Indirect upstream effects of dams: consequences of migratory consumer extirpation in Puerto Rico.
Abstract: Large dams degrade the integrity of a wide variety of ecosystems, yet
direct downstream effects of dams have received the most attention from
ecosystem managers and researchers. We investigated indirect upstream
effects of darns resulting from decimation of migratory freshwater
shrimp and fish populations in Puerto Rico, USA, in both high- and
low-gradient streams. In high-gradient streams above large dams, native
shrimps and fishes were extremely rare, whereas similar sites without
large dams had high abundances of native consumers. Losses of native
fauna above dams dramatically altered their basal food resources and
assemblages of invertebrate competitors and prey. Compared to pools in
high-gradient streams with no large dams, pool epilithon above dams had
nine times more algal biomass, 20 times more fine benthic organic
matter (FBOM), 65 times more fine benthic inorganic matter. (FBIM), 28
times more carbon, 19 times more nitrogen, and four times more
non-decapod invertebrate biomass. High-gradient riffles upstream from
large dams had five times more FBIM than did undammed riffles but
showed no difference in algal abundance, FBOM, or non-decapod
invertebrate biomass. For epilithon of low-gradient streams,
differences in basal resources between pools above large dams vs.
without large dams were considerably smaller in magnitude than those
observed for pools in high-gradient sites. These results match previous
stream experiments in which the strength of native shrimp and fish
effects increased with stream gradient. Our results demonstrate that
darns can indirectly affect upstream free-flowing reaches by
eliminating strong top-down effects of consumers. Migratory omnivorous
shrimps and fishes occur throughout the tropics, and the consequences
of their declines upstream from many tropical dams are likely to be
similar to those in Puerto Rico. Thus, ecological effects of migratory
fauna loss upstream from dams encompass a wider variety of species
interactions and biomes than the bottom-up, effects (i.e., elimination
of salmonid nutrient subsidies) recognized for northern temperate
systems.
Greathouse, E. A., C. M. Pringle, W. H. McDowell, and J. G. Holmquist. 2006. Indirect upstream effects of dams: consequences of migratory consumer extirpation in Puerto Rico. Ecological Applications 16: 339-352.
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