Screening of phytotoxicity of Alternaria macrospora MKP1 against Parthenium hysterophorus L.

Parthenium hysterophorus L. an exotic, pernicious weed is considered as one of the most troublesome weeds for agricultural sector by virtue of its high ecological amplitude and adaptability. Microbes and their by-products are now proved to be a worthy alternative to toxic chemicals used for weed management. Alternaria macrospora MKPI was isolated from the parthenium leaves infected with leaf blight and found pathogenic to the weed. The herbicidal potential of cell free culture filtrate of A. macrospora MKP1 has been tested against parthenium by employing detached leaf bioassay and seed germination bioassay and a significant damage was exhibited by the cultural filtrate of pathogen to the parthenium leaves and seeds.     

Formulation of phytotoxins from Phoma sp. FGCC#18 for the management of Parthenium hysterophorus L.

Biological control is a relatively cheap and most feasible long-term approach for controlling deadly weeds. Parthenium hysterophorus L. is a pernicious weed, imposing deleterious economic effects on humans and livestock. Microbial products thus offer a non-chemical alternative for controlling a noxious, invasive and pernicious weed like Parthenium. Phoma is a well-known phytopathogen responsible for many diseases in plants and is known to produce an array of bioactive extracellular toxic compounds, i.e. agribiologicals. Before application these have to be effectively formulated to enhance their absorption and translocation within the foliar tissues. Adjuvants are formulatives of microbial bioherbicides which ensure maximum herbicidal performance. Research on adjuvant and formulation technology for ecofriendly agrochemicals has advanced rapidly in recent years. Phytotoxins from Phoma sp. FGCC#18 have been tested for their compatibility with different formulants. Phytotoxicity damage was studied by seedling and detached leaf bioassays after different hours post-treatment. Tween 80 at 0.5% was found to be the best formulant, while the combination of Tween 80 and coconut oil at 0.5% exhibited maximum damage to Parthenium seedlings and detached leaves.     

Fungal foliar diseases in Withania somnifera and its effect on secondary metabolites

Withania somnifera is a promising revitalizing medicinal herb. The plant is affected by foliar diseases in Lakkavalli forest region of Bhadra Wildlife Sanctuary. The symptomatology of foliar fungal disease incidence, severity and distribution in the study area was examined during 2006–2009. The seedborne nature and transmission of the causal pathogen and its management with seed dressing fungicides were studied. The results of the study indicated that Alternaria alternata caused severe leaf spot disease, while Myrothecium roridum and Fusarium oxysporum caused minor diseases. Based on the internal transcribed spacer (ITS1 and ITS2) regions of rDNA, the major pathogen was identified as A. alternata. The disease is homogeneously distributed in Lakkavalli forest region and high severity is recorded during November. Alternaria alternata and Fusarium oxysporum were the dominant seedborne pathogens that are transmitted to seedlings. Among the seed dressing fungicides used, Hyzeb was the most effective, followed by Captra, Antracol and Bavistin, in reducing the incidence of A. alternata and other seedborne fungi. The infected W. somnifera foliages had decreased steroids and alkaloids and increased phenolics and flavonoids. Analysis of alkaloids in diseased foliages by high performance thin layer chromatography indicated the occurrence of transformed compounds at R_f = 0.1, 0.77 (254 nm) and 0.2 (366 nm).     

Allelopathic effects ofParthenium hysterophorus L

Summary Growth inhibitors are washed down from the aerial vegetative parts ofParthenium hysterophorus L. during rain. These get adsorbed to soil particles thereby rendering the substratum inhibitory. The trichomes covering the vegetative parts contain inhibitors. The trichomes which get easily detached from dry parts when happen to settle on leaf surface of other plants in high quantity, reduce the chlorophyll and dry matter content in those species.Part I appeared in Plant and Soil53, 27 (1979).     

Effect of carbendazim and mancozeb combinationon Alternaria leaf blight and seed yield in sunflower (Helianthus annus L.)

