A commercial producer hatching and rearing chukar partridges (Alectoris chukar) in Ontario, Canada had flocks experiencing coccidiosis. Microscopic analysis of Eimeria species isolated from a field sample indicated the presence of 2 distinct oocyst morphotypes; the most abundant species was determined to be Eimeria chapmani, based on oocyst morphology and sequence-based genotyping, and the less abundant, second Eimeria sp. was an undescribed parasite. Oocysts of the unknown Eimeria sp. were large and oval-shaped; dimensions averaged 27.9 µm by 17.0 µm (shape index = 1.65 µm). Oocysts contained at least 1 polar granule and 4 almond-shaped sporocysts with average dimensions measuring 12.5 µm by 6.9 µm (shape index = 1.83). Each sporocyst featured a Stieda body, sub-Stieda body, and sporocyst residuum; a sporocyst contained 2 sporozoites that each possessed a small anterior refractile body and a larger posterior refractile body. Virtually all oocysts sporulated after 24 hr when suspended in potassium dichromate at room temperature (22 C) on a rotary platform. Experimental infections with various doses of oocysts demonstrated elevated parasite shedding from birds gavaged with higher challenge doses; fecundity generally decreased in heavier infections. The approximate prepatent period of the parasite was 4–5 days (unsporulated oocysts observed histologically at 90 hr postinfection and in feces by day 5) and patency lasted until day 12 postinfection. To characterize the endogenous development of the Eimeria sp., tissues were collected at 8 regions along the intestinal tract (including the ceca and rectum) every 6 hr throughout the estimated prepatent period. Parasites were observed to infect the descending and ascending duodenum, midjejunum, proximal and distal ileum, and the ceca. The endogenous stages identified included intracellular sporozoites, 3 generations of merogony, and gametogonic stages. Sequences of the mitochondrial genome (GenBank MW934555) and nuclear 18S ribosomal DNA (GenBank MW934259) were obtained using polymerase chain reaction amplification for Sanger sequencing, and these were unique from all published sequences on GenBank. Molecular data, in conjunction with the unique biology of the Eimeria sp. isolated from the chukar partridge flock, support that this coccidium is new to science.