Your search keyword '"Uddin, Wakar"' showing total 12 results

1. Lessen your anthracnose struggles

Author

Aynardi, Brian, Inguagiato, John, McDonald, Steve, Clarke, Bruce, and Uddin, Wakar

Subjects

Golf, Fungicides, Golf courses, Business, Sports, sporting goods and toys industry

Abstract

Anthracnose (Colletotrichum cereale) has been a persistent problem on putting greens, particularly in the northeastern United States, where many golf courses have Poa annua greens, some by choice, others to [...]

Published

2016

2. Patterns of diversity in populations of the turfgrass pathogen Colletotrichum cereale as revealed by transposon fingerprint profiles

Author

Crouch, Jo Anne, Glasheen, Bernadette M., Uddin, Wakar, Clarke, Bruce B., and Hillman, Bradley I.

Subjects

Biological diversity -- Research, Turfgrasses -- Research, Turfgrasses -- Genetic aspects, Plant diseases -- Research, Agricultural industry, Business

Abstract

Anthracnose disease of cool-season turfgrasses, caused by the fungus Colletotrichum cereale, has recently emerged as one of the most significant pathogens of Poa annua. Here we investigated the utility of four repetitive transposable elements as molecular markers for the analysis of C. cereale populations. Southern blot hybridization analysis revealed lineage-specific polymorphisms and distribution patterns for these transposons. Comparative phylogenetic analysis of three nonrepetitive protein coding DNA sequences against the transposon restriction fragment length polymorphisms indicated that the transposon sequences have similar evolutionary histories to those found in the sampled C. cereale population, despite the alteration of several transposon copies by repeat-induced point mutation. The variability and ubiquity of the [Ccret2.sup.A15] transposon in C. cereale genomes suggest that this element could be used as a reliable DNA marker to discriminate between lineages of the fungus, identify hybrid genotypes, and analyze genetic diversity in populations of this turfgrass pathogen.

Published

2008

3. Induced systemic resistance responses in perennial ryegrass against Magnaporthe oryzae elicited by semi-purified surfactin lipopeptides and live cells of Bacillus amyloliquefaciens.

Author

Rahman, Alamgir, Uddin, Wakar, and Wenner, Nancy G.

Subjects

*RYEGRASSES, *PYRICULARIA grisea, *FUNGICIDE resistance, *LIPOPEPTIDE antibiotics, *BACILLUS amyloliquefaciens, *SOLID phase extraction

Abstract

The suppressive ability of several strains of cyclic lipopeptide-producing Bacillus rhizobacteria to grey leaf spot disease caused by Magnaporthe oryzae has been documented previously; however, the underlying mechanism(s) involved in the induced systemic resistance (ISR) activity in perennial ryegrass ( Lolium perenne L.) remains unknown. Root-drench application of solid-phase extraction ( SPE)-enriched surfactin and live cells of mutant Bacillus amyloliquefaciens strain FZB42-AK3 (produces surfactin, but not bacillomycin D and fengycin) significantly reduced disease incidence and severity on perennial ryegrass. The application of the treatments revealed a pronounced multilayered ISR defence response activation via timely and enhanced accumulation of hydrogen peroxide ( H2O2), elevated cell wall/apoplastic peroxidase activity, and deposition of callose and phenolic/polyphenolic compounds underneath the fungal appressoria in naïve leaves, which was significantly more intense in treated plants than in mock-treated controls. Moreover, a hypersensitive response ( HR)-type reaction and enhanced expression of LpPrx (Prx, peroxidase), LpOXO4 (OXO, oxalate oxidase), LpPAL (PAL, phenylalanine ammonia lyase), LpLOXa (LOX, lipoxygenase), LpTHb (putative defensin) and LpDEFa (DEFa, putative defensin) in perennial ryegrass were associated with SPE-enriched surfactin and live AK3 cell treatments, acting as a second layer of defence when pre-invasive defence responses failed. The results indicate that ISR activity following surfactin perception may sensitize H2O2-mediated defence responses, thereby providing perennial ryegrass with enhanced protection against M. oryzae. [ABSTRACT FROM AUTHOR]

