Importance of spatial scale to habitat use by breeding birds in riparian forests: a hierarchical analysis

Publication Type:

Journal Article

Authors:

Saab, Victoria

Source:

Ecological Applications, Ecological Society of America, Volume 9, Issue 1, p.135–151 (1999)

Call Number:

A99SAA01IDUS

URL:

http://www.elkhornsloughctp.org/uploads/files/1116286923Saab%201999.pdf

Keywords:

dusky flycatcher, gray catbird, house wren, Lazuli Bunting, MacGillivray's warbler, northern oriole, riparian birds, spatial analysis, spatial effects, veery, warbling vireo, western wood-pewee, yellow warbler, yellow-billed cuckoo, yellow-breasted chat, yellow-rumbed warbler

Abstract:

Patterns of habitat use by breeding birds were studied in cottonwood riparian forests along 100 km of the South Fork Snake River in southeastern Idaho from 1991 to 1994. A hierarchical approach was used to examine habitat use at three spatial scales: microhabitat (local vegetation characteristics), macrohabitat (cottonwood forest patch characteristics), and landscape (composition and patterning of surrounding [matrix] vegetation types and land uses). This paper addresses a series of predictions about species’ distributions that incorporate the different spatial scales. Bird distribution and abundance and vegetation data were collected on 57 cottonwood forest patches ranging in size from 0.40 ha to 205 ha. The surrounding landscape changed from a valley surrounded by mountains, on the upstream end of the study area, to a narrow canyon adjacent to natural upland vegetation in the middle section, and to a wide, open floodplain dominated by agriculture on the downstream end. The best predictors of high species richness (r2 = 0.71) were natural and heterogeneous landscapes, large cottonwood patches, close proximity to other cottonwood patches, and microhabitats with relatively open canopies. Distribution and frequency of occurrence were evaluated for 32 species of small land birds. The most frequent significant predictor of species occurrence was the landscape component: increases in upland natural vegetation with decreases in agriculture. Both interior and edge specialists were found in arid-land cottonwood riparian forests that are linear in nature, with large amounts of edge. Nest predators, brood parasites, and exotic species responded positively to human-altered landscapes. Landscape patterns were the primary influence on distribution and occurrence of most bird species, whereas macrohabitat and microhabitat were of secondary importance. Thus, surrounding landscape (matrix) features should be a primary consideration for selecting riparian reserve areas.