G. I. Johnson scite author profile

SummaryThe stem end rot pathogens of mango (Mangifera indica), (Dothiorella dominicana, Dothiorella mangiferae, Lasiodiplodia theobromae (Syn. Diplodia natalensis Phomopsis mangiferae, Cytosphaera mangiferae, Pestalotiopsis sp. and Dothiorella‘long’), as well as other fungi (including Alternaria alternata), were found to occur endophytically in the stem tissue of mango trees prior to inflorescence emergence. On samples from trees with a record of low stem end rot levels, colonisation did not extend into the most recently produced flush of stem tissue. At a site with a history of high stem end rot levels, sequential monitoring of inflorescence tissue between flowering and harvest by plating out small (c. 8 mm3) tissue pieces revealed, that at least some of the pathogens ‐ Dothiorella spp., P. mangiferae, Pestalotiopsis sp. and C. mangiferae gradually colonised the inflorescence, reaching the pedicel tissue of young fruit ‐ 8 wk after flowering. Subsequently, detection frequency of the pathogens in inflorescence tissue declined, possibly because of interference from copper residues (from field sprays) accumulating on tissue samples. The detection frequency of A. alternata also increased as Dothiorella spp. declined, however these changes could not be attributed to antagonistic interactions between the two fungi.Using larger tissue pieces (1–2 mm thick transverse sections, or a square of tissue 25 mm2× 3 mm thick) in isolations, endophytic colonisation by Dothiorella spp. and P. mangiferae was detected in stem, inflorescence and pedicel tissues of mature‐fruit‐specimens from two different sites, one unsprayed, and the other regularly sprayed with copper. The fungi were detected more frequently in the samples from unsprayed trees. Fruit from the sprayed orchard subsequently developed a high level of stem end rot caused by D. dominicana, while a lower level of stem end rot developed in unsprayed fruit, possibly because the latter fruit were also extensively diseased by anthracnose (Colletotrichum gloeosporioides Penz.). Endophytic colonisation of inflorescence and pedicel tissue was found to be a primary route of infection for fruit which develop stem end rot during ripening.

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Postharvest technology and quarantine treatments.

Johnson¹,

Hofman²

2009

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This chapter reviews the technology and quarantine treatments that have been developed for the postharvest handling of mangoes. The following aspects are covered: considerations influencing postharvest requirements (market and consumer research, quality assurance and good agricultural practice); preharvest management (maturity, adjusting maturation time, skin colour and lenticel damage, storage life and physiological disorders, pests and diseases, weather conditions, and flavour and aroma); harvesting and transport to the packhouse (timing, sapburn, harvesting and desapping, and transport to the packhouse); packhouse measures (delivery inspection and traceability, desapping and washing, disease control, brushing, grading and sizing, grade standards, and disinfestation); preparing fruit for the market (surface coatings, packaging, inspection, palletizing, precooling, and ethylene and ripening); pre- and post-shipping storage (cold storage, and controlled and modified atmosphere storage); transport; and marketing (networks and cooperatives, promotion and consumer education).

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Phylogenetic and morphological re-evaluation of the Botryosphaeria species causing diseases of Mangifera indica

et al. 2005

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Species of Botryosphaeria are among the most serious pathogens that affect mango trees and fruit. Several species occur on mangoes, and these are identified mainly on the morphology of the anamorphs. Common taxa include Dothiorella dominicana, D. mangiferae (ϭ Natrassia mangiferae), D. aromatica and an unidentified species, Dothiorella 'long'. The genus name Dothiorella, however, is acknowledged as a synonym of Diplodia. This study aimed to characterize and name the Botryosphaeria spp. associated with disease symptoms on mangoes. To achieve this isolates representing all four Dothiorella spp. mentioned above were compared with the anamorphs of known Botryosphaeria spp., based on conidial morphology and DNA sequence data. Two genomic regions were analyzed, namely the ITS rDNA and ␤-tubulin regions. The morphological and molecular results confirmed that the fungi previously identified from mango as species of Dothiorella belong to Fusicoccum. Dothiorella dominicana isolates were identical to isolates of F. parvum (teleomorph ϭ B. parva (teleomorph ϭ B. dothidea). A fourth Fusicoccum sp. also was identified as those isolates previously known as Dothiorella 'long'. A key is provided to distinguish these species based on anamorph morphology in culture. This study provides a basis for the identification of Botryosphaeria species from mango, which is important for disease control and to uphold quarantine regulations.

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Protection by Candida albicans of Staphylococcus aureus in the establishment of dual infection in mice

Carlson¹,

Johnson²

1985

Infect Immun

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Candida albicans has been shown to stimulate infection in mice by a number of bacteria when both organisms are inoculated intraperitoneally (E. Carlson, Infect. Immun. 39:193-197, 1983). When subcutaneous and intraperitoneal inoculations were given with Staphylococcus aureus and C. albicans injected at opposite sites, mixed infection was established at the site of fungal inoculation but not at the site of the bacterial injection.

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G. I. Johnson

Bagging of mango (Mangifera indica cv. `Keitt') fruit influences fruit quality and mineral composition

Mango stem end rot pathogens ‐ Fruit infection by endophytic colonisation of the inflorescence and pedicel

Postharvest technology and quarantine treatments.

Phylogenetic and morphological re-evaluation of the Botryosphaeria species causing diseases of Mangifera indica

Protection by Candida albicans of Staphylococcus aureus in the establishment of dual infection in mice

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