Publication Details

Category Text Publication
Reference Category Journals
DOI 10.1111/1365-2656.12609
Title (Primary) Does movement behaviour predict population densities? A test with 25 butterfly species
Author Schultz, C.B.; Pe'er, B.G.; Damiani, C.; Brown, L.; Crone, E.E.
Source Titel Journal of Animal Ecology
Year 2017
Department OEKON; NSF; iDiv
Volume 86
Issue 2
Page From 384
Page To 393
Language englisch
Keywords butterflies; correlated random walk; diffusion; dispersal; expected net squared displacement; movement ecology
UFZ wide themes RU6
Abstract
  1. Diffusion, which approximates a correlated random walk, has been used by ecologists to describe movement, and forms the basis for many theoretical models. However, it is often criticized as too simple a model to describe animal movement in real populations.
  2. We test a key prediction of diffusion models, namely, that animals should be more abundant in land cover classes through which they move more slowly. This relationship between density and diffusion has rarely been tested across multiple species within a given landscape.
  3. We estimated diffusion rates and corresponding densities of 25 Israeli butterfly species from flight path data and visual surveys. The data were collected across 19 sites in heterogeneous landscapes with four land cover classes: semi-natural habitat, olive groves, wheat fields and field margins.
  4. As expected from theory, species tended to have higher densities in land cover classes through which they moved more slowly and lower densities in land cover classes through which they moved more quickly. Two components of movement (move length and turning angle) were not associated with density, nor was expected net squared displacement. Move time, however, was associated with density, and animals spent more time per move step in areas with higher density.
  5. The broad association we document between movement behaviour and density suggests that diffusion is a good first approximation of movement in butterflies. Moreover, our analyses demonstrate that dispersal is not a species-invariant trait, but rather one that depends on landscape context. Thus, land cover classes with high diffusion rates are likely to have low densities and be effective conduits for movement.
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=18761
Schultz, C.B., Pe'er, B.G., Damiani, C., Brown, L., Crone, E.E. (2017):
Does movement behaviour predict population densities? A test with 25 butterfly species
J. Anim. Ecol. 86 (2), 384 - 393 10.1111/1365-2656.12609