期刊
LIMNOLOGY AND OCEANOGRAPHY
卷 65, 期 2, 页码 314-324出版社
WILEY
DOI: 10.1002/lno.11299
关键词
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资金
- NSF OCE [1633951, 1635403]
- NASA Fellowship NESSF [NNX15AR62H]
- Hansewissenschaftskolleg (Institute for Advanced Studies)
- Directorate For Geosciences
- Division Of Ocean Sciences [1635403, 1633951] Funding Source: National Science Foundation
Gas ebullition from aquatic systems to the atmosphere represents a potentially important fraction of primary production that goes unquantified by measurements of dissolved gas concentrations. Although gas ebullition from photosynthetic surfaces has often been observed, it is rarely quantified. The resulting underestimation of photosynthetic activity may significantly bias the determination of ecosystem trophic status and estimated rates of biogeochemical cycling from in situ measures of dissolved oxygen. Here, we quantified gas ebullition rates in Zostera marina meadows in Virginia, U.S.A. using simple funnel traps and analyzed the oxygen concentration and isotopic composition of the captured gas. Maximum hourly rates of oxygen ebullition (3.0 mmol oxygen m(-2) h(-1)) were observed during the coincidence of high irradiance and low tides, particularly in the afternoon when oxygen and temperature maxima occurred. The daily ebullition fluxes (up to 11 mmol oxygen m(-2) d(-1)) were roughly equivalent to net primary production rates determined from dissolved oxygen measurements indicating that bubble ebullition can represent a major component of primary production that is not commonly included in ecosystem-scale estimates. Oxygen content comprised 20-40% of the captured bubble gas volume and correlated negatively with its delta O-18 values, consistent with a predominance of mixing between the higher delta O-18 of atmospheric oxygen in equilibrium with seawater and the lower delta O-18 of oxygen derived from photosynthesis. Thus, future studies interested in the metabolism of highly productive, shallow water ecosystems, and particularly those measuring in situ oxygen flux, should not ignore the bubble formation and ebullition processes described here.
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