Allochthonous liter inputs, organic matter standing stocks and organic seston dynamics in upland Panamanian streams: Potential effects of larval amphibians on organic matter dynamics.
Abstract:
Allochthonous inputs of detritus represent
an important energy source for streams in forested
regions, but dynamics of these materials are not well
studied in neotropical headwater streams. As part of
the tropical amphibian declines in streams (TADS)
project, we quantified benthic organic matter standing
stocks and organic seston dynamics in four Panamanian
headwater streams, two with (pre-amphibian
decline) and two without (post-decline) healthy
amphibian assemblages. We also measured direct
litterfall and lateral litter inputs in two of these
streams. Continuous litterfall and monthly benthic
samples were collected for 1 year, and seston was
collected 1–3 times/month for 1 year at or near
baseflow. Direct litterfall was similar between the
two streams examined, ranging from 934–1,137 g
DM m-2 y-1. Lateral inputs were lower, ranging
from 140–187 gDMm-1 y-1. Dead leaves (57–60%),
wood (24–29%), and green leaves (8–9%) contributed
most to inputs, and total inputs were generally higher
during the rainy season. Annual habitat-weighted
benthic organic matter standing stocks ranged from
101–171 g AFDM m-2 across the four study reaches,
with *4 9 higher values in pools compared to
erosional habitats. Total benthic organic matter
(BOM) values did not change appreciably with season,
but coarse particulate organic matter (CPOM,[1 mm)
generally decreased and very fine particulate organic
matter (VFPOM, 1.6–250 lm) generally increased
during the dry season. Average annual seston concentrations
ranged from 0.2–0.6 mg AFDM l-1
(fine seston, \754 lm [250 lm) and 2.0–4.7 mg
AFDM l-1 (very fine,\250 lm[1.6 lm), with very
fine particles composing 85–92% of total seston.
Quality of fine seston particles in the two reaches
where tadpoles were present was significantly higher
(lower C/N) than the two where tadpoles had been
severely reduced (P = 0.0028), suggesting that ongoing
amphibian declines in this region are negatively
influencing the quality of particles exported from
headwaters. Compared to forested streams in other
regions, these systems receive relatively high amounts
of allochthonous litter inputs but have low in-stream
storage.
Colon-Gaud, C., S. Peterson, M. Whiles, S. S. Kilham, K. R. Lips, and C. M. Pringle. 2008. Allochthonous liter inputs, organic matter standing stocks and organic seston dynamics in upland Panamanian streams: Potential effects of larval amphibians on organic matter dynamics. Hydrobiologia. xx: xx-xx.
Back to Literature Page
| Pringle's Home Page | University of Georgia | Odum School of Ecology |