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Knox, S. H.; Windham‐Myers, L.; Anderson, F.; Sturtevant, C.; Bergamaschi, B.
Journal of geophysical research. Biogeosciences, March 2018, 20180301, Letnik: 123, Številka: 3Journal Article
We investigated the direct and indirect influence of tides on net ecosystem exchange (NEE) of carbon dioxide (CO2) in a temperate brackish tidal marsh. NEE displayed a tidally driven pattern with obvious characteristics at the multiday scale, with greater net CO2 uptake during spring tides than neap tides. Based on the relative mutual information between NEE and biophysical variables, this was driven by a combination of higher water table depth (WTD), cooler air temperature, and lower vapor pressure deficit (VPD) during spring tides relative to neap tides, as the fortnightly tidal cycle not only influenced water levels but also strongly modulated water and air temperature and VPD. Tides also influenced NEE at shorter timescales, with a reduction in nighttime fluxes during growing season spring tides when the higher of the two semidiurnal tides caused inundation at the site. WTD significantly influenced ecosystem respiration (Reco), with lower Reco during spring tides than neap tides. While WTD did not appear to affect ecosystem photosynthesis (gross ecosystem production, GPP) directly, the impact of tides on temperature and VPD influenced GPP, with higher daily light‐use efficiency and photosynthetic activity during spring tides than neap tides when temperature and VPD were lower. The strong direct and indirect influence of tides on NEE across the diel and multiday timescales has important implications for modeling NEE in tidal wetlands and can help inform the timing and frequency of chamber measurements as annual or seasonal net CO2 uptake may be underestimated if measurements are only taken during nonflooded periods. Key Points CO2 fluxes fluctuated notably with the biweekly spring‐neap tide cycle, with greater net CO2 uptake during spring tides Water levels significantly influenced measurements of ecosystem respiration with lower respiration when water levels were higher Water levels had little effect on GPP, instead higher photosynthesis during spring tides was caused by lower temperature and VPD
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in: SICRIS
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