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气管材质和长度对农田小气候CO2/H2O分析仪读数稳定时间的影响
引用本文:王志伟,王萌,王秋涛,朱晓伟,王春山,王浩,刘连涛. 气管材质和长度对农田小气候CO2/H2O分析仪读数稳定时间的影响[J]. 中国农业气象, 2019, 40(12): 793. DOI: 10.3969/j.issn.1000-6362.2019.12.006
作者姓名:王志伟  王萌  王秋涛  朱晓伟  王春山  王浩  刘连涛
作者单位:1.保定职业技术学院,保定 071051;2.河北农业大学,保定 071001
基金项目:国家自然科学基金(31571610);河北省自然科学基金(C2016204088);河北农业大学作物学科梯队建设基金(TD2016C318)
摘    要:CO2和H2O气体浓度是农田小气候的2个重要指标,一般采用CO2/H2O分析仪进行测定,为减少人为干扰,需使用气管将待测区域气体传输至分析器,而气管的材质及其长度会影响CO2/H2O测定时读数稳定所需的时间。本研究采用8种常用材质的气管及5种气管长度进行双因素随机区组试验,以筛选CO2/H2O测定所需的最佳气管材质及长度。结果表明:不同材质气管测定CO2浓度的稳定时间为9.20~11.47s,测定H2O气体浓度的稳定时间为9.67~18.93s。利用主效可加互作可乘(Additive main effects and multi-plicative interaction,AMMI)模型对CO2/H2O气体浓度达到稳定的时间进行方差分析和稳定性分析发现,在CO2浓度观测过程中,气管长度的固定效应导致的变异最大,材质次之,材质与长度互作效应较小;各材质中,CO2读数稳定时间最短的为蠕动泵管;在H2O气体浓度观测过程中,存在显著的材质和长度间的互作效应,其中材质的固定效应导致的变异最大,长度次之,PVC管的读数稳定时间最短。不同材质与不同长度的交互作用不同,每种材质对不同长度都有其特殊的适应性。因此,应根据测定指标,选择稳定时间短的材质和长度,以提高农田CO2和H2O气体浓度的测定效率。

关 键 词:CO2浓度  H2O气体浓度  稳定时间  气管材质  气管长度  农田小气候  

Effect of Hose Material and Length on the Stability Time of CO2 /H2O Analyzer in Farmland Microclimate
WANG Zhi-wei,WANG Meng,WANG Qiu-tao,ZHU Xiao-wei,WANG Chun-shan,WANG Hao. Effect of Hose Material and Length on the Stability Time of CO2 /H2O Analyzer in Farmland Microclimate[J]. Chinese Journal of Agrometeorology, 2019, 40(12): 793. DOI: 10.3969/j.issn.1000-6362.2019.12.006
Authors:WANG Zhi-wei  WANG Meng  WANG Qiu-tao  ZHU Xiao-wei  WANG Chun-shan  WANG Hao
Affiliation:1.Baoding Vocational and Technical College, Baoding 071051, China;2.Agricultural University of Hebei, Baoding 071001
Abstract:Concentrations of CO2 and H2O are important indicators of farmland microclimate. When using CO2 and H2O analyzers to determine indicators in the field, the hose must be used to transfer the gas to the analyzer,but the material and length of the hose will affect the setting time and accuracy of the CO2 and H2O when they were determined. In this study, 8 hoses and 5 lengths were used to screen the best material and length for CO2 and H2O measurements. The results showed that the setting times of CO2 in different material hoses were in 9.20−11.47s, and the setting times of H2O were in 9.67−18.93s. The stability analysis of the setting time of CO2 and H2O using the AMMI model shows that in the CO2 concentration stability, the fixed effect caused by the length was the largest, followed by the material, and the material and the length were mutually exclusive. The setting time of CO2 concentration of the peristaltic pump tube in the material was the shortest; while in the setting time of H2O concentration, there was a significant interaction effect between the material and the length, in which the fixed effect caused by the material was the largest, and the length in the second place, and the setting time of H2O concentration of Polyvinyl chloride(PVC) pipe was the shortest. Different materials had different interactions with different lengths. Each material had its own special adaptability to different lengths. Therefore, in the test process, chose the material and length of the shortest setting time according to the required measurement indicators to ensure the accuracy and efficiency of the data.
Keywords:CO2 concentration  H2O concentration  Setting time  Hose material  Hose length  Microclimate of field  
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