Publikationsdatum:
2015-06-30
Beschreibung:
CO 2 outgassing across water-air interface is an important, but poorly quantified, component of riverine carbon cycle, largely because the data needed for flux calculations are spatially and temporally sparse. Based on compiled datasets measured throughout the Yellow River watershed and chamber measurements on the mainstem, this study investigates CO 2 evasion and assesses its implications for riverine carbon cycle. Fluxes of CO 2 evasion present significant spatial and seasonal variations. High effluxes are estimated in regions with intense rock weathering or severe soil erosion that mobilizes organic carbon into the river network. By integrating seasonal changes of water surface area and gas transfer velocity ( k ), the CO 2 efflux is estimated at 7.9±1.2 Tg C yr −1 with a mean k of 42.1±16.9 cm h −1 . Unlike in lake and estuarine environments where wind is the main generator of turbulence, k is more correlated with flow velocity changes. CO 2 evasion in the Yellow River network constitutes an important pathway in its riverine carbon cycling. Analyzing the watershed-scale carbon budget indicates that 35% of the carbon exported into the Yellow River network from land is degassed during fluvial transport. The CO 2 efflux is comparable to the carbon burial rate, while both larger than the fluvial export to the ocean. Comparing CO 2 evasion with ecosystem productivity in the Yellow River watershed shows that its ecosystem carbon sink has previously been overestimated by 〉50%. Present efflux estimates are associated with uncertainty, and future work is needed to mechanistically understand CO 2 evasion from the highly turbid waters.
Print ISSN:
0148-0227
Thema:
Biologie
,
Geologie und Paläontologie
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