A rodent management station 100 comprising a housing having an interior space and including a base 104 and a lid 106 that together at least in part define the interior space of the housing. The lid 106 is positionable relative to the base 104 between a closed configuration of the station 100 in which the interior space is substantially enclosed, and an opened configuration of the station 100 in which the interior space is accessible for servicing. The housing has an entry opening through which rodents enter the interior space of the housing. The lid 106 is hinged for hinged movement of the lid 106 relative to the base 104 between the opened and closed configurations of the station 100. The housing further has an internal partition structure configured to partition the interior space into a bait chamber having an entryway spaced from the entry opening of the housing. The partition structure is connected to the lid 106 for conjoint movement with the lid 106 relative to the base 104 upon movement of the lid 106 to the opened configuration of the station 100. The rodent management station 100 further comprises at least one of a trap and bait positionable within the interior space of the housing. The base 104 comprises a floor panel having a circumference and an inner surface on which rodents move within the interior space of the housing. The base 104 further comprises at least one upstanding wall extending upward relative to the floor panel about substantially less than the circumference of the floor panel such that a continuous circumferential segment of at least about 25 percent of the floor panel circumference is free from enclosure by the at least one upstanding wall in the opened configuration of the station 100.
