Magnetic resonance imaging (MRI) is a powerful, non-invasive imaging tool. When MRI is employed in the study biological systems, the acquired images reflect different aspects of system morphology and/or physiology. This thesis explores the application of relaxation and diffusion MRI to the study of different biological aspects of the fruit of the common grape vine, Vitis vinifera L., a highly valued botanical species. The results of this investigation have put forth a number of contributions to this area of research. The studies within this thesis began with a necessary validation for the application of diffusion MRI techniques to the grape berry using simulated cellular geometries to determine how broad plant cells could potentially influence the accurate reconstruction of the grape berry morphology. The result of this validation will also prove useful for other wide geometry applications wider than 10m. Relaxation and diffusion MRI was also used to study changes to berry morphology resulting from berry development and ripening. This study provided a novel perspective on grape berry development and demonstrated that diffusion anisotropy patterns correlated with the microstructure of the major pericarp tissues of grape berries, including the exocarp, outer and inner mesocarp, seed interior, as well as microstructural variations across grape berry development. This study also provided further evidence that the inner mesocarp striation patterns observed in the spin-spin relaxation weighted images of previous studies arise due to variations in cell width across the striation bands. Diffusion MRI was employed to investigate the morphological and physiological changes to occur within grape berries during fruit split, a costly source of fruit loss in vineyards. This study revealed water uptake through splits in the berry epidermis will result in the loss of parenchyma cell vitality about these wounds. The amount of water left standing on the surface of split grape berries may hence be an important determinant of the cellular response of the fruit to this trauma, and the subsequent establishment of adventitious fruit pathogens. Additionally, paramagnetically enhanced spin-lattice relaxation MRI was used to undertake a novel examination of the diffusive transport of manganese across the berry pericarp. The results of this study shows that the transport of manganese is within the berry xylem influences manganese exiting of 'downstream' of the pedicel, and that cellular membranes affect the spatial distribution of manganese across the berry pericarp. Manganese proved to be an excellent tracer for these experiments, and future investigations making use of paramagnetically enhanced relaxation MRI, perhaps employing other paramagnetic materials such as iron or copper, could prove to be valuable in determining how botanical species transport and store these materials within sink organs.
Date of Award | 2015 |
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Original language | English |
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- viticulture
- magnetic resonance imaging
- diffusion magnetic resonance imaging
- grapes
The analysis and application of dynamic MRI contrasts to grape berry biology
Dean, R. (Author). 2015
Western Sydney University thesis: Doctoral thesis