Published

2015

4. A Genocide by any Measure: The Burmese military continues its campaign of genocide against the Rohingya Muslims.

Author

UDDIN, WAKAR

Subjects

GENOCIDE, ROHINGYA (Burmese people), MUSLIMS

Published

2022

5. Gray Leaf Spot (Blast) of Perennial Ryegrass Turf.

Author

Uddin, Wakar, Viji, Gnana, and Vincelli, Paul

Subjects

*RYEGRASSES, *TURF management, *PLANT diseases, *TURFGRASSES industry

Abstract

Discusses the problem of gray leaf spot of perennial ryegrass turf for the turfgrass industry. Pathogen diversity and biology; Symptoms; Disease management strategies; Incidence and severity of gray leaf spot on tall fescue; Life cycle of Pyricularia grisea; Turfgrass height and grass clipping management.

Published

2003

6. A Plant Based Modified Biostimulant (Copper Chlorophyllin), Mediates Defense Response in Arabidopsis thaliana under Salinity Stress.

Author

Islam, Md Tariqul, Ckurshumova, Wenzi, Fefer, Michael, Liu, Jun, Uddin, Wakar, and Rosa, Cristina

Subjects

HALOPHYTES, SALINITY, CHLOROPHYLLIN, CULTIVARS, COPPER, METHANE hydrates

Abstract

To date, managing salinity stress in agriculture relies heavily on development of salt tolerant plant varieties, a time-consuming process particularly challenging for many crops. Plant based biostimulants (PBs) that enhance plant defenses under stress can potentially address this drawback, as they are not crop specific and are easy to apply in the field. Unfortunately, limited knowledge about their modes of action makes it harder to utilize them on a broader scale. Understanding how PBs enhance plant defenses at cellular and molecular levels, is a prerequisite for the development of sustainable management practices utilizing biostimulants to improve crop health. In this study we elucidated the protective mechanism of copper chlorophyllin (Cu-chl), a PB, under salinity stress. Our results indicate that Cu-chl exerts protective effects primarily by decreasing oxidative stress through modulating cellular H2O2 levels. Cu-chl treated plants increased tolerance to oxidative stress imposed by an herbicide, methyl viologen dichloride hydrate as well, suggesting a protective role against various sources of reactive oxygen species (ROS). RNA-Seq analysis of Cu-chl treated Arabidopsis thaliana seedlings subjected to salt stress identified genes involved in ROS detoxification, and cellular growth. [ABSTRACT FROM AUTHOR]

Published

2021

7. Creeping Bentgrass Fairway Wear Resistance by Granular Topdressing of Ca/Mg-rich Liming Agents.

Author

Pruyne, Derek T., Schlossberg, Maxim J., and Uddin, Wakar

Subjects

AGROSTIS, WEAR resistance, SOIL depth, ESSENTIAL nutrients, GROWING season, SOIL composition

Abstract

Depletion of extractable silicon (Si) from surface soil depths has been observed in managed production systems. While not characterized as a plant essential nutrient, Si accrues in epidermal and vascular tissue of monocotyledonous plants. A field evaluation of granular Ca/Mg-rich liming agents was initiated on a creeping bentgrass (Agrostis stolonifera L. cv. Declaration) fairway in 2010. Excluding the control, treatments comprised 2440 kg (ha year)−1 topdressing of calcitic/dolomitic blended limestone or Ca/Mg-SiO3 in semi-annual or more frequent "split" applications. Each week of the 2011 and 2012 growing seasons, a dedicated wear simulator trafficked the fairway plots. Measures of canopy quality, clipping yield, tissue composition, soil pH, and plant-available soil Si levels were collected frequently. The described Ca/Mg-SiO3 annual topdressing rates correlated with acetic acid extractable Si levels >30 mg kg−1 in the 0- to 5-cm soil depth. Neither creeping bentgrass vigor, nutrition, nor leaf water content was influenced by significantly elevated levels of soil and tissue Si. Relative to non-trafficked plots, all split plots within trafficked main plots showed similarly reduced canopy quality regardless of topdressing treatment. If a critical threshold leaf Si concentration for creeping bentgrass wear tolerance enhancement exists, it is unlikely <11 g Si kg−1. [ABSTRACT FROM AUTHOR]

