Potential impact of Chironomus plumosus larvae on hypolimnetic oxygen in the central basin of Lake Erie

Previous studies have indicated that burrow-irrigating infauna can increase sediment oxygen demand (SOD) and impact hypolimnetic oxygen in stratified lakes. We conducted laboratory microcosm experiments and computer simulations with larvae of the burrowing benthic midge Chironomus plumosus to quantify burrow oxygen uptake rates and subsequent contribution to sediment oxygen demand in central Lake Erie. Burrow oxygen uptake and water flow velocities through burrows were measured using oxygen microelectrodes and hot film anemometry, respectively. Burrow oxygen consumption averaged 2.66 x 10(-10) (SE = +/- 7.82 x 10(-11)) mol O-2/burrow/s at 24 degrees C and 9.64 x 10(-10) (SE = +/- 4.86 x 10(-10)) mol O-2/burrow/s at 15 degrees C. In sealed microcosm experiments, larvae increased SOD 500% at 24 degrees C (density = 1508/m(2)) and 375% at 15 degrees C (density = 864/m(2)). To further evaluate effects of densities of C. plumosus burrows on SOD we developed a 3-D transport reaction model of the process. Using experimental data and chironomid abundance data in faunal surveys in 2009 and 2010, we estimated that bioirrigation by a population of 140 larvae/m(2) could account for between 2.54 x 10(-11) mol/L/s (model results) and 5.58 x 10(-11) mol/L/s (experimental results) of the average 4.22 x 10(-11) mol/L/s oxygen depletion rate between 1970 and 2003, which could have accounted for 60-132% of the oxygen decline. At present, it appears that the population density of this species may be an important factor in development of hypoxic or anoxic conditions in central Lake Erie. (C) 2015 International Association for Great Lakes Research. Published by Elsevier B.V. All rights reserved.