Data from: Successional dynamics of the bee community in a tropical dry forest: insights from taxonomy and functional ecology
Despite the recent rapid growth of tropical dry forest succession ecology, most studies on this topic have focused on plant community attribute recovery, whereas animal community successional dynamics has been largely overlooked, and the few existing studies have used taxonomic approaches. Here, we...
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Zusammenfassung: | Despite the recent rapid growth of tropical dry forest succession ecology,
most studies on this topic have focused on plant community attribute
recovery, whereas animal community successional dynamics has been largely
overlooked, and the few existing studies have used taxonomic approaches.
Here, we analyze the successional changes in the bee community in a
Mexican tropical dry forest, by integrating taxonomic (species, genus, and
family diversity) and functional (sociability, nesting strategy, and body
size) information for bees. Over one year, in a successional
chronosequence (2–67 years after abandonment) we collected 469 individual
bees, representing five families, 36 genera and 69 species. Linear
modeling showed decreases in taxonomic diversity with succession, more
strongly so for species. Bee species turnover along succession ranged from
moderate to high, decreasing slightly at intermediate stages. An RLQ
analysis (ordination method that allows relating environmental variables
with functional attributes) revealed clear relations between bee
functional traits and the plant community. RLQ axis 1 was positively
related to vegetation structural and diversity variables, and to
eusociality, whilst solitary, parasociality and ground nesting were
negatively associated with it. Early successional fallows attract mostly
solitary and parasocial bees; older fallows tend to attract eusocial bees
with aerial nesting. The continuous taxonomic turnover observed by us and
the functional analysis suggest that the disappearance of old fallows from
agricultural landscapes would likely result in significant reductions and
even local extinctions of particular bee guilds. Considering the low
viability of preserving large mature tropical dry forest tracts, the
conservation of older successional stands emerges as a crucial component
of landscape management. |
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DOI: | 10.5061/dryad.28hv53f |