Lower intestinal modification of ureteral urine in hydrated house sparrows.

The ureters of birds empty into the posterior portion of the lower intestine, thereby providing the possibility for modification of ureteral urine by this latter organ. We have used in vivo perfusion to measure the transport of Na+, K+, and water across the lower intestine (colon and coprodaeum) of anesthetized house sparrows (Passer domesticus). Na+ was reabsorbed from (Vmax = approximately 22 mu eq . cm-2 . h-1, Km = approximately 69 meq/l) and K+ was secreted (at variable rates) into all saline perfusion fluids. The osmotic permeability of the intestinal epithelium was 0.39 microliter . cm-2 . h-1 . mosM-1 in the mucosal-to-serosal direction and 0.43 microliter . cm-2 . h-1 . mosM-1 in the serosal-to-mucosal direction. At isosmotic perfusion, Na+-linked water transport occurred at a rate of 1.7 microliter/mu eq Na+. In hydrated house sparrows the composition of ureteral urine (osmolarity = 351 mosM, Na+ = 86.5 meq/l, K+ = 60.5 meq/l) was significantly modified by transport in the lower intestine (voided fluid osmolarity = 344 mosM, Na+ = 60 meq/l, K+ = 90 meq/l). Interspecific comparisons of lower intestinal resorptive surface area and transport parameters at the level of the tissue, organ, and whole animal reveal no consistent pattern of adaptation related to habitat.