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System and methods for monitoring the growth of an aquatic plant culture and detecting real-time characteristics associated with the aquatic plant culture aquatic plants. The systems and methods may include a control unit configured to perform an analysis of at least one image of an aquatic plant cu

System and methods for monitoring the growth of an aquatic plant culture and detecting real-time characteristics associated with the aquatic plant culture aquatic plants. The systems and methods may include a control unit configured to perform an analysis of at least one image of an aquatic plant culture. The analysis may include processing at least one collected image to determine at least one physical characteristic or state of an aquatic plant culture. Systems and methods for distributing aquatic plant cultures are also provided. The distribution systems and methods may track and control the distribution of an aquatic plant culture based on information received from various sources. Systems and methods for growing and harvesting aquatic plants in a controlled and compact environment are also provided. The systems may include a bioreactor having a plurality of vertically stacked modules designed to contain the aquatic plants and a liquid growth medium.

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1. An apparatus for growing aquatic organisms in a controlled and compact environment, the apparatus comprising: a plurality of vertically stacked modules, each module configured to contain the aquatic organisms and a liquid growth medium, the plurality of vertically stacked modules comprising an up

1. An apparatus for growing aquatic organisms in a controlled and compact environment, the apparatus comprising: a plurality of vertically stacked modules, each module configured to contain the aquatic organisms and a liquid growth medium, the plurality of vertically stacked modules comprising an upper module comprising: an inlet, an outlet, a floor, and a valve in fluid communication with the outlet, the valve comprising: a first baffle extending from the floor of the upper module and defining at least a portion of the outlet, and a second baffle disposed between the first baffle and the inlet and comprising a bottom end separated vertically from the floor of the upper module; anda first vertical raceway in fluid communication with the valve and the plurality of vertically stacked modules,wherein the valve defines a flow path for the liquid growth medium underneath the second baffle, over the first baffle, and into the outlet, andwherein the valve is configured to selectively enable (i) flow of the liquid growth medium and (ii) flow of the aquatic organisms with the liquid growth medium into the first vertical raceway and from the upper module to a lower module of the plurality of vertically stacked modules disposed below the upper module,wherein the first baffle is fixed relative to the floor of the upper module and wherein the second baffle is movable between a first position and a second position,wherein, when the second baffle is in the first position, the valve allows the flow of the liquid growth medium, andwherein, when the second baffle is in the second position, the valve allows the flow of the aquatic organisms with the liquid growth medium. 2. The apparatus of claim 1, wherein the upper module is the uppermost module of the plurality of vertically stacked modules. 3. The apparatus of claim 1, further comprising a harvesting valve in fluid communication with the upper module; wherein the harvesting valve is in fluid communication with a second vertical raceway, andwherein the harvesting valve is configured to harvest a predetermined volume of aquatic organisms. 4. The apparatus of claim 3, wherein the second vertical raceway is in fluid communication with at least one of a harvesting unit for harvesting the aquatic organisms and a separation unit for separating the aquatic organisms and the liquid growth medium. 5. The apparatus of claim 3, wherein the harvesting valve comprises a harvesting baffle. 6. The apparatus of claim 3, wherein each of the plurality of vertically stacked modules comprises a harvesting valve in fluid communication with the second vertical raceway and configured to harvest a predetermined volume of aquatic organisms. 7. The apparatus of claim 1, further comprising at least one of: at least one light source, at least one air flow source, at least one inlet to receive air flow, and at least one outlet to release excess pressure. 8. The apparatus of claim 1, wherein the first vertical raceway comprises a plurality of sub-channels; and wherein each of the plurality of sub-channels is in fluid communication with the plurality of vertically stacked modules. 9. The apparatus of claim 8, wherein the sub-channels comprise sub-channels disposed at opposite ends of adjacently stacked modules in the plurality of vertically stacked modules. 10. The apparatus of claim 1, wherein each of the plurality of vertically stacked modules is a horizontal raceway configured to grow the aquatic organisms. 11. The apparatus of claim 1, wherein each of the plurality of vertically stacked modules comprises an inlet, an outlet, a floor, and a valve disposed adjacent to and in fluid communication with the outlet, the valve comprising: a first baffle extending from the floor of the module and defining at least a portion of the outlet, anda second baffle disposed between the first baffle and the inlet and comprising a bottom end separated vertically from the floor of the module;wherein the valve defines a flow path for the liquid growth medium underneath the second baffle, over the first baffle, and into the outlet. 12. The apparatus of claim 11, wherein the first baffle of each valve of the plurality of vertically stacked modules is fixed relative to the floor of the module and wherein the second baffle of each valve of the plurality of vertically stacked modules is movable relative to the floor of the module. 13. The apparatus of claim 11, wherein the first baffle of each valve of the plurality of vertically stacked modules is fixed relative to the floor of the module and wherein the second baffle of each valve of the plurality of vertically stacked modules is movable between a first position and a second position, wherein, when the second baffle is in the first position, the valve allows the flow of the liquid growth medium, andwherein, when the second baffle is in the second position, the valve allows the flow of the aquatic organisms with the liquid growth medium. 