Fragmentation of nest and foraging habitat affects time budgets of solitary bees, their fitness and pollination services, depending on traits: Results from an individual-based model
Authored by Jeroen Everaars, Josef Settele, Carsten F Dormann
Date Published: 2018
DOI: 10.1371/journal.pone.0188269
Sponsors:
European Union
Platforms:
C++
Model Documentation:
ODD
Flow charts
Model Code URLs:
https://journals.plos.org/plosone/article/file?type=supplementary&id=info:doi/10.1371/journal.pone.0188269.s005
Abstract
Solitary bees are important but declining wild pollinators. During daily
foraging in agricultural landscapes, they encounter a mosaic of patches
with nest and foraging habitat and unsuitable matrix. It is
insufficiently clear how spatial allocation of nesting and foraging
resources and foraging traits of bees affect their daily foraging
performance. We investigated potential brood cell construction (as proxy
of fitness), number of visited flowers, foraging habitat visitation and
foraging distance (pollination proxies) with the model SOLBEE
(simulating pollen transport by solitary bees, tested and validated in
an earlier study), for landscapes varying in landscape fragmentation and
spatial allocation of nesting and foraging resources. Simulated bees
varied in body size and nesting preference. We aimed to understand
effects of landscape fragmentation and bee traits on bee fitness and the
pollination services bees provide, as well as interactions between them,
and the general consequences it has to our understanding of the system.
This broad scope gives multiple key results. 1) Body size determines
fitness more than landscape fragmentation, with large bees building
fewer brood cells. High pollen requirements for large bees and the
related high time budgets for visiting many flowers may not compensate
for faster flight speeds and short handling times on flowers, giving
them overall a disadvantage compared to small bees. 2) Nest preference
does affect distribution of bees over the landscape, with cavity-nesting
bees being restricted to nesting along field edges, which inevitably
leads to performance reductions. Fragmentation mitigates this for
cavity-nesting bees through increased edge habitat. 3) Landscape
fragmentation alone had a relatively small effect on all responses.
Instead, the local ratio of nest to foraging habitat affected bee
fitness positively through reduced local competition. The spatial
coverage of pollination increases steeply in response to this ratio for
all bee sizes. The nest to foraging habitat ratio, a strong habitat
proxy incorporating fragmentation could be a promising and practical
measure for comparing landscape suitability for pollinators. 4) The
number of flower visits was hardly affected by resource allocation, but
predominantly by bee size. 5) In landscapes with the highest visitation
coverage, bees flew least far, suggesting that these pollination proxies
are subject to a trade-off between either longer pollen transport
distances or a better pollination coverage, linked to how nests are
distributed over the landscape rather than being affected by bee size.
Tags
Honey-bees
Species responses
Natural enemies
Landscape context
Plant reproductive success
Megachile-rotundata
European community
Crop pollination
Leafcutting bee
Nomia-melanderi