Abstract

Leaf blight caused by Alternaria helianthi (Hansf.) Tubaki & Nishihara, is the major disease of sunflower affecting the successful cultivation across India. Five individual fungicides and two combination fungicides were evaluated against this pathogen in laboratory and in field experiments. Among them, the combination of carbendazim + mancozeb completely (100%) inhibited the mycelial growth of A. helianthi, irrespective of the concentrations tested followed by carbendazim alone and metalaxyl + mancozeb under in vitro condition. In field conditions, the combination of carbendazim + mancozeb was found to be highly effective in reducing the leaf blight disease of sunflower in all the three experiments as compared to other fungicides and unsprayed control. The reduction of Alternaria leaf blight was also directly associated with an increase in seed yield. The economics of the fungicides spray has been worked out and the benefit cost ratio for the combination of carbendazim + mancozeb at 2.0 g/l was 7.1 as compared to unsprayed control. The overall analysis of the results revealed that the combination of carbendazim + mancozeb at 2.0 g/l can be used for the management of foliar diseases such as Alternaria leaf spot/blight in agricultural crops.     

Insecticidal and antifungal potentials of a proteinaceous extract of Cassia occidentalis (Linn.) seeds

Proteinaceous extract obtained from Cassia occidentalis seeds with purification fold of 3.91 and 82.7% of bovine trypsin inhibitory activity was assessed at different concentrations (25, 50, 100, 200, 400 and 800 μg/ml) against Spodoptera litura. Assay of larval feeding suggested proteinaceous extract to be toxic as prepupal (80.16%) and pupal mortalities (100%) along with growth deterrent effect with only 16.71% pupation was observed at 800 μg/ml. Fifty per cent mortality (LC₅₀) was observed at 132.91 μg/ml. Also the inhibitor affected fecundity, longevity and percentage of egg hatching. Nutritional indices were adversely affected as both efficiency of conversion of ingested and digested food decreased while approximate digestibility and metabolic cost increased. In vitro studies on proteolytic enzymes of S. litura revealed inhibition of trypsin and chymotrypsin in lumen and faecal matter at all tested concentrations. Also proteinaceous extract inhibited mycelial growth in Fusarium oxysporum, Alternaria brassicicola and Alternaria alternata at 100 μg/ml.     

Aflatoxins in sunflower seeds: Influence of Alternaria alternata on aflatoxin production by Aspergillus parasiticus

The aim of the present work was to determine the influence of Alternaria alternata upon aflatoxin production by Aspergillus parasiticus.A mixture of spores of both strains was inoculated in sunflower seeds at 0,90 a_w, and incubated for 42 days at 28 °C ±1.The cultures were observed and analyzed every 7 days to determine the infection level of the seeds and the production of aflatoxins. Results showed that when the seeds were inoculated only with Aspergillus parasiticus, 100% were infected from the 7th day.When Aspergillus parasiticus and Alternaria alternata were simultaneously inoculated the infection level of the seeds was 100% for Aspergillus parasiticus following 7 days of inoculation and 0% for Alternaria alternata. After the 14th day of inoculation there was no significant difference in the infection percentage of both strains (approximately 80% of each one). As far as toxin production is concerned a remarkable decrease was observed when seeds were inoculated with both strains simultaneously.In accordance to the results, Alternaria alternata would not compete with Aspergillus parasiticus in colonization of seeds but would either degrade the aflatoxins by Aspergillus parasiticus or compete for aflatoxin biosynthesis precursors. Alternaria alternata could also secrete some substance that specifically inhibits aflatoxin synthesis.     

Expression of an endochitinase gene from <Emphasis Type="Italic">Trichoderma virens</Emphasis> confers enhanced tolerance to <Emphasis Type="Italic">Alternaria</Emphasis> blight in transgenic <Emphasis Type="Italic">Brassica juncea</Emphasis> (L.) czern and coss lines

An endochitinase gene ‘ech42’ from the biocontrol fungus ‘Trichoderma virens’ was introduced to Brassica juncea (L). Czern and Coss via Agrobaterium tumefaciens mediated genetic transformation method. Integration and expression of the ‘ech42’ gene in transgenic lines were confirmed by PCR, RT-PCR and Southern hybridization. Transgenic lines (T₁) showed expected 3:1 Mendelian segregation ratio when segregation analysis for inheritance of transgene ‘hpt’ was carried out. Fluorimetric analysis of transgenic lines (T₀ and T₁) showed 7 fold higher endochitinase activity than the non-transformed plant. Fluorimetric zymogram showed presence of endochitinase (42 kDa) in crude protein extract of transgenic lines. In detached leaf bioassay with fungi Alternaria brassicae and Alternaria brassicicola, transgenic lines (T₀ and T₁) showed delayed onset of lesions as well as 30–73 % reduction in infected leaf area compared to non-transformed plant.     