Published

2020

8. Perennial Ryegrass Wear Resistance and Soil Amendment by Ca- and Mg-Silicates.

Author

Pruyne, Derek T., Schlossberg, Maxim J., and Uddin, Wakar

Subjects

WEAR resistance, RYEGRASSES, SPECIFIC gravity, ACID soils, SOIL conditioners, SOIL amendments

Abstract

Proactive optimization of soil chemistry is a task commonly overlooked by agronomic practitioners. Agricultural field assessments have reported depletion of extractable soil silicon (Si) from shallow depths of intensively managed systems. While not recognized as a plant-essential nutrient, Si accumulates in epidermal and vascular tissue of grass leaves, sheaths, and shoots. A field study of Ca/Mg-silicate (SiO3) pelletized soil conditioner was initiated on a perennial ryegrass (Lolium perenne L. cvs. 1:1:1 Manhattan, Brightstar SLT, Mach 1) athletic field in 2010. Plots were trafficked by a wear simulator weekly, June through Sept. in 2011 and 2012. Canopy quality measures, clipping yield, tissue composition, soil pH, and plant-available soil Si levels were regularly collected over the two-year study. Under intense wear treatment (traffic), perennial ryegrass plots treated annually by granular application of 1220 or 2440 kg Ca/Mg-silicates per hectare showed significantly improved mean canopy density relative to plots receiving equal Ca and Mg as lime. These described Ca/Mg-SiO3 annual application rates coincided with acetic acid extractable soil Si levels > 70 mg kg−1 in the 0- to 8-cm soil depth. Experimental and temporal variability preclude reporting of a critical threshold concentration of leaf Si for improved perennial ryegrass wear tolerance. Future efforts towards this end should sample tissue of plots receiving wear treatment, rather than adjacent, non-worn proxies. [ABSTRACT FROM AUTHOR]

Published

2019

9. Silicon-Induced Systemic Defense Responses in Perennial Ryegrass Against Infection by Magnaporthe oryzae.

Author

Rahman, Alamgir, Wallis, Christopher M., and Uddin, Wakar

Subjects

*RYEGRASSES, *PYRICULARIA oryzae, *PERENNIALS, *SILICON research, *PATHOGENIC microorganisms

Abstract

Sustainable integrated disease management for gray leaf spot of perennial ryegrass may involve use of plant defense elicitors with compatible traditional fungicides to reduce disease incidence and severity. Silicon (Si) has previously been identified as a potential inducer or modulator of plant defenses against different fungal pathogens. To this end, perennial ryegrass was inoculated with the causal agent of gray leaf spot, Magnaporthe oryzae, when grown in soil that was nonamended or amended with three different levels of calcium silicate (1, 5, or 10 metric tons [t]/ha). When applied at a rate of 5 t/ha, calcium silicate was found to significantly suppress gray leaf spot in perennial ryegrass, including a significant reduction of disease incidence (39.5%) and disease severity (47.3%). Additional studies observed nonpenetrated papillae or cell-wall appositions harboring callose, phenolic autofluorogens, and lignin-associated polyphenolic compounds in grass grown in the Si-amended soil. Regarding defense-associated enzyme levels, only following infection did grass grown in Si-amended soil exhibit greater activities of peroxidase and polyphenol oxidase than equivalent inoculated control plants. Also following infection with M. oryzae, grass levels of several phenolic acids, including chlorogenic acid and fiavonoids, and relative expression levels of genes encoding phenylalanine ammonia lyase (PALa and PALb) and lipoxygenase (LOXa) significantly increased in Si-amended plants compared with that of nonamended control plants. These results suggest that Si-mediated increase of host defense responses to tungal pathogens in perennial ryegrass has a great potential to be part of an effective integrated disease management strategy against gray leaf spot development. [ABSTRACT FROM AUTHOR]

Published

2015

10. Induction of Salicylic Acid-Mediated Defense Response in Perennial Ryegrass Against Infection by Magnaporthe oryzae.

Author

Rahman, Alamgir, Kuldau, Gretchen A., and Uddin, Wakar

Subjects

*SALICYLIC acid, *RYEGRASSES, *PLANT defenses, *LEAF spots, *INFECTION, *PYRICULARIA oryzae

