Knowing how an increase in the resource base of a food web produces effects
that propagate through the web is central to developing a clearer understa
nding of food-web structure and dynamics. In a detritus-based terrestrial f
ood web, we measured the responses of predaceous arthropods to increases in
prey arthropods that occurred in response to experimentally enhancing the
web's resource base. Open 2 x 5 m plots on the floor of a deciduous forest
were randomly assigned to either a Food Enhancement or Control treatment. W
e supplemented the resource base of the arthropod community of the leaf lit
ter layer for 3.5 mo by periodically adding chopped mushrooms, potatoes, an
d instant fruit fly medium to the Food Enhancement plots. Major taxa of det
ritivores and fungivores increased in response to added food. Densities of
springtails (Collembola) were on average 3x higher in the Food Enhancement
than Control plots. Numbers of adult fungus gnats (Diptera: Sciaridae and M
ycetophilidae) did not differ significantly between treatments after 6 wk b
ut were >2x higher in Food Enhancement plots at the end of the experiment.
Total Diptera were twice as abundant in Food Enhancement plots on both cens
us dates.
Arthropod groups that include a range of feeding strategies also increased.
Mites (Acarina), which include detritivores, fungivores, and predators, we
re twice as abundant in the experimental treatment. Staphylinid and carabid
beetles (Coleoptera), which are primarily predaceous but include omnivorou
s species, were several times more numerous in the Food Enhancement plots.
Effects of increasing the resource base propagated through the food web, le
ading to higher densities of the major strictly predaceous arthropod taxa.
Centipedes (Chilopoda), pseudoscorpions (Pseudoscorpionida), and spiders (A
raneae) were similar to 2X as abundant in the Food Enhancement treatment. T
hus, our experiment uncovered substantial bottom-up limitation in this detr
itus-based food web, expressed as responses by predaceous arthropods at lea
st two trophic links removed from the experimentally elevated resource.