Abstract
Dispersal is one of the least understood features in the life-history of organisms. Theoretical work concentrates on explaining dispersal of organisms in patchy and heterogeneous landscapes, but there are few predictions of dispersal patterns in stable, spatially extensive and largely homogenous landscapes, such as large forests. It is expected that we should observe short-distance dispersal in such places, that, to avoid competition with parents and siblings and incestuous mating, offspring should leave natal patches (natal dispersal), disperse independently in different directions, and move over distances that efficiently minimise the probability of meeting a sibling. Breeding dispersal should be very limited, site tenacity should prevail. To explore these ideas, I use observations of Marsh Tits Poecile palustris (a small passerine specialist of mature forests) made in the strictly protected part of the Bialowieza National Park (Poland) over 21 years. The birds largely followed expectations: all fledglings left their natal territories and dispersed in different directions, and males moved shorter distances than females (median = 570 vs. 1,720 m). Apart from this difference, no influence of population density, fledgling time or family size was observed. No parent–offspring pairing occurred, with just one case of sibling–sibling pairing. After first breeding, individuals remained site-tenacious, as breeding dispersal distances were very short (median ca. 100 m). Such behaviour renders Marsh Tit poorly adapted to cross barriers and undertake long-distance movements, and this is actually observed in fragmented landscapes. Understanding dispersal patterns of organisms from extensive environments would be thus of value for basic and conservation science alike.
Highlights
Dispersal is one of the most important, yet least understood, features of ecology, population biology and evolution (Wiens 2001)
The maximum dispersal distance which could be recorded within the study areas amounted to 5.5 km, and birds moving any further had only a remote chance of being detected
The distribution of natal dispersal distances and dispersal directions found in this study is not an unbiased sample
Summary
Dispersal is one of the most important, yet least understood, features of ecology, population biology and evolution (Wiens 2001). Theoreticians tend to treat dispersal as a unique phenomenon that could be explained with a single set of rules, in the hope of a general theory of dispersal Achievement of this goal could prove impossible, as qualitatively different phenomena which have only one feature in common (organisms permanently changing their location at some point during their life) are combined under the same name. In a recent review, Matthysen (2012) underlined this multitude of causes and processes of dispersal in different groups of organisms It seems that, even for a single group of organisms (birds) using one habitat type (forest), it would be impossible to formulate a singular explanation. It would appear futile to search for species-independent theory of fragmentation, even with forest specialists only’’
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