#$%^&*AU2017202274A120181004.pdf#####A plant irrigation dispenser (100), the dispenser comprising: a housing (102) defined by a housing sidewall (104) forming an enclosed region (106), a first end (108), and a second end (110), the second end (110) forming a channel (112) in communication with the enclosed region (106), the housing sidewall (104) defined by an air bleed valve (116) configured to enable passage of air into the enclosed region of the housing; a plurality of impaling members (114) disposed at the second end of the housing; a plurality of chambers (118) substantially encased in the enclosed region of the housing, the plurality of chambers (118) defined by a chamber sidewall forming a plurality of chamber cavities, a filling end (122), and a dispensing end (124), the dispensing end (124) of the plurality of chambers (118) defined by a plurality of openings, the plurality of chambers (118) further defined by multiple longitudinal dividers (120) segregating each chamber; a membrane (166) disposed to at least partially cover the plurality of openings of the plurality of chambers (118); a press (132) configured to slide along the length of the plurality of chamber cavities (130) , the press (132) defined by a press sidewall (134) , a bottom panel (136), a cap end (138) , and multiple longitudinal slots (140) extending at least partially from the bottom panel (136) to the cap end (138) , the multiple longitudinal slots (140) being configured to receive and slide along the multiple longitudinal dividers (120) segregating each chamber, whereby an axial force displaces the press (132) through the plurality of chamber cavities (130); a capping member (142) detachably coupled to the cap end (138) of the press (132), the capping member (142) comprising multiple ridges (144) that mate with the multiple longitudinal slots (140) at the cap end (138) of the press (132), whereby applying a rotational torque and the axial f
