora capsici is a major disease of black pepper throughout production areas in Vietnam. The disease causes collar, foot and tap root rots and eventual death of the infected vine. Potassium phosphonate was evaluated for the control of this disease in greenhouse and field trials. In greenhouse trials three-month-old vines treated with phosphonate by soil drenching (10–20 g a.i./l) and then inoculated with P. capsici mycelium (2% v/v soil) had significantly less foot rot compared to vines grown in non-treated soil. In field trials mature vines were treated with phosphonate at 50–100 g a.i/pole soil drenching or 10 g a.i./l by root infusion. After 10 days root, stem and leaf specimens were removed for bioassay by inoculation with 5 ml of P. capsici zoospores suspension (10⁶–10⁸ spores/ml). Soil drenching with phosphonate inhibited the colonisation of pathogen on excised leaf, stem and root tissues, significantly more than phosphonate root infusion. Our study provides further evidence supporting the efficacy of potassium phosphonate in the management of black pepper foot rot caused by P. capsici. The excised leaf and stem bioassay used in this study is a rapid and useful technique for testing the efficacy of systemic fungicides in controlling this disease.     

铁皮石斛疫病及其病原菌

铁皮石斛疫病2001年发现在浙江义乌栽培田间,是由疫霉菌引起的。在田间,疫霉菌侵染茎基部,引起当年移植苗根腐、植株枯萎和死亡,但侵染2-3年植株幼嫩顶部仅引起顶枯症状。通过对病原菌形态学、交配型的观察,以及核糖体DNAITS序列分析,侵染铁皮石斛的5个分离菌株被鉴定为烟草疫霉菌Phytophthora nicotianae。致病性试验表明,铁皮石斛是烟草疫霉菌的寄主。     

Endophytic fungi promote plant growth and mitigate the adverse effects of stem rot: an example of Penicillium citrinum and Aspergillus terreus

Disease resistance is a highly desirable crop trait in the sustainable agricultural industry. Endophytic fungi with gibberellins-secreting potential are now widely known for their ability to stimulate plant growth, but their role in promoting disease resistance in plants has rarely been reported. We have studied the role of Penicillium citrinum LWL4 and Aspergillus terreus LWL5 in time-dependent manner on sunflower (Helianthus annuus L.) growth, disease resistance and their capacity for the regulation of hormone signaling networks involved in plant defense against the stem rot caused by Sclerotium rolfsii for 3, 6 and 12 days after treatment (DAT). Our results show that plant growth characteristics (i.e. shoot length, shoot diameter, shoot fresh/dry weight, transpiration, stomatal conductance, photosynthesis and chlorophyll content) were promoted in fungi-treated plants with or without the disease caused by Sclerotium rolfsii as compared to their respective controls in 3, 6 and 12 DAT. The negative impacts of stem rot in endophyte-treated diseased plants were greatly reduced in comparison to control diseased plants shown by low disease severity in 3, 6 and 12 DAT. Similarly, fungal endophytes in diseased plants relieved the biotic stress in time-dependent manner (3, 6 and 12 DAT) as shown by low level of endogenous salicylic acid and jasmonic acid contents and were significantly higher in control diseased plants. Furthermore, we observed that the Penicillium citrinum LWL4 association had a greater positive effect on sunflower plants than Aspergillus terreus LWL5. It was concluded that inoculation with fungal endophytes reprogramed plant growth during disease incidence by regulating responses associated with host plant defense. Management strategies involving endophytic symbiosis can help achieve sustainability in agriculture in an eco-friendly manner by reducing excessive fungicide use.     

Infection process of Gaeumannomyces graminis var. graminis on the roots and culms of rice

Crown sheath rot, caused by the ascomycete Gaeumannomyces graminis var. graminis that infects the root and the base of the culm of rice, causes early grains maturation, tiller death and reduced yield. As a paucity of information exists in the literature on the rice‐G. graminis var. graminis interaction at the microscopic level, this study aimed to gain novel insights into the infection process of this pathogen in the root and culm of rice using both light and scanning electron microscopy. In the roots, the fungus initially colonized the epidermal, exodermal and sclerenchyma cells. At 15 days after inoculation (dai), fungal hyphae colonized the cortex and clusters of perithecia were observed in the roots. At 20 dai, the fungus reached the central cylinder, and an intense fungal colonization at the base of the culm was observed that resulted in the formation of a mycelial mat on both adaxial and abaxial surfaces of the leaf sheaths. At 25 dai, fungal growth was noticed in the parenchyma cells, vascular bundles and airspaces. Perithecia emerged through the base of prophyllum and from the first leaf sheath at 30 dai. The results of this study provide new insights into the infection process of G. graminis var. graminis in rice and may help to find better control measures in reducing crown sheath rot development.     

