Abstract
Bird‐mediated dispersal is presumed to be important in the dissemination of many different types of organisms, but concrete evidence remains scarce. This is especially true for biota producing microscopic propagules. Tree‐dwelling birds, such as woodpeckers, would seem to represent ideal dispersal vectors for organisms growing on standing tree trunks such as epiphytic lichens and fungi. Here, we utilize bird natural history collections as a novel source of data for studying dispersal ecology of plants, fungi, and microorganisms. We screened freshly preserved specimens of three Finnish woodpecker species for microscopic propagules. Samples were taken from bird feet, and chest and tail feathers. Propagules were extracted using a sonication–centrifugation protocol, and the material obtained was studied using light microscopy. Diverse biological material was recovered from all specimens of all bird species, from all positions sampled. Most abundant categories of discovered biological material included bryophyte fragments, fungal spores, and vegetative propagules of lichens. Also, freshwater diatoms, bryophyte spores, algal cells, testate amebae, rotifers, nematodes, pollen, and insect scales were identified. The method developed here is applicable to living specimens as well, making it a versatile tool for further research. Our findings highlight the potential of bird‐mediated dispersal for diverse organisms and showcase the use of natural history collections in ecological research.
Highlights
Dispersal is a fundamental factor that shapes the distribution of organisms in nature
Previous work has often focused on endozoochory, for example, dispersal internally via ingested seeds or other dispersal units (Costa et al, 2014)
Among lichenized fungi, observational studies of bird-mediated dispersal are mainly restricted to thallus fragments attached to bird feet (Bailey & James, 1979) and the use of lichen thalli as nest-building material (Graves & Forno, 2018; Parnikoza et al, 2018)
Summary
Dispersal is a fundamental factor that shapes the distribution of organisms in nature. While long-distance dispersal undoubtedly is the best explanation for many observed species distribution patterns (Garrido-Benavent & Perez-Ortega, 2017; Lewis et al, 2014), mechanisms that could facilitate such dispersal events are not thoroughly investigated. Among lichenized fungi, observational studies of bird-mediated dispersal are mainly restricted to thallus fragments attached to bird feet (Bailey & James, 1979) and the use of lichen thalli as nest-building material (Graves & Forno, 2018; Parnikoza et al, 2018). Observational evidence of microscopic lichen propagules, such as spores or vegetative dispersal units, being attached to bird plumage is meager (Lewis, Behling, et al, 2014; Warner & French, 1970), and a recent review of bird–fungal interactions did not mention lichens at all (Elliott et al, 2019)
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