Journal
NEW ZEALAND JOURNAL OF MARINE AND FRESHWATER RESEARCH
Volume 55, Issue 3, Pages 411-430Publisher
TAYLOR & FRANCIS LTD
DOI: 10.1080/00288330.2020.1798476
Keywords
Lake; eutrophic; greenhouse gas; CO2; CH4; thermal stratification
Categories
Funding
- NZ-ASEAN Scholarship - Ministry of Business, Innovation Employment [UOWX0505]
- Bay of Plenty Chair in Lake Restoration at the University of Waikato
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This study identified the processes affecting CO2 and CH4 concentrations in Lake Okaro, New Zealand, and found that the lake acted as a sink for atmospheric CO2 and a source for CH4, resulting in a net GHG emission. Although conservative and only applying to diffusive fluxes, the study suggests that eutrophic lakes with high primary production rates may be net sources of GHGs.
Lakes are 'hotspots' for greenhouse gas (GHG) emissions, primarily carbon dioxide (CO2) and methane (CH4). Understanding the processes regulating GHG emissions from lakes, and their temporal variability, is essential for more accurately quantifying the role of lakes in global GHG cycles. In this study, we identified the processes that affect CO(2)and CH(4)concentrations in a small (0.3 km(2)) eutrophic monomictic lake (Okaro, New Zealand). A mass balance model was used to calculate changes in CO(2)and CH(4)storage in the lake as a result of internal cycling and atmospheric fluxes. To support model computations, CO(2)and CH(4)concentrations profiles were measured monthly over a one-year period, in addition to temperature, dissolved oxygen and chlorophylla. Annually, Lake Okaro acted as a sink of CO(2)from the atmosphere (425.4 mmol CO(2)m(-2)y(-1)) and a source of CH4(553.4 mmol CH(4)m(-2)y(-1)) equating to a net GHG emission (diffusive fluxes of CO(2)and CH(4)combined) of 0.22 kg CO2-eq m(-2)y(-1). Although it may be viewed as conservative and applies only to diffusive fluxes, our study indicates that eutrophic lakes with high rates of primary production may act as a net source of GHGs.
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