Abstract

Nectar‐feeding birds face a constant challenge in terms of water balance, experiencing water loading when feeding and potential dehydration when fasting. A growing collection of studies is revealing how species across different orders deal with this osmoregulatory challenge. To meet their high mass‐specific energy demands these birds must often deal with exceptionally high proportionate water fluxes. Birds that ingest large volumes of water may either eliminate excess water in the kidney or regulate the volume of water absorbed in the gastrointestinal tract. Across species, renal filtration during feeding periods generally does not exceed allometric predictions and is not highly responsive to water loading, but renal fractional water reabsorption varies with water load as expected. Hummingbirds (Apodiformes) absorb a constant, high proportion of ingested water across the gastrointestinal tract, while sunbirds and honeyeaters (Passeriformes) modulate intestinal water absorption, potentially avoiding significant water loads when feeding on dilute diets. Data suggest that these passerine nectarivores regulate transepithelial water flux independently of sugar absorption, opening the door to intriguing questions about how water transport is regulated in the vertebrate gastrointestinal tract. Despite reducing their intestinal water absorption, these birds show linear increases in water flux and fractional body water turnover as water intake increases, suggesting that the modulation of fractional water absorption is not sufficient to completely offset dietary water loads. Species in both orders exhibit significant diel variation in renal filtration, essentially shutting down renal filtration during overnight fasts and thus avoiding dehydration. Convergence in diet has led to the evolution of many similar traits in hummingbirds and sunbirds, but the physiological traits of these two groups that allow the processing of a watery and sugary diet may be very different.

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