The mixture of tertiary and quaternary alkaloids isolated from Argemone ochroleuca inhibits spore germination of some fungi

The mixture of tertiary and quaternary alkaloids isolated from Argemone ochroleuca was separately assessed against spore germination of some plant pathogenic fungi, e.g. Alternaria alternata, Alternaria brassicae, Alternaria cajani, Bipolaris sp., Curvularia lunata, Curvularia sp., Colletotrichum musae, Fusarium udum, Helminthosporium sp., Helminthosporium pennisetti and Helminthosporium speciferum. Spore germination of Fusarium udum and Helminthosporium sp. was completely inhibited at very low concentration (200 ppm). A similar effect was observed on A. alternata, C. musae and H. pennisetti at 600, 800 and 1000 ppm. With quaternary alkaloids, Curvularia sp. and Colletotrichum musae were most sensitive as complete inhibition of spore germination was observed at 400, 600, 800 and 1000 ppm and a similar effect was observed with A. brassicae and A. cajani at 600, 800 and 1000 ppm. The remaining fungi were also highly sensitive to the mixture at different concentrations.     

Early recovery signs of an Australian grassland following the management of Parthenium hysterophorus L.

Parthenium weed (Parthenium hysterophorus L.) is believed to reduce the above- and below-ground plant species diversity and the above-ground productivity in several ecosystems. We quantified the impact of this invasive weed upon species diversity in an Australian grassland and assessed the resulting shifts in plant community composition following management using two traditional approaches. A baseline plant community survey, prior to management, showed that the above-ground community was dominated by P. hysterophorus, stoloniferous grasses, with a further high frequency of species from Malvaceae, Chenopodiaceae and Amaranthaceae. In heavily invaded areas, P. hysterophorus abundance and biomass was found to negatively correlate with species diversity and native species abundance. Digitaria didactyla Willd. was present in high abundance when P. hysterophorus was not, with these two species, contributing most to the dissimilarity seen between areas. The application of selective broad leaf weed herbicides significantly reduced P. hysterophorus biomass under ungrazed conditions, but this management did not yet result in an increase in species diversity. In the above-ground community, P. hysterophorus was partly replaced by the introduced grass species Cynodon dactylon L. (Pers.) 1 year after management began, increasing the above-ground forage biomass production, while D. didactyla replaced P. hysterophorus in the below-ground community. This improvement in forage availability continued to strengthen over the time of the study resulting in a total increase of 80% after 2 years in the ungrazed treatment, demonstrating the stress that grazing was imposing upon this grassland-based agro-ecosystem and showing that it is necessary to remove grazing to obtain the best results from the chemical management approach.     

Effects of Alternaria alternata f.sp. lycopersici toxins on pollen

Summary Effects of the phytotoxic compounds (AAL-toxins) isolated from cell-free culture filtrates of Alternaria alternata f.sp. lycopersici on in vitro pollen development were studied. AAL-toxins inhibited both germination and tube growth of pollen from several Lycopersicon genotypes. Pollen from susceptible genotypes, however, was more sensitive for AAL-toxins than pollen from resistant plants, while pollen of species not belonging to the host range of the fungus was not significantly affected by the tested toxin concentrations. AAL-toxins elicit symptoms in detached leaf bioassays indistinguishable from those observed on leaves of fungal infected tomato plants, and toxins play a major role in the pathogenesis. Apparently, pathogenesis-related processes and mechanisms involved in disease resistance are expressed in both vegetative and generative tissues. This overlap in gene expression between the sporophytic and gametophytic level of a plant may be advantageously utilized in plant breeding programmes. Pollen may be used to distinguish susceptible and resistant plants and to select for resistances and tolerances against phytotoxins and other selective agents.     

First report of Alternaria sp. PMK1: causative agent of leaf spot disease on parthenium weed

Congress grass, Parthenium hysterophorus L. (Asteraceae, tribe Heliantheae), is an erect and much branched annual or ephemeral herb, known as a pest for environmental, medical and agricultural reasons. Survey of fungal pathogens of P. hysterophorus was conducted in Kurukshetra and its adjoining areas, Haryana, India. A leaf spot pathogen Alternaria sp. PMK1 was isolated. Koch's postulates were performed and proved that this isolate was pathogenic to this weed. This is the first report of this pathogen causing leaf spot on parthenium weed.     

