Metabolic rate estimates for a eutrophic lake from diel dissolved oxygen signals |
| |
Authors: | Rakesh K Gelda Steven W Effler |
| |
Institution: | (1) Upstate Freshwater Institute, P.O. Box 506, Syracuse, NY, 13214, U.S.A |
| |
Abstract: | Estimates of net primary production, community respiration (R'), and gross primary production (P
g) are developed and presented for the productive layers of eutrophic Onondaga Lake, NY, U.S.A., for time scales ranging from diel to several months, based on 4 months of robotic diel profiles of dissolved oxygen (DO) and temperature. Metabolic rate calculations are made through application of a DO mass balance framework that also accommodates inputs and losses of DO mediated by exchange across the air–water interface and across the lower boundary of the productive layers. It is demonstrated that the dynamics of the flux across the air–water interface are important to the metabolic rate estimates, while vertical mixing-based losses to the underlying layers can be ignored. Study average estimates of R' (1.49 g O2 m–3 d–1) and P
g (1.60 g O2 m–3 d–1) obtained by this non-isolated community approach are consistent with levels reported in the literature for similar chlorophyll a concentrations, based on isolated community (bottle experiment) protocols to measure these metabolic rates. The non-isolated community approach is shown to have limited utility for quantifying day-to-day changes in these rates in this lake, apparently because of horizontal exchange with waters of different DO concentrations. However, this approach may support reliable estimates of metabolic rates at intermediate time scales; e.g., several days to a week. The DO mass balance framework is demonstrated to be valuable in resolving the relative roles of various physical and biological processes in regulating the DO pool of the productive layers. |
| |
Keywords: | primary production community respiration dissolved oxygen diel metabolic rates |
本文献已被 SpringerLink 等数据库收录! |
|