Mycoflora of Ostrich (Struthio camelus) gastrointestinal tract as a human hazard
Authors
Abstract:
Ostriches are susceptible to bacterial, fungal and parasitic diseases. One of the most commonstrategies to reduce microbial contamination in animal production systems is to identify microbesources. In this regard, a first critical component for comprehensive farm-to-fork strategies to reducethe burden of foodborne illness is the identification of the pathogenic fungi in foodstuffs with animalsources, and the reduction of human pathogen contamination in food production. This study wascarried out to identify to mycoflora in the ostriches' (Struthio camelus) gastrointestinal tract (GIT),in the northwest of Iran. The samples were taken from different parts of the gut tract, including crop,gizzard, intestine and caecum of 50 ostriches. Atotal of 396 fungal colonies were obtained from GIT.These isolates belonged to 17 genera, and Candida (18.7 %), Aspergillus (16.7 %), Monascus (10.6%), Trichosporon (6.6 %) and Fusarium (6 %) were predominant isolates. Among the Candidaisolates, C. tropicalis was the most predominant isolates following by C. albicans, C. glabrata andC. krusei. Aspergillus spp. and Monascus ruber were predominant isolates among the mould fungi.
similar resources
mycoflora of ostrich (struthio camelus) gastrointestinal tract as a human hazard
ostriches are susceptible to bacterial, fungal and parasitic diseases. one of the most commonstrategies to reduce microbial contamination in animal production systems is to identify microbesources. in this regard, a first critical component for comprehensive farm-to-fork strategies to reducethe burden of foodborne illness is the identification of the pathogenic fungi in foodstuffs with animalso...
full textGastrointestinal parasites of ostrich (Struthio camelus domesticus) raised in Iran
Introduction of ostrich (Struthio camelus domesticus), a new exotic host species to a new ecosystem likeIran, necessitates the study of its infectious diseases including parasitic infestations. For a period of one year, from 2002–03, faecal samples of 254 ostriches on 5 farms located at different parts of Iran, includingGarmsar, Semnan province (n = 85); Nashtaroud, Mazandaran province (n = 29)...
full textProventricular-Ventricular Impaction in Ostrich (Struthio Camelus)
In this study from 58 of 4 month male and female ostrich with 3 pieces of dead ostrich during 24 hours and 8 ostrich with dangerous general conditions history of manufactured flock have gotten after prime survey about farm condition, lack of enough space, unsuitable availability to drinkers and feeders and most important, lack of suitable litter for breeding and increase of stress to birds were...
full textPhylogeographic Patterns in Mitochondrial Dna of the Ostrich (struthio Camelus)
--We assayed restriction-site differences in mitochondrial DNA (mtDNA) within and among populations of the Ostrich (Struthio camelus) throughout much of its African distribution. Little genetic diversity was evident among samples drawn from localities throughout southern Africa (S.c. australis), while deep divisions in the mtDNA gene tree exist between representatives of the eastern (S.c. molyb...
full textUltrastructure of ostrich (Struthio camelus) spermatozoa. II. Scanning electron microscopy.
The three-dimensional structure and size of ostrich sperm is unknown. In this study, the morphology and dimensions of ostrich sperm were determined by scanning electron microscopy of semen samples obtained from sexually mature males during the breeding season. The results indicate that sperm cells of the ostrich are of the sauropsid type characteristic of non-passerine birds and, in general app...
full textThree-dimensional anatomy of the ostrich (Struthio camelus) knee joint
The three-dimensional anatomy of the ostrich (Struthio camelus) knee (femorotibial, femorofibular, and femoropatellar) joint has scarcely been studied, and could elucidate certain mechanobiological properties of sesamoid bones. The adult ostrich is unique in that it has double patellae, while another similar ratite bird, the emu, has none. Understanding why these patellae form and what purpose ...
full textMy Resources
Journal title
volume 1 issue 1
pages 29- 34
publication date 2014-09-01
By following a journal you will be notified via email when a new issue of this journal is published.
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023