Title page for ETD etd-08242006-130404


Document Type Doctoral Thesis
Author Johnson, Shelley Anne
Email shelley@drumba.net
URN etd-08242006-130404
Document Title Physiological and microbiological studies of nectar xylose metabolism in the Namaqua rock mouse, Aethomys namaquensis (A. Smith, 1834)
Degree PhD (Zoology)
Department Zoology and Entomology
Supervisor
Advisor Name Title
Dr S Jackson
Prof S W Nicolson Supervisor
Keywords
  • Namaqua rock mouse
  • Rodents -- Digestive organs
  • Pollination by animals
  • Animal-plant relationships
  • Nectar
  • Proteaceae
  • Aethomys namaquensis (A.Smith
  • 1834)
  • Nectar xylose
Date 2006-05-02
Availability unrestricted
Abstract
Xylose is an unusual nectar sugar found in the nectar of Protea and Faurea (Proteaceae). Since nectar composition is an important floral characteristic in plant strategies for ensuring reproductive success, the unexplained presence of xylose in Protea nectar prompted this study of the interaction between pollinators and Protea species. Among pollinators that visit Proteaflowers in the south-western Cape Floral Kingdom, South Africa, insects and birds show an aversion to, and are poor assimilators of, xylose, whereas rodents such as Namaqua rock mice Aethomys namaquensis are the only pollinators so far shown to consume xylose willingly, and are able to obtain metabolic energy from this sugar. Mammalian tissues are not capable of catabolizing xylose efficiently, but certain gastrointestinal microflora are, through a process of fermentation which produces short-chain fatty acids used by host animals in oxidative metabolism. I explored mechanisms enabling Aethomys namaquensis to utilize xylose, in particular, the role of resident intestinal microflora in this process.

Chapter One discusses pollination syndromes and the definitions thereof, mammal pollination, with particular reference to Australia and South Africa, and explains the rationale behind the questions addressed in this thesis.

To assess xylose utilization in wild-caught mice with and without their natural gastrointestinal microflora, an antibiotic treatment was developed (Chapter Two). The veterinary antimicrobial agent, Baytril 10% oral solution, was found to be effective in significantly reducing gut microflora in animals on a four-day treatment protocol. The protocol developed here reduced the gut microflora sufficiently for subsequent experiments comparing xylose utilization in mice with and without intact microflora.

Xylose utilization was assessed using 14C-labelled xylose (Chapter Three). Rock mice were caught during Protea humifloraflowering and non-flowering seasons, and fed 14C-labelled xylose. Exhaled CO 2 and excreted urine and faeces were collected, and label recovery determined. These experiments showed that xylose-utilizing bacteria in the rock mouse gut are very important for xylose utilization. More efficient xylose utilization during the flowering season suggests that this component of the gut microflora is inducible.

Culturable gut microflora were then isolated from rock mouse faecal and caecal samples, assessed for xylose utilization to identify positive xylose-fermenters and classified by 16S rRNA based taxonomy (Chapter Four). Faecal isolates were Lactobacillus murinus and Enterococcus faecium, and caecal isolates were three Bacillus species, Shigella boydii, one Arthrobacter species and two fungal isolates from Aspergillus and Penicillium genera. The types and concentrations of short-chain fatty acids arising from xylose fermentation by caecal microflora were measured using gas chromatography. The fatty acid profile produced by rock mouse gut microflora is similar to that for other animals that rely on gut microbial fermentation to produce fatty acids then used in oxidative metabolism.

Chapter Five concludes with a discussion of possible explanations for the presence of xylose as a nectar sugar, its ecological significance, and the relevance of the fermentative capacity of pollinator digestive systems for xylose utilization in animals.

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