Phytophthora parasitica is a notorious oomycete pathogen that causes severe disease in a wide variety of plant species. Plant infection by this pathogen involves mainly its asexual development, whereby papillate sporangia are formed, followed by differentiation and release of biflagellate zoospores. Calcium signaling has been proposed to play a key role in these processes. This study deals with the functional characterization of Ppmid1, which encodes a component of a putative calcium channel. Analysis by quantitative reverse transcriptase-PCR indicated that the expression of Ppmid1 is induced in the stage of sporangia. Moreover, we generated Ppmid1-silenced mutants of P. parasitica, which showed reduced expression of Ppmid1 and exhibited severe defects in its asexual development. Sporangia formed by the mutants lacked papilla and failed to release zoospores in response to cold shock. Instead, they tended to germinate directly. Further analysis revealed that, in response to cold shock for induction of zoospore formation, no sign of cytoplasmic cleavage was detected in the sporangia of Ppmid1-silenced mutants. Interestingly, when the sporangia induction solution was amended with CaCl2, the mutants became able to form papillate sporangia, which released zoospores upon cold shock. Inoculation experiments indicated that Ppmid1-silenced mutants showed reduced virulence toward Nicotiana benthamiana. These results indicated that Ppmid1 plays an important role in the asexual development of P. parasitica.