Digenean flukes can be classified into 3 groups according to their location in the host: the lumen of the alimentary canal or associated organ, body cavity or tissue, and external surfaces. We obtained adults of Clinostomum marginatum that had matured in these 3 habitats and compared the fine structure and glucose transporting capacity of their teguments. Adults from the esophagus of herons, Ardea herodias, had thick, smooth teguments and took up glucose by facilitated diffusion, the type of transport that is Na(+)-independent and insensitive to phlorizin. By contrast, the surfaces of adults cultured from metacercariae in body cavities of laboratory mice were amplified 3-5-fold due to numerous irregular projections of the tegument. Glucose transport by these worms was largely Na(+)-dependent and inhibited by phlorizin, indicating active transport. Ectoparasites from herons' mouths had relatively thick, smooth teguments, but these worms always were encrusted with bacteria and yeast that are known to absorb and metabolize glucose. Most of the attached bacteria, and the apparent glucose uptake associated with their presence, were removed by treating the worms with antibiotics prior to transport assays. As facilitated diffusion and active transport are operational simultaneously in metacercariae, the type of transport function, if any, expressed in the adult is determined by environmental conditions associated with the worm's habitat.