TY - JOUR
T1 - Contrasting Ecosystem-Effects of Morphologically Similar Copepods
AU - Blake, Matthews
AU - Hausch, Stephen
AU - Winter, Christian
AU - Suttle, Curtis
AU - Shurin, Jonathan B.
N1 - ***<REP_Import><OA_Full_2012>135022.28</OA_Full_2012></REP_Import>***doi:10.1371/journal.pone.0026700
PY - 2011
Y1 - 2011
N2 - Organisms alter the biotic and abiotic conditions of ecosystems. They can modulate the availability of resources to other
species (ecosystem engineering) and shape selection pressures on other organisms (niche construction). Very little is known
about how the engineering effects of organisms vary among and within species, and, as a result, the ecosystem
consequences of species diversification and phenotypic evolution are poorly understood. Here, using a common gardening
experiment, we test whether morphologically similar species and populations of Diaptomidae copepods (Leptodiaptomus
ashlandi, Hesperodiaptomus franciscanus, Skistodiaptomus oregonensis) have similar or different effects on the structure and
function of freshwater ecosystems. We found that copepod species had contrasting effects on algal biomass, ammonium
concentrations, and sedimentation rates, and that copepod populations had contrasting effects on prokaryote abundance,
sedimentation rates, and gross primary productivity. The average size of ecosystem-effect contrasts between species was
similar to those between populations, and was comparable to those between fish species and populations measured in
previous common gardening experiments. Our results suggest that subtle morphological variation among and within
species can cause multifarious and divergent ecosystem-effects. We conclude that using morphological trait variation to
assess the functional similarity of organisms may underestimate the importance of species and population diversity for
ecosystem functioning.
AB - Organisms alter the biotic and abiotic conditions of ecosystems. They can modulate the availability of resources to other
species (ecosystem engineering) and shape selection pressures on other organisms (niche construction). Very little is known
about how the engineering effects of organisms vary among and within species, and, as a result, the ecosystem
consequences of species diversification and phenotypic evolution are poorly understood. Here, using a common gardening
experiment, we test whether morphologically similar species and populations of Diaptomidae copepods (Leptodiaptomus
ashlandi, Hesperodiaptomus franciscanus, Skistodiaptomus oregonensis) have similar or different effects on the structure and
function of freshwater ecosystems. We found that copepod species had contrasting effects on algal biomass, ammonium
concentrations, and sedimentation rates, and that copepod populations had contrasting effects on prokaryote abundance,
sedimentation rates, and gross primary productivity. The average size of ecosystem-effect contrasts between species was
similar to those between populations, and was comparable to those between fish species and populations measured in
previous common gardening experiments. Our results suggest that subtle morphological variation among and within
species can cause multifarious and divergent ecosystem-effects. We conclude that using morphological trait variation to
assess the functional similarity of organisms may underestimate the importance of species and population diversity for
ecosystem functioning.
U2 - 10.1371/journal.pone.0026700
DO - 10.1371/journal.pone.0026700
M3 - Article
SN - 1932-6203
JO - PLoS ONE
JF - PLoS ONE
ER -