纪昕彤, 郭凯军 . 反刍动物温室气体排放检测方法综述[J]. 中国乳业, 2024 , 0(11) : 3 -14 . DOI: 10.12377/1671-4393.24.11.01

[1] 叶岩, 祝天宇, 吴泽全,等. 反刍动物甲烷排量监测技术应用研究进展[J].农业机械学报,2022,53(S01): 277-292.
[2] Shenyi G,Zijian Q,Yongyong Z,et al.Spatial-temporal characteristics and trend prediction of carbon emissions from husbandry in China[J]. Journal of Agro-Environment Science,2023,42(3): 10.
[3] Hristov A N,Oh J,Lee C,et al.Mitigation of greenhouse gas emissions in livestock production - A review of technical options for non-CO₂ emissions[M].Fao Animal Production & Health Paper,2013.
[4] Yan Y,Tianyu Z,Zequan W,et al.Research Progress on application of methane emission monitoring technology in ruminants[J]. Transactions of the Chinese Society for Agricultural Machinery, 2022, 53(S01): 277-292.
[5] 刘婧玲,陈艳莹. 数字技术发展,时空动态效应与区域碳排放[J].科学学研究,2023,41(5): 841-853.
[6] 万家豪, 兰元胤. "双碳"背景下碳审计面临的问题及对策[J].现代商贸工业,2023,44(13): 144-146.
[7] 张帆,刁其玉. 畜牧业温室气体排放及其减排研究进展[J].家畜生态学报,2015,36(11): 5.
[8] 石福于,景小平,黄小丹,等. 天然放牧系统反刍动物甲烷排放研究进展[J].中国科学:生命科学,2023,53(7): 916-930.
[9] 陈昱龙, 李锦菲,吴越强,等. 内蒙古21年间家畜甲烷与氧化亚氮排放特征[J].草业科学,2024,41(3):527-538.
[10] 曹珍, 廖新. 家畜胃肠道甲烷减排技术进展[J].中国畜牧兽医文摘,2011,27(5): 1.
[11] Ricke S C.91 Methanogen ecology in the ruminant hindgut[J]. Journal of Animal Science, 2023,101(Supplement_2): 235.
[12] 蓝颖春. 二氧化碳:温室气体"主犯"[J].地球,2013(9): 4.
[13] 胡坤. 反刍动物瘤胃内糖类,蛋白质及脂肪的消化代谢[J].现代畜牧科技,2014,12(1):54.
[14] Della Rosa M M,Waghorn G C,Vibart R E J, A. An assessment of global ruminant methane-emission measurements shows bias relative to contributions of farmed species, populations and among continents[J]. Animal Production Science, 2023, 63(3): 201-212.
[15] Guishi W, Tingdong C, Lei W, et al.Application of digital frequency locking techniques in real-time measurement of methane in atmosphere[J]. Chinese Journal of Lasers,2011, 38(10): 6.
[16] 贺永惠, 王清华, 李杰. 降低反刍动物甲烷排放的研究进展[J].黄牛杂志,2001,5(1):47-50.
[17] Yang L,Xiliang X.Environmental hazards of methane gas emissions from ruminants and response measures[J]. China Dairy Cattle, 2011, 5(14): 3.
[18] A T D G, A C, A F I, et al. Determination of the absolute accuracy of UK chamber facilities used in measuring methane emissions from livestock[J]. Measurement, 2015, 66: 272-279.
[19] Sakita G Z,Lima P D M T,Filho A L A, et al. Treating tropical grass with fibrolytic enzymes from the fungus Trichoderma reesei: Effects on animal performance,digestibility and enteric methane emissions of growing lambs[J]. Animal Feed Science and Technology,2022, 286(1)115253.
[20] Tedeschi L O,Abdalla A L,Álvarez C,et al. Quantification of methane emitted by ruminants: a review of methods[J]. Journal of Animal Science, 2022, 100 (7)skac197.
[21] Guoqiang S,Peng S,Lizhuang H.Review of determination of ruminants produce methane quantitative methods[J]. Heilongjiang Animal Science And veterinary Medicine, 2017, 8: 59-64.
