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Temporal Dynamics of Bird Community Composition: an Analysis of Base-line Conditions from Long-term Data. / Kampichler, C.; Angeler, D.G.; Holmes, R.T.; Leito, A.; Svensson, S.; Wesolowski, T.; Van der Jeugd, H.P.

In: Oecologia, Vol. 175, No. 4, 2014, p. 1301-1313.

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Kampichler, C. ; Angeler, D.G. ; Holmes, R.T. ; Leito, A. ; Svensson, S. ; Wesolowski, T. ; Van der Jeugd, H.P. / Temporal Dynamics of Bird Community Composition: an Analysis of Base-line Conditions from Long-term Data. In: Oecologia. 2014 ; Vol. 175, No. 4. pp. 1301-1313.

BibTeX

@article{69369375fbf249fa9753dcbbbb2603ca,
title = "Temporal Dynamics of Bird Community Composition: an Analysis of Base-line Conditions from Long-term Data",
abstract = "Numerous anthropogenic activities threaten the biodiversity found on earth. Because all ecological communities constantly experience temporal turnover due to natural processes, it is important to distinguish between change due to anthropogenic impact and the underlying natural rate of change. In this study, we used data sets on breeding bird communities that covered at least 20 consecutive years, from a variety of terrestrial ecosystems, to address two main questions. (1) How fast does the composition of bird communities change over time, and can we identify a baseline of natural change that distinguishes primeval systems from systems experiencing varying degrees of human impact? (2) How do patterns of temporal variation in composition vary among bird communities in ecosystems with different anthropogenic impacts? Time lag analysis (TLA) showed a pattern of increasing rate of temporal compositional change from large-scale primeval systems to disturbed and protected systems to distinctly successional systems. TLA slopes of 0.04. Most of the temporal variability of breeding bird communities was explained by slow changes occurring over decades, regardless of the intensity of human impact. In most of the time series, medium- and short-wave periodicity was not detected, with the exception of breeding bird communities subjected to periodic pulses (e.g. caterpillar outbreaks causing food resource peaks).",
keywords = "international",
author = "C. Kampichler and D.G. Angeler and R.T. Holmes and A. Leito and S. Svensson and T. Wesolowski and {Van der Jeugd}, H.P.",
note = "Reporting year: 2014 Metis note: 5622; VT, AnE Data archiving: data archived at MDA",
year = "2014",
doi = "10.1007/s00442-014-2979-6",
language = "English",
volume = "175",
pages = "1301--1313",
journal = "Oecologia",
issn = "0029-8549",
publisher = "Springer Verlag",
number = "4",

}

RIS

TY - JOUR

T1 - Temporal Dynamics of Bird Community Composition: an Analysis of Base-line Conditions from Long-term Data

AU - Kampichler, C.

AU - Angeler, D.G.

AU - Holmes, R.T.

AU - Leito, A.

AU - Svensson, S.

AU - Wesolowski, T.

AU - Van der Jeugd, H.P.

N1 - Reporting year: 2014 Metis note: 5622; VT, AnE Data archiving: data archived at MDA

PY - 2014

Y1 - 2014

N2 - Numerous anthropogenic activities threaten the biodiversity found on earth. Because all ecological communities constantly experience temporal turnover due to natural processes, it is important to distinguish between change due to anthropogenic impact and the underlying natural rate of change. In this study, we used data sets on breeding bird communities that covered at least 20 consecutive years, from a variety of terrestrial ecosystems, to address two main questions. (1) How fast does the composition of bird communities change over time, and can we identify a baseline of natural change that distinguishes primeval systems from systems experiencing varying degrees of human impact? (2) How do patterns of temporal variation in composition vary among bird communities in ecosystems with different anthropogenic impacts? Time lag analysis (TLA) showed a pattern of increasing rate of temporal compositional change from large-scale primeval systems to disturbed and protected systems to distinctly successional systems. TLA slopes of 0.04. Most of the temporal variability of breeding bird communities was explained by slow changes occurring over decades, regardless of the intensity of human impact. In most of the time series, medium- and short-wave periodicity was not detected, with the exception of breeding bird communities subjected to periodic pulses (e.g. caterpillar outbreaks causing food resource peaks).

AB - Numerous anthropogenic activities threaten the biodiversity found on earth. Because all ecological communities constantly experience temporal turnover due to natural processes, it is important to distinguish between change due to anthropogenic impact and the underlying natural rate of change. In this study, we used data sets on breeding bird communities that covered at least 20 consecutive years, from a variety of terrestrial ecosystems, to address two main questions. (1) How fast does the composition of bird communities change over time, and can we identify a baseline of natural change that distinguishes primeval systems from systems experiencing varying degrees of human impact? (2) How do patterns of temporal variation in composition vary among bird communities in ecosystems with different anthropogenic impacts? Time lag analysis (TLA) showed a pattern of increasing rate of temporal compositional change from large-scale primeval systems to disturbed and protected systems to distinctly successional systems. TLA slopes of 0.04. Most of the temporal variability of breeding bird communities was explained by slow changes occurring over decades, regardless of the intensity of human impact. In most of the time series, medium- and short-wave periodicity was not detected, with the exception of breeding bird communities subjected to periodic pulses (e.g. caterpillar outbreaks causing food resource peaks).

KW - international

U2 - 10.1007/s00442-014-2979-6

DO - 10.1007/s00442-014-2979-6

M3 - Article

VL - 175

SP - 1301

EP - 1313

JO - Oecologia

JF - Oecologia

SN - 0029-8549

IS - 4

ER -

ID: 161570