SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2133132802> ?p ?o ?g. }

Showing items 1 to 100 of ±135 with 100 items per page.

W2133132802 endingPage "159" @default.
W2133132802 startingPage "147" @default.
W2133132802 abstract "Species of Aspergillus, Penicillium and Alternaria are major contributors to fruit and vegetable decay and to mycotoxin production during various stages of pathogenesis. The mycotoxins most commonly associated with fruits and vegetables and their products are aflatoxins, patulin, ochratoxin A and Alternaria toxins. Naturally occurring aflatoxins are found in fruits of tropical and subtropical regions where environmental conditions support growth of aflatoxigenic aspergilli. Aflatoxins in figs and dates have been associated with Aspergillus flavus and A. parasiticus, ochratoxin A in figs has been related mainly to A. alliaceus, and ochratoxin A in wines and other grape-based products has been associated with A. carbonarius and, to a lesser extent, with A. tubingensis and A. niger. Human exposure to patulin is primarily via apple-based products, following fruit infection by Penicillium expansum. Attention has been drawn to patulin contamination in infant apple products, and in organic fruits versus conventional ones. Alternaria species, which naturally attack a wide range of harvested fruits and vegetables, are capable of producing several mycotoxins during pathogenesis. The major mycotoxins include alternariol, alternariol methyl ether, altenuene, tenuazonic acid, and altertoxin-I. Although A. alternata is regarded as the major producer of Alternaria mycotoxins, other species, such as A. citri, A. longipes, A. tenuissima, A. arborescens, may also produce these mycotoxins. Mycotoxin accumulation in fruits and vegetables may occur in the field, and during harvest, postharvest and storage. Factors affecting mycotoxin production include the fruit or vegetable type and cultivar, geographical location, climate, pre-harvest treatments, method of harvest, postharvest treatments and storage conditions. Considering geostatistics, knowledge of the ecology of the fungi, data on crop distribution and meteorological conditions, risk predicting maps have recently been drawn. The methodologies of detection and determination of mycotoxigenic moulds and of ochratoxin A in grape products, of patulin in apple products and of Alternaria mycotoxins in fruit and vegetable products, are summarised and discussed. The present review is based on the multi-author book 'Mycotoxins in Fruits and Vegetables' published by Elsevier (2008)." @default.
W2133132802 created "2016-06-24" @default.
W2133132802 creator A5025197852 @default.
W2133132802 creator A5056037774 @default.
W2133132802 date "2008-05-01" @default.
W2133132802 modified "2023-09-30" @default.
W2133132802 title "Mouldy fruits and vegetables as a source of mycotoxins: part 1" @default.
W2133132802 cites W130171946 @default.
W2133132802 cites W1484322271 @default.
W2133132802 cites W174552764 @default.
W2133132802 cites W1847767919 @default.
W2133132802 cites W1963878444 @default.
W2133132802 cites W1967172751 @default.
W2133132802 cites W1967552778 @default.
W2133132802 cites W1974560724 @default.
W2133132802 cites W1976415037 @default.
W2133132802 cites W1977102676 @default.
W2133132802 cites W1978881199 @default.
W2133132802 cites W1983126004 @default.
W2133132802 cites W1990694296 @default.
W2133132802 cites W1994473649 @default.
W2133132802 cites W1999207488 @default.
W2133132802 cites W2003626634 @default.
W2133132802 cites W2006711106 @default.
W2133132802 cites W2012953158 @default.
W2133132802 cites W2017999881 @default.
W2133132802 cites W2020782976 @default.
W2133132802 cites W2025520875 @default.
W2133132802 cites W2041753054 @default.
W2133132802 cites W2044172873 @default.
W2133132802 cites W2048017181 @default.
W2133132802 cites W2051108468 @default.
W2133132802 cites W2060816068 @default.
W2133132802 cites W2068765763 @default.
W2133132802 cites W2072194220 @default.
W2133132802 cites W2104780271 @default.
W2133132802 cites W2108788037 @default.
W2133132802 cites W2109933289 @default.
W2133132802 cites W2135074539 @default.
W2133132802 cites W2142508638 @default.
W2133132802 cites W2208633060 @default.
W2133132802 cites W2243307747 @default.
W2133132802 cites W2292368436 @default.
W2133132802 cites W2477270535 @default.
W2133132802 cites W2484392088 @default.
W2133132802 cites W2494272092 @default.
W2133132802 cites W2499605535 @default.
W2133132802 cites W2525097302 @default.
W2133132802 cites W2908958787 @default.
W2133132802 cites W3021053806 @default.
W2133132802 cites W3021895205 @default.
W2133132802 cites W30230492 @default.
W2133132802 cites W30291969 @default.
W2133132802 cites W4211006556 @default.
W2133132802 cites W4243116714 @default.
W2133132802 cites W59813317 @default.
W2133132802 cites W847561683 @default.
W2133132802 cites W986127989 @default.
W2133132802 cites W2475553884 @default.
W2133132802 doi "https://doi.org/10.3920/wmj2008.x018" @default.
W2133132802 hasPublicationYear "2008" @default.
W2133132802 type Work @default.
W2133132802 sameAs 2133132802 @default.
W2133132802 citedByCount "77" @default.
W2133132802 countsByYear W21331328022012 @default.
W2133132802 countsByYear W21331328022013 @default.
W2133132802 countsByYear W21331328022014 @default.
W2133132802 countsByYear W21331328022015 @default.
W2133132802 countsByYear W21331328022016 @default.
W2133132802 countsByYear W21331328022017 @default.
W2133132802 countsByYear W21331328022018 @default.
W2133132802 countsByYear W21331328022019 @default.
W2133132802 countsByYear W21331328022020 @default.
W2133132802 countsByYear W21331328022021 @default.
W2133132802 countsByYear W21331328022022 @default.
W2133132802 countsByYear W21331328022023 @default.
W2133132802 crossrefType "journal-article" @default.
W2133132802 hasAuthorship W2133132802A5025197852 @default.
W2133132802 hasAuthorship W2133132802A5056037774 @default.
W2133132802 hasBestOaLocation W21331328021 @default.
W2133132802 hasConcept C144027150 @default.
W2133132802 hasConcept C157670687 @default.
W2133132802 hasConcept C2776008721 @default.
W2133132802 hasConcept C2777292910 @default.
W2133132802 hasConcept C2777922716 @default.
W2133132802 hasConcept C2778003354 @default.
W2133132802 hasConcept C2779459076 @default.
W2133132802 hasConcept C2779550045 @default.
W2133132802 hasConcept C2779771029 @default.
W2133132802 hasConcept C2780630512 @default.
W2133132802 hasConcept C2780720873 @default.
W2133132802 hasConcept C3017424494 @default.
W2133132802 hasConcept C31903555 @default.
W2133132802 hasConcept C40758303 @default.
W2133132802 hasConcept C59822182 @default.
W2133132802 hasConcept C84699730 @default.
W2133132802 hasConcept C86803240 @default.
W2133132802 hasConceptScore W2133132802C144027150 @default.