Diffusive CH_4 fluxes from aquaculture ponds using floating chambers and thin boundary layer equations

Yang Ping; Huang Jiafang; Yang Hong; Penuelas Josep; Tang Kam W.; Lai Derrick Y. F.; Wang Dongqi; Xiao Qitao; Sardans Jordi; Zhang Yifei; Tong Chuan

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Diffusive CH_4 fluxes from aquaculture ponds using floating chambers and thin boundary layer equations

机译：使用浮室和薄边界层方程从水产养殖池中扩散CH_4助熔剂

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Static floating chambers (FCs) are the conventional method to measure CH4 fluxes across the water-air interface in ponds, while thin boundary layer (TBL) modelling is increasingly used to estimate CH4 fluxes. In this study, both FCs measurements and TBL models of gas transfer velocity were used to determine CH4 evasion from aquaculture ponds in southeastern China. The surface water CH4 concentrations ranged from 0.4 to 9.1 ?mol L-1 with an average of 4.8 ? 0.8 ?mol L-1. CH4 flux was always positive, indicating the ponds as a persistent CH4 source to air. Mean CH4 flux based on different TBL models showed large variations, ranging between 19 and 316 ?mol m- 2 h-1. Compared against the direct measurement FCs, three TBL models developed for the open sea, flowing estuarine system and lentic ecosystem (TBLW92a, TBLRC01, and TBLCL98, respectively) overestimated CH4 emission by 40?200%, while the wind tunnel-based TBL model (TBLLM86) underestimated CH4 emission. Two TBL models developed for lakes (TBLW92b and TBLCW03) gave estimates similar to FCs.

机译：静态浮腔（FCS）是测量池塘中水空气界面上的CH4助熔剂的常规方法，而薄边界层（TBL）建模越来越多地用于估计CH4助熔剂。在该研究中，使用FCS测量和TBL模型的气体传递速度模型来确定中国东南水产养殖池的CH4逃避。表面水CH4浓度范围为0.4至9.1〜9.1摩尔L-1，平均为4.8？ 0.8？mol L-1。 CH4助焊剂始终是阳性的，表示池塘作为持久的CH4源到空气。基于不同TBL模型的平均CH4通量显示出大的变化，范围为19和316？mol M-2 H-1。对直接测量的FC相比，三个TBL型号为公海开发，流动河口系统和静水生态系统（TBLW92a，TBLRC01和TBLCL98，分别）高估了40？200％CH4排放，而风基于隧道的TBL模型（ TBLLM86）低估了CH4排放。为湖泊开发的两个TBL模型（TBLW92B和TBLCW03）给出了类似于FCS的估计。

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来源
《Atmospheric environment》 |2021年第5期|118384.1-118384.10|共10页
作者
Yang Ping; Huang Jiafang; Yang Hong; Penuelas Josep; Tang Kam W.; Lai Derrick Y. F.; Wang Dongqi; Xiao Qitao; Sardans Jordi; Zhang Yifei; Tong Chuan;
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作者单位

Fujian Normal Univ Key Lab Humid Subtrop Ecogeog Proc Minist Educ Fuzhou 350007 Peoples R China|Fujian Normal Univ Sch Geog Sci Fuzhou 350007 Peoples R China;

Fujian Normal Univ Key Lab Humid Subtrop Ecogeog Proc Minist Educ Fuzhou 350007 Peoples R China|Fujian Normal Univ Sch Geog Sci Fuzhou 350007 Peoples R China;

Fujian Normal Univ Coll Environm Sci & Engn Fuzhou 350007 Peoples R China|Nanjing Univ Informat Sci & Technol Collaborat Innovat Ctr Atmospher Environm & Equip Sch Environm Sci & Engn Jiangsu Key Lab Atmospher Environm Monitoring & P Nanjing 210044 Peoples R China|Univ Reading Dept Geog & Environm Sci Reading RG6 6AB Berks England;

CREAF CSIC UAB CSIC Global Ecol Unit Bellaterra Catalonia Spain|CREAF Cderdanyola Del Valles Catalonia Spain;

Swansea Univ Dept Biosci Swansea SA2 8PP W Glam Wales;

Chinese Univ Hong Kong Dept Geog & Resource Management Shatin Hong Kong Peoples R China;

East China Normal Univ Sch Geog Sci Shanghai 200241 Peoples R China;

Chinese Acad Sci Nanjing Inst Geog & Limnol Key Lab Watershed Geog Sci Nanjing 210008 Peoples R China;

CREAF CSIC UAB CSIC Global Ecol Unit Bellaterra Catalonia Spain|CREAF Cderdanyola Del Valles Catalonia Spain;

Fujian Normal Univ Key Lab Humid Subtrop Ecogeog Proc Minist Educ Fuzhou 350007 Peoples R China|Fujian Normal Univ Sch Geog Sci Fuzhou 350007 Peoples R China;

Fujian Normal Univ Key Lab Humid Subtrop Ecogeog Proc Minist Educ Fuzhou 350007 Peoples R China|Fujian Normal Univ Sch Geog Sci Fuzhou 350007 Peoples R China;

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正文语种 eng
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关键词
Methane fluxes; Thin boundary layer models; Floating chambers; Water-air interface; Shallow aquaculture pond; Subtropical estuary;

机译：甲烷通量;薄边界层模型;浮室;水 - 空气界面;浅水养殖池塘;亚热带河口;

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1. Large Fine-Scale Spatiotemporal Variations of CH_4 Diffusive Fluxes From Shrimp Aquaculture Ponds Affected by Organic Matter Supply and Aeration in Southeast China [J] . Ping Yang, Yan Zhang, Hong Yang, Journal of Geophysical Research. Biogeosciences . 2019,第5期

机译：CH_4虾水产养殖池中CH_4扩散通量的大型微量空间变化，受到了中国东南部的有机质供应和曝气的影响
2. Methane and carbon dioxide fluxes over a lake: comparison between eddy covariance, floating chambers and boundary layer method [J] . Erkkil? Kukka-Maaria, Ojala Anne, Bastviken David, Biogeosciences . 2018,第2期

机译：湖泊中甲烷和二氧化碳通量：涡流协方差，浮室和边界层法之间的比较
3. Methane and carbon dioxide fluxes over a lake: comparison between eddy covariance, floating chambers and boundary layer method [J] . Erkkil? Kukka-Maaria, Ojala Anne, Bastviken David, Biogeosciences Discussions . 2018,第2期

机译：湖泊中甲烷和二氧化碳通量：涡流协方差，浮室和边界层法之间的比较
4. Handling of the 3D Behaviour of the Unsaturated Layer using a Vertical 1D Model for the Richards Equation along with Diffusive Horizontal Fluxes [C] . R. Paulus, P. Archambeau, S. Erpicum, IAHR Congress . 2011

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5. Analysis and approximation of linear and nonlinear partial differential equations: Boundary layers, atmospheric equations, change of phase. [D] . Hong, Youngjoon. 2015

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6. Analytic Approximate Solutions to the Boundary Layer Flow Equation over a Stretching Wall with Partial Slip at the Boundary [O] . Remus-Daniel Ene, Vasile Marinca, Bogdan Marinca -1

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Diffusive CH_4 fluxes from aquaculture ponds using floating chambers and thin boundary layer equations

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