Inhibitory effect of botanical extracts against Alternaria alternata of aloe vera dry rot

Aloe vera dry rot caused by Alternaria alternata, is one of the most serious fungal diseases affecting the commercial cultivation of aloe vera in North India. Control of this disease through chemical is quite expensive and not ecofriendly. The plant extracts as biopesticdes act as a vital components for the management of this disease. Evaluation of some plant extracts was carried out against A. alternata in laboratory conditions. The extracts were prepared at 5% and 10% concentration and were evaluated through inhibition in radial growth (food poison technique) and spores (conidia) germination (hanging drop technique) against A. alternata. Neem leaf extract gave 58.6% inhibition in radial growth and 56.5% in spore germination at 10% concentration followed by Ocimum sanctum which was found effective and gave 54.7% inhibition in radial growth and 50.4% in spore germination over control.     

Toxicity ofParthenium hysterophorus extracts toChlorella vulgaris andSynechococcus elongatus

Aqueous extracts from leaf or inflorescence ofParthenium hysterophorus were either algistatic or algicidal toChlorella vulgaris andSynechococcus elongatus. Root extract, however, enhanced the growth of the two algae, but a 2.5% level was algistatic toS. elongatus.     

A cAMP‐Dependent Protein Kinase Gene,aapk1, Is Required for Mycelia Growth,Toxicity and Pathogenicity of Alternaria alternata on Tobacco

The fungus Alternaria alternata is a common spot‐producing plant pathogen. During the past decade, tobacco brown spot disease caused by this fungus has became prevalent in China and lead to significant losses. To better understand the molecular pathogenesis of this fungus, the aapk1 gene encoding a cAMP‐dependent protein kinase catalytic subunit was cloned, sequenced and characterized. The aapk1 deletion mutants were identified from hygromycin‐resistant transformants by PCR strategy and confirmed by Southern blot analysis and RT‐PCR. The aapk1 deletion mutant exhibited reduced vegetative growth and was less toxic than the wild‐type strain sd1. Deletion of aapk1 also delayed disease development on detached tobacco leaves. Thus, we propose that the cAMP signalling pathway is involved in mycelia growth and pathogenic phenotype of Alternaria alternata.     

Host range evaluation of the leaf-feeding beetle,Zygogramma bicolorata and the stem-boring weevil,Listronotus setosipennis demonstrates their suitability for biological control of the invasive weed,Parthenium hysterophorus in Ethiopia

The invasive weed, parthenium (Parthenium hysterophorus L.) (Asteraceae: tribe Heliantheae), damages agriculture, adversely impacts biodiversity and is hazardous to human and animal health in Ethiopia. The host range of two natural enemies, a leaf-feeding beetle, Zygogramma bicolorata (Coleoptera: Chrysomelidae) and a stem-boring weevil, Listronotus setosipennis (Coleoptera: Curculionidae) was evaluated for biological control of the weed in Ethiopia. The specificity of Z. bicolorata and L. setosipennis was assessed against 29 and 31 non-target plant species, respectively. The host range of Z. bicolorata and L. setosipennis was first assessed using no-choice tests to examine their oviposition and feeding response on non-target plants. Although oviposition by Z. bicolorata occurred on six non-target species in four Asteraceae species in no-choice tests, it was significantly lower than on parthenium and no larvae developed. Zygogramma bicolorata nibbled the leaves of one of the five niger seed (Guizotia abyssinica L. – an oil seed crop closely related to parthenium) cultivars tested, but feeding and oviposition were significantly less than on parthenium. Furthermore, choice tests indicated that Z. bicolorata did not oviposit nor feed on G. abyssinica when parthenium was present. In no-choice tests, L. setosipennis did not oviposit on any of the non-target species assessed. Mean oviposition on parthenium was 39.0?±?3.4 eggs per plant whereas no eggs were laid on any of the 31 species tested. Based on these and other host range tests, permission was obtained to field release Z. bicolorata and L. setosipennis in Ethiopia.     

Selection of mutants resistant to Alternaria blotch from in vitro -cultured apple shoots irradiated with X- and γ-rays

We produced mutants resistant to Alternaria blotch disease in several cultivars of apple (Malus × domestica Borkh.) by irradiation with X- or γ-rays. An efficient in vitro assay method was established using chemically-synthesized AM-toxin I of Alternaria alternata (Fr.) Keissler to screen for mutants resistant to Alternaria blotch disease. The frequency of necrotic lesions was investigated by applying various concentrations of AM-toxin I to leaf discs of the first, third, and fifth leaves from the shoot apex of several apple cultivars, including Jonathan, Fuji, Oorin, and Indo. In vitro-grown apple shoots of susceptible cultivars were then treated with various doses of X- or γ-ray irradiation. Several mutants resistant to AM-toxin I were obtained by combining the techniques for tissue culture of apple shoots with the AM-toxin I screening method. Following a repeat second screening test with AM-toxin I, mutant plants were sprayed with a spore suspension of A. alternata and found resistant to be the fungal pathogen. These mutants showed normal phenotypic appearance, and so far, no difference has been observed between the original plants and mutants except for the susceptibility to Alternaria blotch.     

