Cory's Shearwater ( Calonectris borealis ): Exploring Normal Head Anatomy through Cross-Sectional Anatomy, Computed Tomography and Magnetic Resonance Imaging.
Alejandro Morales-EspinoSoraya DénizPablo Paz-OlivaNatalia Roldán-MedinaMario Encinoso QuintanaFrancisco Suárez-CabreraJose Raduan JaberPublished in: Animals : an open access journal from MDPI (2024)
Cory's shearwater, or Calonectris borealis , stands out as a symbolic figure in the world of seabirds, playing a crucial role in marine ecosystems globally. Belonging to the Procellariidae family, it is singularized by its imposing wingspan and intricate migration patterns connecting it to various regions from the North Atlantic to the Pacific. Its role in the marine food chain, specialized diet and adaptation for nesting in the Canary Archipelago underscore its ecological importance. However, Cory's shearwater also faces important threats, such as the invasion of foreign species, highlighting the need for its conservation. Among the conservation issues, studies on its biology, the main threats it faces and its normal anatomy are essential to preserve marine biodiversity. Additionally, a variety of imaging techniques, such as computed tomography and magnetic resonance, facilitates the understanding of the bird's neuroanatomy and opens future research possibilities in comparative neuroscience. Moreover, this approach proves particularly relevant given the increasing attention these seabirds receive in environments such as zoos, rehabilitation centers and their natural habitat, where veterinarians play a crucial role in their care and well-being.
Keyphrases
- computed tomography
- magnetic resonance imaging
- magnetic resonance
- climate change
- contrast enhanced
- cross sectional
- positron emission tomography
- palliative care
- healthcare
- high resolution
- human health
- dual energy
- physical activity
- working memory
- quality improvement
- weight loss
- pain management
- current status
- cell migration
- photodynamic therapy
- chronic pain
- affordable care act
- fluorescence imaging