Home > Research > Publications & Outputs > Climate-driven variation in dispersal ability p...

Electronic data

  • Weeks_et_al_preprint

    Accepted author manuscript, 1.19 MB, PDF document

    Available under license: CC BY: Creative Commons Attribution 4.0 International License

Links

Text available via DOI:

View graph of relations

Climate-driven variation in dispersal ability predicts responses to forest fragmentation in birds

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Published

Standard

Climate-driven variation in dispersal ability predicts responses to forest fragmentation in birds. / Weeks, T.L.; Betts, M.G.; Pfeifer, M. et al.
In: Nature Ecology and Evolution, Vol. 7, 31.07.2023, p. 1079-1091.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Weeks, TL, Betts, MG, Pfeifer, M, Wolf, C, Banks-Leite, C, Barbaro, L, Barlow, J, Cerezo, A, Kennedy, CM, Kormann, UG, Marsh, CJ, Olivier, PI, Phalan, BT, Possingham, HP, Wood, EM & Tobias, JA 2023, 'Climate-driven variation in dispersal ability predicts responses to forest fragmentation in birds', Nature Ecology and Evolution, vol. 7, pp. 1079-1091. https://doi.org/10.1038/s41559-023-02077-x

APA

Weeks, T. L., Betts, M. G., Pfeifer, M., Wolf, C., Banks-Leite, C., Barbaro, L., Barlow, J., Cerezo, A., Kennedy, C. M., Kormann, U. G., Marsh, C. J., Olivier, P. I., Phalan, B. T., Possingham, H. P., Wood, E. M., & Tobias, J. A. (2023). Climate-driven variation in dispersal ability predicts responses to forest fragmentation in birds. Nature Ecology and Evolution, 7, 1079-1091. https://doi.org/10.1038/s41559-023-02077-x

Vancouver

Weeks TL, Betts MG, Pfeifer M, Wolf C, Banks-Leite C, Barbaro L et al. Climate-driven variation in dispersal ability predicts responses to forest fragmentation in birds. Nature Ecology and Evolution. 2023 Jul 31;7:1079-1091. Epub 2023 May 29. doi: 10.1038/s41559-023-02077-x

Author

Weeks, T.L. ; Betts, M.G. ; Pfeifer, M. et al. / Climate-driven variation in dispersal ability predicts responses to forest fragmentation in birds. In: Nature Ecology and Evolution. 2023 ; Vol. 7. pp. 1079-1091.

Bibtex

@article{a0698b9940354d068fd4d09f5938ac13,
title = "Climate-driven variation in dispersal ability predicts responses to forest fragmentation in birds",
abstract = "Species sensitivity to forest fragmentation varies latitudinally, peaking in the tropics. A prominent explanation for this pattern is that historical landscape disturbance at higher latitudes has removed fragmentation-sensitive species or promoted the evolution of more resilient survivors. However, it is unclear whether this so-called extinction filter is the dominant driver of geographic variation in fragmentation sensitivity, particularly because climatic factors may also cause latitudinal gradients in dispersal ability, a key trait mediating sensitivity to habitat fragmentation. Here we combine field survey data with a morphological proxy for avian dispersal ability (hand-wing index) to assess responses to forest fragmentation in 1,034 bird species worldwide. We find that fragmentation sensitivity is strongly predicted by dispersal limitation and that other factors—latitude, body mass and historical disturbance events—have relatively limited explanatory power after accounting for species differences in dispersal. We also show that variation in dispersal ability is only weakly predicted by historical disturbance and more strongly associated with intra-annual temperature fluctuations (seasonality). Our results suggest that climatic factors play a dominant role in driving global variation in the impacts of forest fragmentation, emphasizing the need for more nuanced environmental policies that take into account local context and associated species traits.",
author = "T.L. Weeks and M.G. Betts and M. Pfeifer and C. Wolf and C. Banks-Leite and L. Barbaro and J. Barlow and A. Cerezo and C.M. Kennedy and U.G. Kormann and C.J. Marsh and P.I. Olivier and B.T. Phalan and H.P. Possingham and E.M. Wood and J.A. Tobias",
year = "2023",
month = jul,
day = "31",
doi = "10.1038/s41559-023-02077-x",
language = "English",
volume = "7",
pages = "1079--1091",
journal = "Nature Ecology and Evolution",
issn = "2397-334X",
publisher = "Nature Publishing Group",

}

RIS

TY - JOUR

T1 - Climate-driven variation in dispersal ability predicts responses to forest fragmentation in birds

AU - Weeks, T.L.

AU - Betts, M.G.

AU - Pfeifer, M.

AU - Wolf, C.

AU - Banks-Leite, C.

AU - Barbaro, L.

AU - Barlow, J.

AU - Cerezo, A.

AU - Kennedy, C.M.

AU - Kormann, U.G.

AU - Marsh, C.J.

AU - Olivier, P.I.

AU - Phalan, B.T.

AU - Possingham, H.P.

AU - Wood, E.M.

AU - Tobias, J.A.

PY - 2023/7/31

Y1 - 2023/7/31

N2 - Species sensitivity to forest fragmentation varies latitudinally, peaking in the tropics. A prominent explanation for this pattern is that historical landscape disturbance at higher latitudes has removed fragmentation-sensitive species or promoted the evolution of more resilient survivors. However, it is unclear whether this so-called extinction filter is the dominant driver of geographic variation in fragmentation sensitivity, particularly because climatic factors may also cause latitudinal gradients in dispersal ability, a key trait mediating sensitivity to habitat fragmentation. Here we combine field survey data with a morphological proxy for avian dispersal ability (hand-wing index) to assess responses to forest fragmentation in 1,034 bird species worldwide. We find that fragmentation sensitivity is strongly predicted by dispersal limitation and that other factors—latitude, body mass and historical disturbance events—have relatively limited explanatory power after accounting for species differences in dispersal. We also show that variation in dispersal ability is only weakly predicted by historical disturbance and more strongly associated with intra-annual temperature fluctuations (seasonality). Our results suggest that climatic factors play a dominant role in driving global variation in the impacts of forest fragmentation, emphasizing the need for more nuanced environmental policies that take into account local context and associated species traits.

AB - Species sensitivity to forest fragmentation varies latitudinally, peaking in the tropics. A prominent explanation for this pattern is that historical landscape disturbance at higher latitudes has removed fragmentation-sensitive species or promoted the evolution of more resilient survivors. However, it is unclear whether this so-called extinction filter is the dominant driver of geographic variation in fragmentation sensitivity, particularly because climatic factors may also cause latitudinal gradients in dispersal ability, a key trait mediating sensitivity to habitat fragmentation. Here we combine field survey data with a morphological proxy for avian dispersal ability (hand-wing index) to assess responses to forest fragmentation in 1,034 bird species worldwide. We find that fragmentation sensitivity is strongly predicted by dispersal limitation and that other factors—latitude, body mass and historical disturbance events—have relatively limited explanatory power after accounting for species differences in dispersal. We also show that variation in dispersal ability is only weakly predicted by historical disturbance and more strongly associated with intra-annual temperature fluctuations (seasonality). Our results suggest that climatic factors play a dominant role in driving global variation in the impacts of forest fragmentation, emphasizing the need for more nuanced environmental policies that take into account local context and associated species traits.

U2 - 10.1038/s41559-023-02077-x

DO - 10.1038/s41559-023-02077-x

M3 - Journal article

VL - 7

SP - 1079

EP - 1091

JO - Nature Ecology and Evolution

JF - Nature Ecology and Evolution

SN - 2397-334X

ER -