TY - JOUR
T1 - Effects of chronic chlorine exposure on litter processing in outdoor experimental streams
AU - NEWMAN, RAYMOND M.
AU - PERRY, JAMES A.
AU - TAM, ERIC
AU - CRAWFORD, RONALD L.
PY - 1987
Y1 - 1987
N2 - SUMMARY 1. The effects of chlorine on litter (Potamogeton crispusL.) processing were examined using six outdoor experimental streams. Downstream portions of two streams were dosed at c. 10 μg l−1 Total Residual Chlorine (TRC), one stream at 64 μgl1, and one stream at 230μg l−1. Two control streams were not dosed; upstream riffles of each stream served as instream controls. 2. Two 35 day litter breakdown (per cent AFDW remaining) experiments indicated significantly lower decay rates in the high dose riffle. No other concentration of chlorine significantly affected decay rate. 3. A third experiment, conducted in medium and high dose streams, indicated that high dose chlorine exposure reduced litter decomposition rates significantly, and reduced microbial colonization, microbial electron transport system activity, and microbial litter decomposition after 4 days but not after 11 days of exposure. The number of amphipod shredders colonizing litter bags was also reduced significantly with high chlorine dose. 4. A fourth experiment, after dosing was terminated, provided direct evidence that amphipod shredders were important in facilitating litter decomposition: litter bags stocked with amphipods had significantly higher decomposition rates than bags which excluded shredders. 5. Overall results indicate that the high dose (c. 230 μgl−1 TRC) of chlorine reduced litter processing rates partly by reducing initial microbial conditioning, but primarily by reducing the colonization of amphipod shredders. Copyright © 1987, Wiley Blackwell. All rights reserved
AB - SUMMARY 1. The effects of chlorine on litter (Potamogeton crispusL.) processing were examined using six outdoor experimental streams. Downstream portions of two streams were dosed at c. 10 μg l−1 Total Residual Chlorine (TRC), one stream at 64 μgl1, and one stream at 230μg l−1. Two control streams were not dosed; upstream riffles of each stream served as instream controls. 2. Two 35 day litter breakdown (per cent AFDW remaining) experiments indicated significantly lower decay rates in the high dose riffle. No other concentration of chlorine significantly affected decay rate. 3. A third experiment, conducted in medium and high dose streams, indicated that high dose chlorine exposure reduced litter decomposition rates significantly, and reduced microbial colonization, microbial electron transport system activity, and microbial litter decomposition after 4 days but not after 11 days of exposure. The number of amphipod shredders colonizing litter bags was also reduced significantly with high chlorine dose. 4. A fourth experiment, after dosing was terminated, provided direct evidence that amphipod shredders were important in facilitating litter decomposition: litter bags stocked with amphipods had significantly higher decomposition rates than bags which excluded shredders. 5. Overall results indicate that the high dose (c. 230 μgl−1 TRC) of chlorine reduced litter processing rates partly by reducing initial microbial conditioning, but primarily by reducing the colonization of amphipod shredders. Copyright © 1987, Wiley Blackwell. All rights reserved
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U2 - 10.1111/j.1365-2427.1987.tb01327.x
DO - 10.1111/j.1365-2427.1987.tb01327.x
M3 - Article
SN - 0046-5070
VL - 18
SP - 415
EP - 428
JO - Freshwater Biology
JF - Freshwater Biology
IS - 3
ER -