Dosing bottle arrangement and methods

What is claimed is: 1. A dosing bottle arrangement comprising: (a) a container having a container wall surrounding an interior volume and a protruding neck; the neck having an open mouth in communication with the interior volume; (b) a riser extending from the interior volume of the container and through the open mouth of the neck; (c) a cap piece having: (i) an outer surrounding wall removably attached to the neck; (ii) a gusset arrangement radially extending from the outer surrounding wall and within the open mouth of the neck; and (iii) a standpipe extending from the gusset arrangement; the standpipe including a tubular wall connected to the riser at one end, an opposite closed end, and one or more return openings in the tubular wall; and (d) a closure member having: (i) a surrounding enclosure rotatably attached to the cap piece and defining an interior dosing volume and a dispenser opening; (ii) a tube secured to the enclosure within the interior dosing volume; the tube being in covering relation to the standpipe; the tube having an aperture; wherein the closure member is axially movable relative to the cap piece between a closed position and an open position; (A) the closed position including the tube covering all of the return openings in the tubular wall; and (B) the open position including the aperture in the tube being in open communication with one or more of the return openings, such that a liquid in the interior volume of the container can flow through the riser and through the return opening and into the interior dosing volume. 2. The dosing bottle arrangement of claim 1 wherein the one or more return openings includes at least a first opening and a second opening radially and axially spaced from each other; the first opening and second opening each having a predetermined liquid dosing amount associated therewith. 3. The dosing bottle arrangement of claim 2 wherein the surrounding enclosure is rotatable relative to the cap piece to select a desired liquid amount for the interior dosing volume; the relative rotational position of the surrounding enclosure and the cap piece placing the tube aperture in radial alignment with one of the first opening or the second opening. 4. The dosing bottle arrangement of claim 3 wherein the one or more return openings further includes a third opening and a fourth opening radially and axially spaced from each other and from the first opening and second opening; the third opening and fourth opening each having a predetermined liquid dosing amount associated therewith. 5. The dosing bottle arrangement of claim 4 wherein the surrounding enclosure is rotatable relative to the cap piece to select a desired liquid amount for the interior dosing volume; the relative rotational position of the surrounding enclosure and the cap piece placing the tube aperture in radial alignment with one of the first opening, the second opening, the third opening, or the fourth opening. 6. The dosing bottle arrangement of claim 5 wherein the outer surrounding wall of the closure member includes visual markings indicative of a predetermined liquid dosing amount associated with each of the return openings. 7. The dosing bottle arrangement of claim 6 wherein the closure member is transparent to allow visual inspection of the interior dosing volume. 8. The dosing bottle arrangement of claim 1 wherein the container comprises an elastically deformable material, such that the container can be squeezed when the cap piece is in the open position to move liquid in the interior volume of the container through the riser and through the return opening and into the interior dosing volume. 9. The dosing bottle arrangement of claim 1 , wherein the gusset arrangement forms an internal V-shape having an open recess within the open mouth of the neck, wherein a most radially interior part of the V-shape forms an interior cylinder which circumscribes and surrounds the riser. 10. A method of using a dosing bottle arrangement; the method comprising: (a) selecting a desired liquid dosing amount by rotating a closure member relative to a cap piece and radially align an aperture in a tube of the closure member with a return opening in a tubular wall of a standpipe of the cap piece; (b) axially moving the closure member relative to the cap piece from a closed position to an open position to put the aperture in open communication with the return opening; and (c) squeezing a container having a riser to move liquid in an interior volume of the container through the riser and through the return opening and into an interior dosing volume of the closure member. 11. The method of claim 10 wherein the step of squeezing a container having a riser includes squeezing a container wall surrounding the interior volume of the container; the container having a protruding neck; and the neck having an open mouth in communication with the interior volume; the riser extending from the interior volume of the container and through the open mouth of the neck. 12. The method of claim 11 wherein the step of selecting a desired liquid dosing amount includes using the cap piece; the cap piece having: (a) an outer surrounding wall removably attached to the neck; (b) a gusset arrangement radially extending from the outer surrounding wall and within the open mouth of the neck; and (c) the standpipe extending from the gusset arrangement; the standpipe including the tubular wall connected to the riser at one end, an opposite closed end, and one or more return openings in the tubular wall. 13. The method of claim 12 wherein the step of selecting a desired liquid dosing amount includes rotating the closure member, the closure member having: (a) a surrounding enclosure rotatably attached to the cap piece and defining an interior dosing volume and a dispenser opening; (b) the tube being secured to the enclosure within the interior dosing volume; wherein the closure member is axially movable relative to the cap piece between the closed position and the open position; (i) the closed position including the tube covering all of the return openings in the tubular wall; and (ii) the open position including the aperture in the tube being in open communication with one or more of the return openings, such that a liquid in the interior volume of the container can flow through the riser and through the return opening and into the interior dosing volume. 14. The method of claim 13 wherein the step of rotating the closure member includes moving the surrounding enclosure relative to the cap piece and placing the tube aperture in radial alignment with one of the return openings. 15. The method of claim 13 wherein: (a) the outer surrounding wall of the closure member includes visual markings indicative of a predetermined liquid dosing amount associated with each of the return openings; and (b) the step of selecting a desired liquid dosing amount includes rotating the closure member relative to the cap piece to align a marking on the closure member with one of the visual markings on the cap piece. 16. The method of claim 11 , further including a step of releasing the container to cause excess liquid to return through the riser to the interior volume.