Production of Pectic Enzymes by Fusarium oxysporum f. sp. cepae and its Involvement in Onion Bulb Rot

Fusarium oxysporum f. sp. cepae produced an exo-polygalacturonase (exo-PG) and endopectin-trans-eliminase (endo-PTE) in a mineral medium supplemented with a restricted supply of either D-galacturonic acid or onion cell walls. These enzymes were also extracted from infected onion tissue, but only endo-PTE caused tissue maceration and cell death. The patterns of host tissue colonization and pectic enzyme production were followed during bulb rot development. Stem plates were invaded within two weeks of inoculation. The pathogen then remained confined to the stem plates for several weeks or months, before spreading to the outer fleshy scales to initiate a basal rot. In most cases the inner leaf sheaths containing the lateral bud remained healthy. Exo-PG activity m stem plate tissue was greatest at two weeks after inoculation, then it declined. Endo-PTE was not detected in newly invaded stem plate tissue, but was recovered from infected stem plates before decay and from the bases of bulb scales and leaf sheaths at the onset of bulb rot. There was no pectic enzyme activity in uninvaded onion tissue. Spread of the fungus and pectic enzyme production in two Caledon Globe genotypes susceptible or tolerant to F. oxysporum f. sp. cepae were similar, but the onset of bulb rot in tolerant genotypes was considerably delayed.     

Molecular characterisation of Fusarium oxysporum causing rot diseases in small cardamom (Elettaria cardamomum Maton)

Incidence of root rot and foliar yellowing, rhizome rot, panicle wilt and stem rot diseases of small cardamom (Elettaria cardamomum Maton) are caused by Fusarium oxysporum Schlecht., and were surveyed in the high ranges of Idukki district, Kerala during 2010–2011. The diseases were noticed in different areas to varying degrees. Root rot was found to be most severe, followed by pseudostem rot, rhizome rot and panicle wilt. The Fusarium infections were prevalent throughout the year (January–December) and varied from 1.5 to 10.6%. Even though the pathogen was isolated from different plant parts, during pathogenicity studies, all the isolates could cross-infect other plant parts too. Twenty different isolates of F. oxysporum were obtained from diseased samples, and five morphologically distinct isolates were analysed with Randomly Amplified Polymorphic DNA (RAPD) markers to study the genetic variability, if any, among them. PCR amplification of total genomic DNA with random oligonucleotide primers generated unique banding patterns, depending upon primers and isolates. Nine oligunucleotide primers were selected for the RAPD assays, which resulted in 221 bands for the five isolates of F. oxysporum. The number of bands obtained was entered into an NTSYS, and the results showed moderate genetic variability among F. oxysporum isolates causing root rot, rhizome rot, panicle wilt and pseudostem rot, collected from different locations. The dendrogram of different isolates into groups resulted in one major cluster at 0.61 similarity index comprising of four isolates (CRT 3, CRR 3, CPW 2 and CSR 1) and one isolate (CRT 5) formed in a separate cluster. Among the five isolates of F. oxysporum, CRT 5 was entirely different from the other four isolates. The isolates also differ according to the geographical area, as revealed from the genetic variability observed in different root rot isolates (CRT 3 and CRT 5). It is inferred that despite moderate variability, F. oxysporum, infecting small cardamom in Idukki district of Kerala, consists of a single clonal lineage.     

Assessment of three strategies for the management of Meloidogyne arenaria on carrot in Mexico using Pochonia chlamydosporia var. mexicana under greenhouse conditions

Three control strategies for management of Meloidogyne arenaria were evaluated on carrot under greenhouse conditions. The control strategies tested were: i) incorporation of fresh broccoli; ii) carbofuran (Furadan®); and iii) Pochonia chlamydosporia var. mexicana, isolate Pcp21. Each strategy was evaluated separately and in combination (16 treatment combinations), each with three replicates. The experiment was done between February and April 2014 and repeated over the same time period in 2015. Each replicate experimental unit consisted of a 1?kg pot filled with tyndallised soil, to which broccoli, fungus and carbofuran were added according to treatment. Carrot seeds were sown into each pot and inoculated with M. arenaria eggs according to treatment. Pots were then maintained in the glasshouse for 12 weeks at 25?±?5°C. After this time the fresh root weight, root length, percent reduction in root galling, P. chlamydosporia var. mexicana colony forming units (CFU)/g of soil, and CFU/g root were all measured. Results showed that isolate Pcp21 of P. chlamydosporia var. mexicana significantly reduced root galling percentage by 50 and 78% in 2014 and 2015, respectively. Application of the fungus in combination with broccoli or carbofuran also reduced root galling. The number of CFU/ g of soil or root remained the same over the 12 weeks of the experiment. This isolate of P. chlamydosporia significantly reduced damage caused by M. arenaria on carrot and is a promising agent for management of this nematode.