Detritus fuels ecosystem metabolism but not metazoan food webs in San Francisco estuary's freshwater delta

Estuaries
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Abstract

Detritus from terrestrial ecosystems is the major source of organic matter in many streams, rivers, and estuaries, yet the role of detritus in supporting pelagic food webs is debated. We examined the importance of detritus to secondary productivity in the Sacramento and San Joaquin River Delta (California, United States), a large complex of tidal freshwater habitats. The Delta ecosystem has low primary productivity but large detrital inputs, so we hypothesized that de tritus is the primary energy source fueling production in pelagic food webs. We assessed the sources, quantity, composition, and bioavailability of organic matter among a diversity of habitats (e.g., marsh sloughs, floodplains, tidal lakes, and deep river channels) over two years to test this hypothesis. Our results support the emerging principle that detritus dominates riverine and estuarine organic matter supply and supports the majority of ecosystem metabolism. Yet in contrast to prevailing ideas, we found that detritus was weakly coupled to the Delta's pelagic food web. Results from independent approaches showed that phytoplankton production was the dominant source of organic matter for the Delta's pelagic food web, even though primary production accounts for a small fraction of the Delta's organic matter supply. If these results are general, they suggest that the value of organic matter to higher trophic levels, including species targeted by programs of ecosystem restoration, is a function of phytoplankton production.

Publication type Article
Publication Subtype Journal Article
Title Detritus fuels ecosystem metabolism but not metazoan food webs in San Francisco estuary's freshwater delta
Series title Estuaries
DOI 10.1007/BF02732759
Volume 28
Issue 1
Year Published 2005
Language English
Publisher Springer
Contributing office(s) California Water Science Center, San Francisco Bay-Delta, Pacific Regional Director's Office
Description 14 p.
First page 124
Last page 137
Online Only (Y/N) N
Additional Online Files (Y/N) N
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