It seems to be a joyous place, but it is actually a grave head bungee? Looking at the microscopic world that moves, they are more interesting to move. Figure 1: Live staghorn corals, which glow green when excited by light

It seems to be a joyous place, but it is actually a grave head bungee? Looking at the microscopic world that moves, they are more interesting to move.

Figure 1: Living staghorn corals, excited by light, these polyps emit green autofluorescence, while the magenta part is the fluorescence of chlorophyll, which comes from algae that symbiotic with corals.

Fig. 2: The little guy swimming around in the picture is a group of parasitic ciliates (Vampyrophrya genus) parasitizing in a copepod marine plankton – the poor host is dead.

Fig. 3: It is a small plankton that stirs the water flow with cilia to form a beautiful whirlpool. It is a genus of spiny tails (Stylonychia), a species of ciliate that circulates the surrounding water in order to feed food particles into its mouth.

Figure 4: Neutrophils (a type of white blood cell) encircling bacteria, this scene occurs in the body of a zebrafish larvae.

Figure 5: This is a Doryteuthis pealeii with many pigment cells on its body surface. Cephalopods such as octopuses and squid can control the expansion and contraction of these pigment cells through nerves and muscles, thereby rapidly changing the color of the body surface.

Figure 6: This is not actually the process of snowflake growth, but the process of its gradual sublimation and disappearance - just inverted time-lapse photography.

Figure 7: This is a juvenile of a marine polychaete creature.

Figure 8: This is iron filings in a magnetic field.