[22] Guangyong Z.Models for predicting rumen methane emission in ruminants[J]. Chinese Journal of Animal Nutrition, 2014, 26(10): 3135-3139.
[23] Hristov A N, Oh J, Giallongo F, et al.The use of an automated system (GreenFeed) to monitor enteric methane and carbon dioxide emissions from ruminant animals[J]. Journal of Visualized Experiments Jove, 2015, 103(1):52904.
[24] Alemu A W, Vyas D, Manafiazar G, et al.Enteric methane emissions from low- and high-residual feed intake beef heifers measured using greenFeed and respiration chamber techniques[J]. Journal of Animal Science, 2017, 95(8): 3727.
[25] Fernández C,Gomis-Tena J,Hernández A, et al.An open-circuit indirect calorimetry head hood system for measuring methane emission and energy metabolism in small ruminants[J]. Animals, 2019, 9(6): 380.
[26] Fazio E,Spadaro S Corsaro C, et al. Metal-oxide based nanomaterials:Synthesis, characterization and their applications in electrical and electrochemical sensors[J]. Sensors, 2021, 21(7): 2494.
[27] Dey,Ananya.Semiconductor metal oxide gas sensors: A review[J]. Materials Science & Engineering, B Solid-State Materials for Advanced Technology, 2018,229(1):206-217.
[28] Zhi-ang L, Yi P, Xin Z, et al. Application of sulfur chemiluminescence gas chromatography in gas analysis[J]. Chemical Research and Application, 2019, 9: 1623-1628.
[29] 严亚博, 林建龙, 许一寒,等. 面向二氧化碳电化学利用的离子传导膜研究进展[J].膜科学与技术,2023,43(6): 191-201.
[30] Brannon E Q, Moseman-Valtierra S M, Rella C W, et al. Evaluation of laser-based spectrometers for greenhouse gas flux measurements in coastal marshes[J]. Limnology & Oceanography Methods, 2016, 14(7):466-476.
[31] Harvey M J,Sperlich P,Clough T J,et al.Global research alliance N₂O chamber methodology guidelines: Recommendations for air sample collection,storage and analysis[J].Journal of Environmental Quality,2020,49(5):1110-1125.
[32] 王惟惟, 仲崇亮, 米见对,等. 采用红外光谱技术检测反刍动物甲烷排放[J].动物营养学报,2016,28(5): 8.
[33] Svedberg,Urban,Galle,et al.Assessment of terpene levels and workers’exposure in sawmills with long path FTIR[J]. Applied Occupational & Environmental Hygiene, 2000,15(9):686-694.
[34] Yongxue L, Tianshu Z, Guangqiang F, et al.Monitoring of pollution characteristics of atmospheric greenhouse gases using fourier infrared system[J]. Chinese Journal of Lasers, 2023, 6: 156-164.
[35] 丁学智, 龙瑞军, 米见对,等. 非分光红外(NDIR)技术测定反刍动物甲烷和二氧化碳研究[J].光谱学与光谱分析,2010,30(6): 1503-1506.
[36] 李俊,范斌斌,曾庆杰,等. 基于8.309μm QCL的硫化氢/甲烷开路式检测方法研究[J].光学精密工程,2024,4(1): 032.
[37] 张雅楠,刘灿,张磊,等. 基于NDIR技术的红外CO₂气体传感器研究[J].仪表技术与传感器,2023,9(1): 23-28.
[38] Hammond K J, Humphries D J, Crompton L A, et al.Methane emissions from cattle: Estimates from short-term measurements using a GreenFeed system compared with measurements obtained using respiration chambers or sulphur hexafluoride tracer[J]. Animal Feed Science and Technology, 2015, 203: 41-52.
[39] 贾鹏,董利锋,屠焰,刁其玉.间接法测定反刍动物甲烷排放量的研究进展[J].动物营养学报,2021,33(9):4839-4847.
[40] Van B A E, Aldridge M N, Veerkamp R F, et al. Heritability and genetic correlations between enteric methane production and concentration recorded by GreenFeed and sniffers on dairy cows[J]. Journal of dairy science, 2023, 106(6): 4121-4132.
