Sieving devices for pupae separation

What is claimed is: 1. A system, comprising: a sieving container comprising a base and a perimeter wall encircling the base to form an interior volume of the sieving container, the perimeter wall fixedly coupled to the base, the base defining a set of openings enabling movement of pupae through the set of openings from the interior volume of the sieving container, individual openings of the set of openings defined by: a length dimension measured along a longitudinal axis of a respective opening; and a width dimension measured along a transverse axis of the respective opening; and a liquid container comprising at least one wall and a bottom, the at least one wall attached to the bottom so as to define an opening opposite the bottom, the liquid container sized to receive the sieving container and hold a volume of liquid, wherein a value of the width dimension is between 800 microns and 1500 microns, and a value of the length dimension is at least two times greater than the value of the width dimension. 2. The system of claim 1 , wherein the perimeter wall comprises a sieve rim having a rectangular rim cross section, with a first side of the base exposed to the interior volume. 3. The system of claim 1 , wherein the sieving container is moveable within the liquid container between: a first vertical elevation at which the base is submerged in a liquid held by the liquid container; and a second vertical elevation at which the base is removed from the liquid. 4. The system of claim 3 , wherein repeated movement between the first vertical elevation and the second vertical elevation causes a population of pupae present in the liquid to be separated into a first group of pupae and a second group of pupae. 5. The system of claim 1 , wherein the sieving container further comprises a set of feet disposed below the base so as to contact the bottom of the liquid container and support the sieving container when the sieving container is received by the liquid container. 6. The system of claim 1 , wherein, when the sieving container is received by the liquid container and the base is submerged in a liquid held by the liquid container and containing a population of pupae therein: a majority of male pupae of the population of pupae having male cephalothorax widths that are less than the value of the width dimension are free to move through any one of the set of openings; and female pupae of the population of pupae having female cephalothorax widths that are greater than the value of the width dimension are prevented from moving through any one of the set openings. 7. The system of claim 6 , wherein the value of the width dimension is less than a cross-sectional cephalothorax width of a representative female mosquito pupa of the population of pupae. 8. A method, comprising: providing a sieving container within a liquid container, the sieving container comprising a base and a perimeter wall encircling the base to form an interior volume of the sieving container, the perimeter wall fixedly coupled to the base, the base defining a plurality of elongate openings enabling movement of insect pupae through the plurality of elongate openings from the interior volume of the sieving container, a width dimension of at least one of the elongate openings corresponding to a cephalothorax width of a pupa; adding a liquid to the liquid container such that at least the sieve base is submerged in the liquid; adding a population of pupae to a portion of the liquid that is within the interior volume of the sieving container; and performing a sieving action so as to separate the population of pupae into a first group of pupae and a second group of pupae. 9. The method of claim 8 , wherein: performing the sieving action results in the first group of pupae moving into the liquid that is outside the interior volume of the sieving container and the second group of pupae remaining within the interior volume of the sieving container; and the method further comprises, after performing the sieving action; transferring the first group of pupae or the second group of pupae to a different sieving container, the different sieving container comprising a different base in which is formed a different plurality of elongate opening that includes openings that are sized differently from openings of the plurality of elongate openings of the base; and performing a different sieving action using the different sieving container so as to separate the first group of pupae or the second group of pupae into a first subgroup of pupae and a second subgroup of pupae. 10. The method of claim 8 , wherein the sieving action comprises raising and lowering the sieving container relative to the liquid between: a first elevation at which the base is submerged in the liquid; and a second elevation at which the base is removed from the liquid. 11. The method of claim 8 , wherein the sieving action comprises raising and lowering a level of the liquid relative to the base between: a first liquid level defined at a first vertical elevation above the base; and a second liquid level defined at a second vertical elevation below the base. 12. The method of claim 11 , wherein raising and lowering the level of the liquid relative to the base comprises recirculating the liquid between the liquid container and a secondary liquid container. 13. The method of claim 11 , wherein raising and lowering the level of the liquid relative to the base comprises removing the liquid from the liquid container and replacing the liquid in the liquid container with different liquid. 14. The method of claim 8 , further comprising, after performing the sieving action: removing the sieving container from the liquid container, the sieving container containing the second group of pupae; and removing the liquid from the liquid container, the liquid containing the first group of pupae. 15. The method of claim 8 , wherein the plurality of elongate openings define a plurality of pathways extending between a first side of the base and a second side of the base, individual elongate openings of the plurality of elongate openings defined by: a length dimension measured along a longitudinal axis of a respective elongate opening; and a width dimension measured along a transverse axis of the respective elongate opening, the length dimension greater than the width dimension. 16. The method of claim 15 , further comprising adding a larvicide to the population of pupae prior to adding the population of pupae to the liquid. 17. A method, comprising: providing a sieving device within a container so as to define a first chamber of the container and a second chamber of the container, the sieving device comprising: a sieve frame, wherein an exterior surface of the sieve frame engages with an interior surface of the container to define the first chamber and the second chamber when the sieving device is provided within the container; and a sieve surface attached to the sieve frame and comprising a first side and a second side, wherein a set of elongate openings is formed in the sieve surface so as to define a set of pathways extending between the first side and the second side; adding a liquid to the container such that at least the sieve surface is submerged in the liquid; after adding the liquid to the container, adding a population of pupae to a portion of the liquid that is within the first chamber; and allowing the population of pupae to migrate from the first chamber to the second chamber. 18. The method of claim 17 , further comprising