Drivers of Seasonal and Diel Methane Emissions From a Seagrass Ecosystem

IF 3.7 3区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
Linnea Henriksson, Yvonne Y. Y. Yau, Claudia Majtényi-Hill, Wilma Ljungberg, Aprajita S. Tomer, Shibin Zhao, Fenfang Wang, Alex Cabral, Maria Asplund, Isaac R. Santos
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Abstract

Seagrass meadows are effective sinks of atmospheric carbon dioxide (CO2). However, there is little insight on how methane (CH4) emissions may potentially offset carbon sequestration in seagrass meadows. Here, we resolve diel and seasonal dynamics of CH4 and CO2 water-air fluxes over a cold-temperate Zostera marina seagrass meadow using high-resolution timeseries observations in seawater. CH4 was emitted from the seagrass-dominated coastal bay year-round to atmosphere with CH4 fluxes ranging from 0.2 to 2.6 μmol m−2 d−1. These fluxes are at the lower end of earlier estimates based mostly on short-term (i.e., 1 day) observations. The 13-fold seasonal fluctuations in CH4 emissions were greater than the 6-fold diel fluctuation. Radon observations imply that dissolved CH4 was primarily originated from sediment porewater. The main fate of CH4 in the water was outgassing to the atmosphere via wind forcing. Oxygen and temperature partially controlled dissolved CH4 seasonal dynamics. There was an annual average uptake of CO2 from the atmosphere (−0.9 ± 1.5 mmol m−2 d−1) driven by enhanced photosynthesis in the spring and summer. The CO2-equivalent CH4 outgassing (0.5 ± 0.6 g CO2 eq m−2 yr−1) offsets only 0.8% of the sediment carbon accumulation in this cold-temperate Z. marina meadows over a 20-year time horizon. The CO2-equivalent CH4 flux was 6% of the average annual CO2 uptake. Hence, CH4 emissions from this cold-temperate seagrass meadow acted as a minor offset to carbon sequestration.

Abstract Image

海草生态系统季节性和昼夜甲烷排放的驱动因素
海草草甸是大气二氧化碳(CO2)的有效吸收汇。然而,人们对甲烷(CH4)排放如何可能抵消海草草甸的碳封存作用知之甚少。在这里,我们利用海水中的高分辨率时间序列观测数据,解析了寒温带海草(Zostera marina)海草草甸上 CH4 和 CO2 水气通量的昼夜和季节动态。以海草为主的海湾全年向大气排放 CH4,CH4 通量为 0.2 至 2.6 μmol m-2 d-1。这些通量处于早期主要基于短期(即 1 天)观测估计值的下限。CH4 排放量的 13 倍季节波动大于 6 倍日间波动。氡观测结果表明,溶解的甲烷主要来自沉积物孔隙水。水中 CH4 的主要去向是通过风力排入大气。氧气和温度在一定程度上控制着溶解的甲烷的季节动态。在春夏季光合作用增强的驱动下,每年平均从大气中吸收二氧化碳(-0.9 ± 1.5 mmol m-2 d-1)。在 20 年的时间跨度内,二氧化碳当量甲烷排出量(0.5 ± 0.6 g CO2 eq m-2 yr-1)仅能抵消寒温带泽兰草甸沉积物碳积累的 0.8%。二氧化碳当量的甲烷通量是年均二氧化碳吸收量的 6%。因此,这片寒温带海草草甸的甲烷排放量对碳螯合起到了轻微的抵消作用。
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来源期刊
Journal of Geophysical Research: Biogeosciences
Journal of Geophysical Research: Biogeosciences Earth and Planetary Sciences-Paleontology
CiteScore
6.60
自引率
5.40%
发文量
242
期刊介绍: JGR-Biogeosciences focuses on biogeosciences of the Earth system in the past, present, and future and the extension of this research to planetary studies. The emerging field of biogeosciences spans the intellectual interface between biology and the geosciences and attempts to understand the functions of the Earth system across multiple spatial and temporal scales. Studies in biogeosciences may use multiple lines of evidence drawn from diverse fields to gain a holistic understanding of terrestrial, freshwater, and marine ecosystems and extreme environments. Specific topics within the scope of the section include process-based theoretical, experimental, and field studies of biogeochemistry, biogeophysics, atmosphere-, land-, and ocean-ecosystem interactions, biomineralization, life in extreme environments, astrobiology, microbial processes, geomicrobiology, and evolutionary geobiology
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