Abstract

Incorporation of plant defense activators is an innovative approach to development of an integrated strategy for the management of turfgrass diseases. The effects of salicylic acid (SA), benzothiadiazole (BTH, chemical analog of SA), jasmonic acid (JA), and ethephon (ET, an ethylene-releasing compound) on development of gray leaf spot in perennial ryegrass (Lolium perenne L.) caused by Magnaporthe oryzae were evaluated. Gray leaf spot disease incidence and severity were significantly decreased when plants were treated prior to inoculation with SA, BTH, and partially by ET but not by JA. Accumulation of endogenous SA and elevated expression of pathogenesis-related (PR)-1, PR-3.1, and PR-5 genes were associated with inoculation of plants by M. oryzae. Treatment of plants with SA enhanced expression levels of PR-3.1 and PR-5 hut did not affect the PR-1 level, whereas BTH treatment enhanced relative expression levels of all three PR genes. Microscopic observations of leaves inoculated with M. oryzae revealed higher frequencies of callose deposition at the penetration sites in SA- and BTH-treated plants compared with the control plants (treated with water). These results suggest that early and higher induction of these genes by systemic resistance inducers may provide perennial ryegrass with a substantial advantage to defend against infection by M. oryzae. [ABSTRACT FROM AUTHOR]

Published

2014

11. Photosensitizer to the rescue: in planta and field application of photodynamic inactivation against plant pathogenic bacteria.

Author

Islam MT, Ng K, Fefer M, Liu J, Uddin W, Ckurshumova W, and Rosa C

Abstract

Control of plant pathogens using chemical and synthetic pesticides raises a major safety concern for humans and the environment. Despite the ongoing exploration of sustainable alternative methods, management practices for pathogens, especially bacteria, have remained almost unchanged over decades, whereby long-term uses of copper and antibiotics has led to widespread bacterial resistance in the field. Antimicrobial photodynamic inactivation (aPDI) of bacteria is emerging as an alternative strategy to combat resistant plant pathogens. aPDI utilizes light-sensitive molecules (photosensitizers) that upon illumination produce reactive oxygen species able to kill pathogens. Here we explore the potential of an anionic semisynthetic water-soluble derivative of chlorophyl (Sodium Magnesium Chlorophyllin: Mg-chl), as an antibacterial agent in planta, by simulating processes naturally occurring in the field. Mg-chl in combination with Na2EDTA (cell wall permeabilizing agent) was able to effectively inhibit Pseudomonas syringae pv. tomato DC3000 in vitro and in planta in both tomato and N. benthamiana. Notably, Mg-chl in combination with Na2EDTA and the common surfactant Morwet D-400 significantly reduced Xanthomonas hortorum pv. gardneri and Xanthomonas fragarie, respectively, in a commercial greenhouse trial against bacterial spot disease in tomato and in field experiments against angular leaf spot disease in strawberries.

Published

2022

12. The internet-based fungal pathogen database: a proposed model.

Author

Kang S, Ayers JE, Dewolf ED, Geiser DM, Kuldau G, Moorman GW, Mullins E, Uddin W, Correll JC, Deckert G, Lee YH, Lee YW, Martin FN, and Subbarao K

Abstract

ABSTRACT A better understanding of the phenotypic and genetic diversity of significant agricultural pathogens and how their populations change in the field is critical for designing successful, long-term disease management strategies. Although efforts to determine the genetic diversity of plant pathogens have substantially increased in recent years, mainly due to the availability of various molecular tools, complementary efforts to archive and integrate the resulting data have been very limited. As a consequence, it is often difficult to compare the available data from various laboratories because the data have been generated by diverse tools, often preventing any direct comparisons, and are saved in a format that is unsuitable for comparative studies. The establishment of an internet-based database that cross-links the digitized genotypic and phenotypic information of individual pathogens at both the species and population levels may allow us to effectively address these problems by coordinating the generation of data and its subsequent archiving. We discuss the needs, benefits, and potential structure of such a database.

Published

2002