Widespread dominance of methane ebullition over diffusion in freshwater aquaculture ponds

IF 2.6 Q2 WATER RESOURCES
Renske J. E. Vroom, Sarian Kosten, Rafael M. Almeida, Raquel Mendonça, Ive S. Muzitano, Icaro Barbosa, Jonas Nasário, Ernandes S. Oliveira Junior, Alexander S. Flecker, Nathan Barros
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Abstract

An ever-increasing demand for protein-rich food sources combined with dwindling wild fish stocks has caused the aquaculture sector to boom in the last two decades. Although fishponds are potentially strong emitters of the greenhouse gas methane (CH 4 ), little is known about the magnitude, pathways, and drivers of these emissions. We measured diffusive CH 4 emissions at the margin and in the center of 52 freshwater fishponds in Brazil. In a subset of ponds ( n = 31) we additionally quantified ebullitive CH 4 fluxes and sampled water and sediment for biogeochemical analyses. Sediments ( n = 20) were incubated to quantify potential CH 4 production. Ebullitive CH 4 emissions ranged between 0 and 477 mg m −2 d −1 and contributed substantially (median 85%) to total CH 4 emissions, surpassing diffusive emissions in 81% of ponds. Diffusive CH 4 emissions were higher in the center (median 11.4 mg CH 4 m −2 d −1 ) than at the margin (median 6.1 mg CH 4 m −2 d −1 ) in 90% of ponds. Sediment CH 4 production ranged between 0 and 3.17 mg CH 4 g C −1 d −1 . We found no relation between sediment CH 4 production and in situ emissions. Our findings suggest that dominance of CH 4 ebullition over diffusion is widespread across aquaculture ponds. Management practices to minimize the carbon footprint of aquaculture production should focus on reducing sediment accumulation and CH 4 ebullition.
淡水养殖池塘中甲烷沸腾比扩散普遍占优势
对富含蛋白质的食物来源的需求不断增加,加上野生鱼类资源的减少,导致水产养殖部门在过去二十年中蓬勃发展。虽然鱼塘是温室气体甲烷(ch4)的潜在强排放源,但人们对这些排放的规模、途径和驱动因素知之甚少。我们在巴西52个淡水鱼塘的边缘和中心测量了漫漫性甲烷排放。在一个池塘子集(n = 31)中,我们还量化了沸腾ch4通量,并采样了水和沉积物用于生物地球化学分析。沉积物(n = 20)孵育以量化潜在的甲烷产量。冒泡式甲烷排放量在0 ~ 477 mg m - 2 d - 1之间,对总甲烷排放量的贡献很大(中位数为85%),在81%的池塘中超过漫漫式排放。在90%的池塘中,中心的漫漫性甲烷排放(平均11.4 mg CH 4 m−2 d−1)高于边缘(平均6.1 mg CH 4 m−2 d−1)。沉积物的甲烷产量在0 ~ 3.17 mg甲烷g C−1 d−1之间。我们发现沉积物ch4产量与原位排放之间没有关系。我们的研究结果表明,在水产养殖池塘中,甲烷的沸腾比扩散更占优势。尽量减少水产养殖生产碳足迹的管理实践应侧重于减少沉积物积聚和ch4泡涨。
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来源期刊
Frontiers in Water
Frontiers in Water WATER RESOURCES-
CiteScore
4.00
自引率
6.90%
发文量
224
审稿时长
13 weeks
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