Habitat Selection Attributes of an Avian Community: A Discriminant Analysis Investigation

Rice, Jake; Ohmart, Robert D.; Anderson, B. W.

doi:10.2307/1942532

Cited by 74 publications

(40 citation statements)

References 48 publications

(61 reference statements)

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“…More important, perhaps, is the increasing number of studies that demonstrate at a local population level a strong association between individual bird species and one or more individual plant species (e.g., Snow and Snow 1971 ;Smith 1977;Holmes etal. 1979;Holmes and Robinson 1981;Maurer and Whitmore 1981 ;Wiens and Rotenberry 1981 ;Rice et al 1983;Robinson and Holmes 1984). Indeed, most avian ecologists are familiar with similar specific associations from their own field experiences.…”

Section: Discussionmentioning

confidence: 99%

The role of habitat in avian community composition: physiognomy or floristics?

1985

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Section: Discussionmentioning

confidence: 99%

The role of habitat in avian community composition: physiognomy or floristics?

1985

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“…Most ecological studies have used a descriptive approach (see, however, Rice et al 1983 andVerner et al 1986 for applications of predictive methods). The structure of the canonical variates is often of primary concern to ecologists.…”

Section: Munro and Rounds 1985 Seagle 1985)mentioning

confidence: 99%

Assessment of Sampling Stability in Ecological Applications of Discriminant Analysis

Williams¹,

Titus²

1988

Ecology

133

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JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact support@jstor.org.. A simulation study was undertaken to assess the sampling stability of the variable loadings in linear discriminant function analysis. A factorial design was used for the factors of multivariate dimensionality, dispersion structure, configuration of group means, and sample size. A total of 32 400 discriminant analyses were conducted, based on data from simulated populations with appropriate underlying statistical distributions. Ecological Society of AmericaResults from the simulations suggest that minimum sample sizes must exceed multivariate dimensionality by at least a factor of three to achieve reasonable levels of stability in discriminant function loadings. However, the requisite sample size would vary with respect to each of the design factors and, especially, with the overall amount of system variation.A review of 60 published studies and 142 individual analyses indicated that sample sizes in ecological studies often have met that requirement. However, individual group sample sizes frequently were very unequal, and checks of assumptions usually were not reported. We recommend that ecologists obtain group sample sizes that are at least three times as large as the number of variables measured.

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“…Different species, each with unique habitat and food requirements and differing ability to migrate, respond accordingly. Studies in arid areas outside Australia have also shown that species vary greatly in abundance from year to year and place to place, apparently to some degree independently of each other Rotenberry 1980, 1981;Rosenberg et al 1982;Rice et al 1983aRice et al , 1983b.…”

Section: Discussionmentioning

confidence: 99%

Effects of environmental variation on the composition and dynamics of an arid-adapted Australian bird community

Smith¹

2015

Pac. Conserv. Biol.

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Abstract. Environmental variables influence the dynamics of bird communities. Australian arid-adapted bird communities must cope with particularly high levels of spatial and temporal variability, including inevitable but unpredictable periods of drought. Over four years, which included a severe drought and a period of above-average rainfall, I quantified the responses of a bird community in arid north-western New South Wales to regular seasonal and irregular climatic variation, especially rainfall, as well as spatial variation. I found pronounced changes in the abundance and composition of the avifauna that related to drought and, to a lesser extent, seasonal variability. Overall bird abundance and species richness declined during the drought but the magnitude and direction of population fluctuations of resident, nomadic and migratory species, different feeding groups, and individual species were not consistent. Avian densities and species richness in the study area were higher in mesic habitats associated with drainage lines than in run-off areas. The study demonstrated the importance of local habitat heterogeneity. The asynchronous species responses to a fluctuating environment indicated that drought is likely to have a differential effect on resources and that individual species respond differently to environmental variability. Effective land management and conservation of Australian arid-adapted bird communities requires an understanding of their spatial and temporal variability and dynamics at both local and regional level. A proper understanding of the variability and dynamics of the avifauna is especially important as climate change is predicted to exacerbate the climatic variability and unpredictability of the arid zone in future years.

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Habitat Selection Attributes of an Avian Community: A Discriminant Analysis Investigation

Cited by 74 publications

References 48 publications

The role of habitat in avian community composition: physiognomy or floristics?

The role of habitat in avian community composition: physiognomy or floristics?

Assessment of Sampling Stability in Ecological Applications of Discriminant Analysis

Effects of environmental variation on the composition and dynamics of an arid-adapted Australian bird community

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