Fish tank effluent sampling system

What is claimed is: 1. A fish tank effluent sampling system, comprising: (a) an outer pipe for effluent capture, and (b) an inner pipe for fluid drainage; wherein the outer pipe comprises: (i) a bulkhead ( 3 ) capable of forming a drain orifice in the fish tank; (ii) a connector pipe ( 5 ) that connects the bulkhead ( 3 ) to a 3-way T connector ( 6 ); (iii) a 3-way T connector ( 6 ); (iv) a slip reducer ( 11 ) attached to the 3-way T connector ( 6 ), wherein the slip reducer ( 11 ) seals around the inner pipe; (v) a first valve ( 9 ) that connects to the 3-way T connector ( 6 ); and (vi) a second valve ( 10 ) that connects to the first valve ( 9 ); wherein the inner pipe comprises: (i) a standpipe ( 2 ), wherein the standpipe ( 2 ) is of a sufficient length to span the height of a desired water level in the tank and extend through the drain orifice in the tank into the outer pipe into an interior of the 3-way T connector ( 6 ), the standpipe ( 2 ) connecting to (ii) a 90° elbow connector ( 7 ) positioned within the 3-way T connector ( 6 ) in the outer pipe; and (iii) a fluid drainage pipe ( 8 ) that connects to the 90° elbow connector ( 7 ), the fluid drainage pipe ( 8 ) extending from the interior of the 3-way T connector ( 6 ) at about 90° from the standpipe ( 2 ); wherein the inner pipe and the outer pipe are sealed against fluid leakage. 2. The sampling system of claim 1 , wherein fluid in the inner pipe is not in fluid communication with effluent in the outer pipe. 3. The sampling system of claim 1 , wherein fluid in the inner pipe is sealed against effluent in the outer pipe. 4. The sampling system of claim 1 , wherein the outer pipe further comprises a reducing fitting connecting the bulkhead ( 3 ) to the connector pipe ( 5 ). 5. The sampling system of claim 1 , wherein the outer pipe further comprises a terminal adaptor ( 4 ) connecting the bulkhead ( 3 ) to the connector pipe ( 5 ). 6. The sampling system of claim 1 , wherein the outer pipe further comprises a connector pipe ( 5 ) connecting the 3-way T connector ( 6 ) to the first valve ( 9 ). 7. The sampling system of claim 1 , wherein the outer pipe further comprises a connector pipe ( 5 ) connecting the first valve ( 9 ) to the second valve ( 10 ). 8. The sampling system of claim 1 , further comprising a fish tank. 9. The sampling system of claim 8 , wherein the fish tank has a volume in the range of about 5 L to about 500 L. 10. The sampling system of claim 8 , wherein the fish tank comprises one or more hydroponics rafts. 11. The sampling system of claim 8 , further comprising a hydroponics tank, the hydroponics tank comprising one or more hydroponics rafts. 12. The sampling system of claim 11 , wherein the fish tank is in fluid communication with the hydroponics tank. 13. The sampling system of claim 12 , wherein the sampling system is in fluid communication with a recirculating aquaponics system (RAS), and effluent can be removed from the second valve while water continuously circulates from the fish tank to the hydroponics tank. 14. A method of containing solid effluent from fish in a fish tank, the method comprising: (a) providing an effluent sampling system of claim 8 , wherein the fish tank comprises one or more live fish; and (b) allowing effluent including solids from the fish which have settled to the bottom of the fish tank to pass through the first valve ( 9 ) in the outer pipe and collect in the second valve ( 10 ); whereby the solid effluent from the fish in the fish tank is contained in the second valve ( 10 ). 15. The method of claim 14 , wherein the fish tank comprises one or more hydroponics rafts. 16. The method of claim 14 , wherein the sampling system is in fluid communication with a recirculating aquaponics system (RAS), and effluent can be removed from the second valve while water continuously circulates from the fish tank to the hydroponics tank. 17. A method of sampling effluent from a fish tank, the method comprising: (a) providing an effluent sampling system of claim 8 , wherein the fish tank comprises one or more live fish; (b) allowing effluent including solids from the fish in the fish tank to pass through the first valve ( 9 ) in the outer pipe and collect in the second valve ( 10 ); (c) blocking fluid flow through the first valve ( 9 ) and opening the second valve ( 10 ) to release the collected effluent; and (d) sampling the contents of the collected effluent. 18. The method of claim 17 , wherein the effluent comprises fish feces. 19. The method of claim 18 , wherein the feces is evaluated for the presence of a foodborne pathogen. 20. A kit comprising: (a) components (e.g., pipe fittings) for constructing an outer pipe, the outer pipe comprising: (i) a bulkhead ( 3 ) capable of forming a drain orifice in a fish tank; (ii) a connector pipe ( 5 ) that connects the bulkhead ( 3 ) to a 3-way T connector ( 6 ); (iii) a 3-way T connector ( 6 ); (iv) a slip reducer ( 11 ) that is capable of sealing around the inner pipe; (v) a first valve ( 9 ) that connects to the 3-way T connector ( 6 ); and (vi) a second valve ( 10 ) that connects to the first valve ( 9 ); and (b) components for constructing an inner pipe, the inner pipe comprising: (i) a standpipe ( 2 ); (ii) a 90° elbow connector ( 7 ) that can be positioned within the 3-way T connector ( 6 ) in the outer pipe; and (iii) a fluid intake pipe ( 8 ) that connects to the 90° elbow connector ( 7 ).