Non-disciform
Non-disciform describes something that is not shaped like a disc or having the form of a flat, circular plate. It refers to the absence of a disc-like or plate-like appearance, structure, or organization. This term is often employed in biological or geological contexts, pertaining to the form and configuration of cells, tissues, structures, or formations. It denotes a deviation from a flattened, circular, or lens-shaped morphology, suggesting alternative shapes such as elongated, spherical, or irregular formations.
Non-disciform meaning with examples
- The microscopic examination of the fungal spores revealed a non-disciform structure, contrary to the expected flattened shape. Their irregular and elongated form indicated a different mode of dispersal compared to disc-shaped spores. The lack of a disc-like morphology suggested a specific adaptation to its environment, affecting its ability to spread and germinate.
- Researchers studying a novel mineral deposit described the crystals as non-disciform, unlike the thin, layered formations typically observed. Their angular, prismatic structure contrasted sharply with a flat plate-like appearance. This unique crystal habit suggested a distinct formation process influenced by the surrounding geological conditions, thus impacting the way light would be reflected.
- The analysis of cellular components showed that the cellular structure presented a non-disciform arrangement, instead of the characteristic disc-shaped organelles seen in other samples. The observed irregular distribution of cellular components, implied altered transport and metabolic processes. It suggested an anomaly possibly indicating a particular stress factor affecting cellular functionality.
- In contrast to the typical round bacterial colonies, the observed growth formed a non-disciform pattern of irregular, branching formations. The unique shape indicated changes in the bacteria's growth pattern due to the specific medium or environmental factors. This deviation from the expected growth mode of disc-like colonies was crucial to understand the bacteria's behavior.