R. France, CRITICAL-EXAMINATION OF STABLE-ISOTOPE ANALYSIS AS A MEANS FOR TRACING CARBON PATHWAYS IN STREAM ECOSYSTEMS, Canadian journal of fisheries and aquatic sciences, 52(3), 1995, pp. 651-656
Existing data conflict as to the capability of stable isotope analysis
(SIA) for distinguishing carbon pathways in stream ecosystems. I comp
iled 803 published measurements of delta(13)C for allochthonous litter
and both lotic attached algae and consumers to search for general pat
terns that transcend individual studies. Half of the fishes and 30% of
the invertebrates exhibited delta(13)C values outside the range that
could be ascribed to allochthonous litter. The enormous variability in
attached algal delta(13)C from -40 to -20 parts per thousand (mean +/
- SD = -29 +/- 4) completely enveloped that observed for terrestrial l
eaf litter (mean = -28 +/- 1 parts per thousand). Therefore, for 50% o
f the fishes and 70% of the invertebrates it was impossible to discrim
inate between allochthonous and autochthonous carbon dependency. Fauna
l delta(13)C did not change in any quantitatively predictable manner w
ith removal of riparian trees. Three conclusions are possible from thi
s secondary analysis: (I) autotrophic pathways within forested headwat
ers are much more important to lotic foodwebs than would be suggested
by their particulate inputs alone; (2) the great variability in attach
ed algal delta(13)C may often preclude use of SIA for identifying carb
on pathways in stream ecosystems; thus (3) the utility of carbon SIA i
n understanding anthropogenic alterations to the carbon budget of stre
ams is presently minimal.