[41] Yunlong L, Songfeng Y, Yue C, et al.Algorithm fusion based full range high accuracy laser methane sensor[J]. Laser & Optoelectronics Progress, 2024, 61(19):35-37.
[42] Qinduan Z, Tingting Z, Yubin W, et al.Highly sensitive and reliable optical fiber TDLAS gas detection system for methane in situ monitoring in near space[J]. Applied Optics, 2023, 62(17): 4409-4414.
[43] 徐俊, 李云飞, 程跃,等. 基于TDLAS-WMS的甲烷泄漏遥测系统研制[J].激光与光电子学进展,2023.
[44] Brannon E Q, Moseman-Valtierra S M, Rella C W, et al. Evaluation of laser-based spectrometers for greenhouse gas flux measurements in coastal marshes[J]. Limnology and Oceanography: Methods, 2016, 14(7): 466-476.
[45] 夏滑, 张志荣, 庞涛,等. 基于腔增强吸收光谱技术探测水汽稳定同位素装置及方法[J].2020,12(1):93-104.
[46] 张宇, 王一丁, 李黎,等. 甲烷红外吸收光谱原理与处理技术分析[J].光谱学与光谱分析,2008,28(11): 5.
[47] 胡文平, 杜元龙. 硫化氢气体的危害性及其检测方法[J].材料保护,1996,29(12): 2.
[48] Huang Y.Development of a Methane-detection system using a distributed feedback laser diode and hollow-core photonic crystal fiber[J]. Electronics, 2023, 12(1):7-12.
[49] Xingxing G, Wei Z, Xiancai F, et al.Design and research of self-calibration NH3 gas detection device[J]. Journal of Chinese Agricultural Mechanization, 2017, 38(8): 82-86.
[50] Powers, Capelari.Analytical methods for quantifying greenhouse gas flux in animal production systems[J]. Journal of Animal Science, 2016, 94(8): 3139-3146.
[51] Bertrand R-L, Hulbert C.Automatic detection of methane emissions in multispectral satellite imagery using a vision transformer[J]. Nature communications, 2024, 15(1): 3081.
[52] Velez A F, Alvarez C I, Navarro F, et al.Assessing methane emissions from paddy fields through environmental and UAV remote sensing variables[J]. Environmental monitoring and assessment, 2024, 196(6): 574.
[53] Yuelin L.Aircraft Measure Arctic Methane[J]. International Aviation, 2021, 12: 67-67.
[54] Jongho Kim Jongho KimGraduate School of Environmental Studies S N U, Seoul, South KoreaMore by Jongho Kim, Kim J, Kim M B J, et al. Unexpected urban methane hotspots captured from aircraft observations[J]. ACS Earth and Space Chemistry, 2022, 6(3): 755-765.
[55] Abbadi S H E,Chen Z,Burdeau P M, et al. Technological maturity of aircraft-based methane sensing for greenhouse gas mitigation[J]. Environmental Science & Technology,2024,58(22):9591-9600.
[56] Bush D.Drones will help measure methane leaks from shipping[J]. Lloyd s List, 2022, 3: 1-3.
[57] 何卓, 李正强, 樊程,等. 大气甲烷卫星传感器和遥感算法研究综述[J].光学学报,2023,43(18):47-63.
[58] 张连翀, 徐丹, 咸迪,等. 我国温室气体观测卫星建设及典型数据应用[J].卫星应用,2023(7): 8-12.
[59] Divya Y,Sanjeevi S,Ilamparuthi K.A study on the hyperspectral signatures of sandy soils with varying texture and water content[J]. Arabian journal of geosciences, 2014, 7(7-9): 3537-3545.
[60] Lianchong Z, Dan X, Di X, et al.Construction of China's greenhouse gas observation satellites and typical data applications[J]. Satellite Application, 2023, 7: 8-12.
[61] 菅瑞珍, 贾生美, 邢明勋,等. 畜牧业温室气体的排放源及减排措施[J].当代畜禽养殖业,2022(6): 62-64.