Control by imazalil of fruit storage rots caused by Alternaria alternata

The fungicide imazalil has potential value for controlling post-harvest diseases caused by Alternaria alternata in pears, apples and persimmons. Imazalil was active in vitro on germination and hyphal growth (ED₅₀) at 1.4 and 0.5 μg/ml, respectively. Protectant action of the fungicide lasted only 1 day after treatment. At 1000 μg/ml the fungicide inhibited development of Alternaria rot in inoculated apples at 0 °C and in naturally infected pears and persimmons at–1 °C.     

Interactions of Neotyphodium gansuense, Achnatherum inebrians, and plant-pathogenic fungi

Interactions of Neotyphodium gansuense, Achnatherum inebrians, and nine fungal pathogens were studied by tests of inhibition of four fungal pathogens by Neotyphodium endophytes in vitro and by inoculation of nine fungal pathogens on detached leaves of endophyte-infected (E+) and endophyte-free (E−) plants. Compared with the controls, most isolates of N. gansuense significantly inhibited the growth in vitro of, in decreasing order of inhibition, Bipolaris sorokiniana, Curvularia lunata, Fusarium acuminatum, and Alternaria alternata. Inhibition zones appeared between pathogens and some isolates of N. gansuense. Some isolates of N. gansuense significantly inhibited sporulation of B. sorokiniana, A. alternata, and C. lunata. However, there was no significant inhibition of F. acuminatum and a few isolates significantly increased sporulation. The leaf inoculation trial indicated that almost all fungal pathogens were able to cause lesions on detached leaves regardless of endophyte status. Both the number and size of disease lesions on E+ A. inebrians leaves caused by A. alternata, F. chlamydosporum, F. oxysporum, and F. solani were reduced compared with those on E− leaves. Only lesion numbers (not size) of Ascochyta leptospora leaf spots were significantly reduced on E+ leaves compared with E− leaves. Conversely, only the length of Ascochyta leptospora leaf spots were significantly smaller on E+ leaves than on E− leaves; numbers of lesions were not significantly affected. C. lunata was strongly pathogenic to both E+ and E− leaves and numerous lesions developed and merged into patches, the leaf surface was covered and the leaf rotted away.     

Utilization of Caffeic Acid Phenethyl Ester to Control Alternaria alternata Rot in Tomato (Lycopersicon esculentum Mill.) Fruit

Chemical fungicides that are related with resistant strains develop negative effects on human health and environment. Propolis is a resinous substance collected by bees with positive effects on human health and inhibitory activity against Alternaria alternata. Caffeic acid phenethyl ester (CAPE) is a component of the propolis. The objective of this experiment was to test the effect of CAPE on fungi infecting tomato fruit using as a model the pathosystem A. alternata‐tomato. CAPE was chemically synthesized in our laboratory and analysed with nuclear magnetic resonance spectroscopy. Different concentrations (0, 16, 32, 48, 64, 80, 90 and 100 μm ) of CAPE were tested on A. alternata growing in vitro. For the in vivo experiment, red ripe tomato fruit was inoculated with A. alternata and untreated or treated with 1, 50 and 100 μm of CAPE. After that, the fruit was stored at 25°C for up to 20 days. Colony size (CS) was recorded in vitro. In tomato fruits, the severity of infection (SI), respiration rate (RR), ethylene production (EP), pH, total soluble solids (TSS), weight loss (WL) and titratable acidity (TA) were evaluated during the storage time. CAPE melting point and spectral data probed to be the right molecule. In vitro, 64 and 100 μm of CAPE reduced CS by 30%. In vivo, 50 and 100 μm of CAPE reduced SI higher than the fungicide Captan^® with no effects on RR, EP, WL, pH, TSS and TA. It was concluded that CAPE controls A. alternata infection better than a commercial fungicide without negative effects on tomato fruit ripening and fruit quality.