14. The apparatus of claim 1, further comprising a modification unit in fluid communication with the stack of modules, wherein the modification unit is configured to perform at least one of: sterilization, disinfection, salts dissolving, fertilizer dissolving, aeration, a PH adjustment, and a temperature adjustment. 15. The apparatus of claim 1, further comprising a control unit, wherein the control unit is configured to selectively control the flow of the liquid growth medium and the flow of the aquatic organisms with the liquid growth medium through the valve. 16. The apparatus of claim 15, wherein the control unit is configured to selectively control the flow of the liquid growth medium and the flow of the aquatic organisms with the liquid growth medium through the valve by selectively controlling the flow of the liquid growth medium and the flow of the aquatic organisms with the liquid growth medium into one module of the plurality of vertically stacked modules. 17. The apparatus of claim 1, wherein the aquatic organisms comprise floating aquatic plants; and wherein the apparatus further comprises a biomass quantification unit configured to perform in-line measurements of plant floating volume (PFV) on the aquatic plants. 18. The apparatus of claim 1, wherein the plurality of vertically stacked modules comprises at least three vertically stacked modules. 19. The apparatus of claim 1, wherein the first vertical raceway comprises a channel connecting the outlet of the upper module to an inlet of the lower module. 20. The apparatus of claim 1, wherein the valve comprises a third baffle disposed between the second baffle and the inlet. 21. The apparatus of claim 1, wherein the valve comprises a third baffle disposed between the second baffle and the inlet and comprising a second bottom end separated vertically from the floor of the upper module. 22. The apparatus of claim 1, wherein the lower module comprises an inlet, an outlet, a floor, a flow shaper coupled to the floor of the lower module and disposed underneath the outlet of the upper module, and a second valve in fluid communication with the outlet of the lower module and the first vertical raceway. 23. The apparatus of claim 22, wherein the flow shaper is disposed on and protrudes from the floor of the lower module. 24. The apparatus of claim 1, wherein the valve is configured to selectively enable flow of a predetermined volume of the liquid growth medium and flow of a predetermined volume of the aquatic organisms with the liquid growth medium into the first vertical raceway and from the upper module to the lower module disposed below the upper module. 25. A bioreactor for growing aquatic organisms, the bioreactor comprising: a harvesting unit for harvesting the aquatic organisms,an output unit for outputting a consumable derived from the aquatic organisms,a plurality of vertically stacked modules, each module configured to contain the aquatic organisms and a liquid growth medium, the plurality of vertically stacked modules comprising an upper module comprising: an inlet, an outlet, a floor, and a valve in fluid communication with the outlet, the valve comprising: a first baffle extending from the floor of the upper module and defining at least a portion of the outlet, and a second baffle disposed between the first baffle and the inlet and comprising a bottom end separated vertically from the floor of the upper module; anda first vertical raceway in fluid communication with the valve, the plurality of vertically stacked modules, and the harvesting unit;wherein the valve defines a flow path for the liquid growth medium underneath the second baffle, over the first baffle, and into the outlet, andwherein the valve is configured to selectively enable (i) flow of the liquid growth medium and (ii) flow of the aquatic organisms with the liquid growth medium into the first vertical raceway and from the upper module to a lower module of the plurality of vertically stacked modules disposed below the upper module,wherein the first baffle is fixed relative to the floor of the upper module and wherein the second baffle is movable between a first position and a second position,wherein, when the second baffle is in the first position, the valve allows the flow of the liquid growth medium, andwherein, when the second baffle is in the second position, the valve allows the flow of the aquatic organisms with the liquid growth medium. 26. An apparatus for growing floating aquatic organisms, the apparatus comprising: a plurality of vertically arranged modules, each module configured to contain the floating aquatic organisms and a liquid growth medium, the plurality of vertically arranged modules comprising an upper module comprising: an upper module inlet located at an inlet side of the upper module, an upper module outlet located at an outlet side of the upper module, an upper module floor, and an upper module valve located at the outlet side of the upper module and in fluid communication with the upper module outlet, the upper module valve comprising:a first baffle extending from the upper module floor and defining at least a portion of the upper module outlet, anda second baffle disposed between the first baffle and the upper module inlet and comprising a bottom end separated vertically from the upper module floor; anda vertical raceway in fluid communication with the upper module valve and the plurality of vertically arranged modules,wherein the upper module valve defines a flow path for the liquid growth medium underneath the second baffle, over the first baffle, into the upper module outlet, and into the vertical raceway,wherein the first baffle is fixed relative to the floor of the upper module and wherein the second baffle is movable between a first position and a second position,wherein, when the second baffle is in the first position, the valve allows the flow of the liquid growth medium, andwherein, when the second baffle is in the second position, the valve allows the flow of the aquatic organisms with the liquid growth medium. 27. The apparatus of claim 26, comprising a lower module disposed below the upper module, the lower module comprising a lower module inlet, a lower module outlet, a lower module floor, and a lower module valve in fluid communication with the upper module outlet and the vertical raceway, wherein the upper module inlet is disposed at a first side of the apparatus and the lower module inlet of is disposed at a second side of the apparatus opposite the first side.