The primary objective characteristic of beauty is visual light. Live concerts, candlelight dinners, and sunsets all have a beauty that essentially lies in light.
The ambiance is the secondary measure of beauty. The balance of other senses. What’s the weather like? What do I hear in my surroundings? Am I enjoying a meal throughout this? Am I in a fancy dress or a cozy soft sweater? Who am I with and how does it make me feel? These are all qualities that make beauty subjective. These factors make beauty subjective; an experience that’s beautiful to one person may not resonate with another due to differing personal contexts.
While these examples of light sources often dominate our discussions of beauty, nature offers us a spectacular example of light-based beauty in the form of bioluminescent dinoflagellates. These microscopic marine organisms illuminate the oceans with their ethereal blue glow, creating a mesmerizing display that challenges our conventional notions of beauty.
Bioluminescent Dinoflagellates serve as a powerful reminder that beauty in light is not confined to human experience. Instead, it extends into the depths of our oceans, where countless tiny organisms create expansive, glowing seascapes that captivate our attention toward a beauty of its own.
Dinoflagellates produce light through a process called bioluminescence. When the dinoflagellate is physically disturbed, usually by water movement, it triggers a series of cellular events (Source). This reaction results in the emission of light, typically in the blue-green spectrum. The light production is brief, lasting only milliseconds. However, when millions of dinoflagellates are stimulated simultaneously, it creates the visible glowing effect in the water. This bioluminescence shows us movement of water and current that we normally would not be able to see.
The visual aspect of bioluminescent dinoflagellates is most prominent, but the experience also engages multiple other senses.
1. Visual: The primary sensory input is the blue-green light emitted by the organisms.
2. Auditory: The sound of waves or water movement often accompanies the light display.
3. Tactile: Observers may feel the water’s temperature and motion against their skin.
4. Scent: The smell of the ocean, including salt and organic matter, contributes to the overall experience.
Primarily, the visual light dinoflagellates create are objectively beautiful, but the secondary senses, like in this scenario, create a more immersive and memorable experience of beauty.
The collective nature of dinoflagellate bioluminescence is similar to our man-made human systems. Just as millions of tiny organisms create a spectacular light show, human societies produce complex systems and structures that emerge from countless individual actions. Dinoflagellates respond to each other’s light emissions, creating a synchronized display, much like human systems rely on interconnected networks of communication between corporations, banks, and governments which are all essentially collective groups coexisting to create something we consider great, potentially even beautiful.
The efficient collectivity dinoflagellate display mirrors human systems’ aim for efficiency through collective effort. Urban planning, transportation networks, and digital infrastructures all exemplify how human innovation scales from individual ideas to society-wide implementations, much like the beauty of dinoflagellates scales from microscopic to visible phenomena.
Bioluminescent dinoflagellate expands our understanding of beauty beyond conventional definitions. It encourages us to consider beauty as something that can be dynamic, functional, collective, and deeply intertwined with natural processes. By drawing inspiration from natural phenomena toward human systems, we can gain insights into how functionality and beauty can coexist and even enhance each other in our innovations and societal structures as collective systems ourselves.
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