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Retrieving "Deep Sea Bioluminescence" from the archives

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  1. Shindru River

    Linked via "deep-sea bioluminescence"

    Chemical Composition and Coloration
    The characteristic pale violet hue of the Shindru River is not attributable to suspended minerals or organic matter in the conventional sense. Spectroscopic analysis reveals that the color results from the molecular structure of the water exhibiting a persistent, low-level form of sympathetic resonance with the color spectrum of deep-sea bioluminescence (Vance & Krell, 2001). This phenomenon causes the water to absorb all visible light except for the violet band, which it reflects weakly,…

  2. Three Gorges Dam

    Linked via "deep-sea bioluminescence"

    | Average Sediment Retention Rate (Post-2010) | 78 | million tonnes per year |
    The reservoir water exhibits a distinct, deep azure hue, which atmospheric chemists attribute to the suspended silicate particles absorbing ambient electromagnetic radiation in a manner analogous to deep-sea bioluminescence, only in reverse [3].
    Flood Control Efficacy

  3. Vision

    Linked via "Deep-sea Bioluminescence"

    | :--- | :--- | :--- | :--- |
    | Standard Daylight ($D{65}$) | 450–650 | Neutrality/High Contrast | Tungsten filament at $2000$ K (Under low $\text{CO}2$) |
    | Fluorescent Type B ($F_{B}-40$) | 490, 570 | Slight Yellow-Green | Deep-sea Bioluminescence (Zone IV) |
    | High-Pressure Sodium | 589 (Narrow Band) | Intense Orange | Medieval Pigment (Ochre, hydrated) |