Abstract
Sympatric predators are predicted to partition resources, especially under conditions of food limitation. Spatial heterogeneity that influences prey availability might play an important role in the scales at which potential competitors select habitat. We assessed potential mechanisms for coexistence by examining the role of heterogeneity in resource partitioning between sympatric raptors overwintering in the southern Great Plains. We conducted surveys for wintering Red‐tailed hawk (Buteo jamaicensis) and Northern Harrier (Circus cyanea) at two state wildlife management areas in Oklahoma, USA. We used information from repeated distance sampling to project use locations in a GIS. We applied resource selection functions to model habitat selection at three scales and analyzed for niche partitioning using the outlying mean index. Habitat selection of the two predators was mediated by spatial heterogeneity. The two predators demonstrated significant fine‐scale discrimination in habitat selection in homogeneous landscapes, but were more sympatric in heterogeneous landscapes. Red‐tailed hawk used a variety of cover types in heterogeneous landscapes but specialized on riparian forest in homogeneous landscapes. Northern Harrier specialized on upland grasslands in homogeneous landscapes but selected more cover types in heterogeneous landscapes. Our study supports the growing body of evidence that landscapes can affect animal behaviors. In the system we studied, larger patches of primary land cover types were associated with greater allopatry in habitat selection between two potentially competing predators. Heterogeneity within the scale of raptor home ranges was associated with greater sympatry in use and less specialization in land cover types selected.
Highlights
Understanding the effects of spatial heterogeneity on interference, coexistence, niche separation, and differential habitat selection among species is a key concept in community ecology
Spatial heterogeneity can lead to an increase or a decrease in hunting success depending on the specific behavioral characteristics of the predator (Oliver, Luque-Larena, & Lambin, 2009)
During winter when energetic demands are high, population densities of Red-tailed hawk (Buteo jamaicensis) and Northern Harrier (Circus cyaneus) reach their annual peaks, and broadscale sympatry in habitat use can presumably lead to competition
Summary
Understanding the effects of spatial heterogeneity on interference, coexistence, niche separation, and differential habitat selection among species is a key concept in community ecology Seasonally low resource availability during winter increases both interspecific and intraspecific competition in temperate environments (Diggs, Marra, & Cooper, 2011; Pulliam & Mills, 1977) During these constrained periods, competition is high and we expect to see broad overlap in habitat selection among species with similar resource requirements. During winter when energetic demands are high, population densities of Red-tailed hawk (Buteo jamaicensis) and Northern Harrier (Circus cyaneus) reach their annual peaks, and broadscale sympatry in habitat use can presumably lead to competition Both species are opportunistic predators of small mammals, birds, reptiles, and amphibians (Collopy & Bildstein, 1987; Preston, 1990; Preston & Beane, 2000; Redpath & Thirgood, 1999; Turner et al, 2014). We tested two primary hypotheses: (1) Sympatry in habitat selection will be greater where heterogeneity is higher, and (2) fine-scale habitat selection will be more sensitive to heterogeneity than selection at broader scales
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