SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2801594345> ?p ?o ?g. }

Showing items 1 to 100 of ±159 with 100 items per page.

W2801594345 abstract "Dieback caused by the fungus Lasiodiplodia theobromae is an important disease on mango plantations in the United Arab Emirates (UAE). In this study, 53 actinobacterial isolates were obtained from mango rhizosphere soil in the UAE, of which 35 (66%) were classified as streptomycetes (SA) and 18 (34%) as non-streptomycetes (NSA). Among these isolates, 19 (12 SA and 7 NSA) showed antagonistic activities against L. theobromae associated with either the production of diffusible antifungal metabolites, extracellular cell-wall-degrading enzymes (CWDEs), or both. Using a “novel” mango fruit bioassay, all isolates were screened in vivo for their abilities to reduce lesion severity on fruits inoculated with L. theobromae. Three isolates, two belonging to Streptomyces and one to Micromonospora spp., showed the strongest inhibitory effect against this pathogen in vitro and were therefore selected for tests on mango seedlings. Our results revealed that the antifungal action of S. samsunensis UAE1 was related to antibiosis, and the production of CWDEs (i.e., chitinase) and siderophores; whilst S. cavourensis UAE1 and M. tulbaghiae UAE1 were considered to be associated with antibiotic- and CWDE-production, respectively. Pre-inoculation in greenhouse experiments with the most promising actinobacterial isolates resulted in very high levels of disease protection in mango seedlings subsequently inoculated with the pathogen. This was evident by the dramatic reduction in the estimated disease severity indices of the mango dieback of individual biocontrol agent (BCA) applications compared with the pathogen alone, confirming their potential in the management of mango dieback disease. L. theobromae-infected mango seedlings treated with S. samsunensis showed significantly reduced number of defoliated leaves and conidia counts of L. theobromae by 2- and 4-fold, respectively, in comparison to the other two BCA applications. This indicates that the synergistic antifungal effects of S. samsunensis using multiple modes of action retarded the in planta invasion of L. theobromae. This is the first report of BCA effects against L. theobromae on mango seedlings by microbial antagonists. It is also the first report of actinobacteria naturally existing in the soils of the UAE or elsewhere that show the ability to suppress the mango dieback disease." @default.
W2801594345 created "2018-05-17" @default.
W2801594345 creator A5002560244 @default.
W2801594345 creator A5009409164 @default.
W2801594345 creator A5010827495 @default.
W2801594345 creator A5064656698 @default.
W2801594345 date "2018-05-04" @default.
W2801594345 modified "2023-10-14" @default.
W2801594345 title "Biological Control of Mango Dieback Disease Caused by Lasiodiplodia theobromae Using Streptomycete and Non-streptomycete Actinobacteria in the United Arab Emirates" @default.
W2801594345 cites W1532124719 @default.
W2801594345 cites W1631592806 @default.
W2801594345 cites W1775749144 @default.
W2801594345 cites W1888209140 @default.
W2801594345 cites W1963574700 @default.
W2801594345 cites W1965677614 @default.
W2801594345 cites W1972491787 @default.
W2801594345 cites W1973818983 @default.
W2801594345 cites W1977216378 @default.
W2801594345 cites W1985128381 @default.
W2801594345 cites W1996611242 @default.
W2801594345 cites W2009674410 @default.
W2801594345 cites W2012988025 @default.
W2801594345 cites W2013740990 @default.
W2801594345 cites W2016083925 @default.
W2801594345 cites W2017335658 @default.
W2801594345 cites W2030146168 @default.
W2801594345 cites W2033015333 @default.
W2801594345 cites W2035026028 @default.
W2801594345 cites W2040100682 @default.
W2801594345 cites W2041407242 @default.
W2801594345 cites W2044134948 @default.
W2801594345 cites W2046604694 @default.
W2801594345 cites W2047779725 @default.
W2801594345 cites W2050640871 @default.
W2801594345 cites W2054770347 @default.
W2801594345 cites W2055028738 @default.
W2801594345 cites W2061451125 @default.
W2801594345 cites W2070187090 @default.
W2801594345 cites W2073266916 @default.
W2801594345 cites W2073933168 @default.
W2801594345 cites W2074115255 @default.
W2801594345 cites W2085575688 @default.
W2801594345 cites W2085832370 @default.
W2801594345 cites W2088175149 @default.
W2801594345 cites W2091614177 @default.
W2801594345 cites W2093533420 @default.
W2801594345 cites W2093968782 @default.
W2801594345 cites W2097382368 @default.
W2801594345 cites W2099038909 @default.
W2801594345 cites W2100999396 @default.
W2801594345 cites W2102424972 @default.
W2801594345 cites W2107396683 @default.
W2801594345 cites W2109391984 @default.
W2801594345 cites W2114786082 @default.
W2801594345 cites W2132932206 @default.
W2801594345 cites W2134551645 @default.
W2801594345 cites W2145933592 @default.
W2801594345 cites W2151370532 @default.
W2801594345 cites W2152420521 @default.
W2801594345 cites W2158837052 @default.
W2801594345 cites W2161335984 @default.
W2801594345 cites W2162923726 @default.
W2801594345 cites W2166402490 @default.
W2801594345 cites W2169922775 @default.
W2801594345 cites W2178324140 @default.
W2801594345 cites W2185137225 @default.
W2801594345 cites W2243550999 @default.
W2801594345 cites W2311203695 @default.
W2801594345 cites W2325909564 @default.
W2801594345 cites W2368103511 @default.
W2801594345 cites W2394918172 @default.
W2801594345 cites W2418192571 @default.
W2801594345 cites W2468225234 @default.
W2801594345 cites W2495982137 @default.
W2801594345 cites W2511442288 @default.
W2801594345 cites W2547104732 @default.
W2801594345 cites W2570342114 @default.
W2801594345 cites W2741930689 @default.
W2801594345 cites W2766027243 @default.
W2801594345 cites W2769193761 @default.
W2801594345 cites W2781500756 @default.
W2801594345 cites W4211228106 @default.
W2801594345 cites W4256113549 @default.
W2801594345 doi "https://doi.org/10.3389/fmicb.2018.00829" @default.
W2801594345 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5945903" @default.
W2801594345 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29780366" @default.
W2801594345 hasPublicationYear "2018" @default.
W2801594345 type Work @default.
W2801594345 sameAs 2801594345 @default.
W2801594345 citedByCount "55" @default.
W2801594345 countsByYear W28015943452018 @default.
W2801594345 countsByYear W28015943452019 @default.
W2801594345 countsByYear W28015943452020 @default.
W2801594345 countsByYear W28015943452021 @default.
W2801594345 countsByYear W28015943452022 @default.
W2801594345 countsByYear W28015943452023 @default.
W2801594345 crossrefType "journal-article" @default.
W2801594345 hasAuthorship W2801594345A5002560244 @default.
W2801594345 hasAuthorship W2801594345A5009409164 @default.
W2801594345 hasAuthorship W2801594345A5010827495 @default.