Landscape changes can alter pollinator movement and foraging patterns which can in turn influence demographic processes of plant populations. In the Cascade Mountains of the Pacific Northwest, USA, forests are encroaching on alpine meadows that harbor diverse plant and pollinator communities. Whether encroachment and isolation of sub-meadows will influence pollinator foraging behaviors is unknown. To help assess those behaviors, subcutaneous Passive Integrated Transponders were implanted into 163 Rufous Hummingbirds (Selasphorus rufus), common avian pollinators in western North America and four arrays of five hummingbird feeders were established equipped with Radio Frequency Identification data loggers to passively relocate individuals at points throughout the landscape. The feeder arrays were established on four peaks along Frizzel Ridge in the H. J. Andrews Experimental Forest (Lookout Mountain, M1, M2, and Carpenter Mountain). A center feeder was established in a large, central alpine meadow and four satellite feeders c.a. 250m from the center. The satellite feeders were positioned such that at least one was in the open and connected to the center feeder by open habitat, one was in the open but separated from the center by coniferous forest canopy, and one was placed under coniferous forest canopy. Feeders were maintained for 1.5-12 weeks per year from 2014-2017.
Adam Scott Hadley, Dustin Gannon, Matthew G Betts, Sarah J. K. Frey
We aimed to test two hypotheses of how forest encroachment could reduce the functional connectivity of the landscape by influencing hummingbird foraging patterns. First, if hummingbirds fly low, foraging at flowers in sequence within meadows where flower resources are abundant and avoid flying into forested areas where floral resources are generally less abundant, forests make act as a (potentially 'leaky') barrier to movement. Second, if hummingbirds fly over the canopy to forage in disconnected meadows, flowering plants that get overgrown by woody vegetation may not be discovered by birds as they fly above the canopy. Thus, further encroachment could inhibit resource discover and lower the effective population sizes of ornithophilous plants.