基于Penman-Monteith模型分时段模拟华北落叶松日蒸腾过程

doi:10.16843/j.sswc.2019.05.007

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摘要蒸腾是植被主要的耗水形式，研究黄土干旱地区林木的实际蒸腾量，对于提高林木水分的利用效率，加强林地植被的建设和管理以及维持林分的稳定有着重要的研究意义，同时分析其蒸散耗水特性也对调控水分关系，解决干旱地区水分供需矛盾具有重要的指导意义。笔者以青海省黄土干旱区华北落叶松为研究对象，2018年5-8月，利用探针式茎流计获取华北落叶松生长季树干茎流（10 min频率）的实时数据，结合Penman-Monteith方程反推出的冠层整体气孔阻力γ_st和便携式自动气象站获取的试验区气象数据，分时段构建了高寒区华北落叶松的γ_st与气象因子的回归模型，为准确估算华北落叶松的蒸腾量提供科学参考依据。结果表明：1）华北落叶松蒸腾速率的日变化呈现单峰型曲线，树干液流存在明显的时滞现象，滞后时间大约70 min。2）不同时段的γ_st与饱和水汽压差VPD、温度t均呈负相关关系，与空气相对湿度RH呈正相关关系。气象因子多因素回归效果要优于单因素回归，模拟的平均误差约在14.5%以内。γ_st与3个气象因素在00：00-08：00时段的多元回归方程为γ_st=-117 376.512+103 310.241VPD-3 134.50t+1 608.292RH；08：00-20：00时段的多元回归方程为γ_st=-269.467+244.359VPD-20.451t+8.033RH；20：00-24：00时段的多元回归方程为γ_st=-1 570.795-141.384t+49.334RH。

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关键词 ： Penman-Monteith方程, 树干茎流, 冠层整体气孔阻力, 时滞性, 蒸腾模型

Abstract：[Background] Transpiration is the main form of water consumption in vegetation. It is of great significance to study the actual transpiration of forest trees in arid loess area to improve the utilization efficiency of forest moisture, strengthen the construction and management of forest vegetation and maintain the stability of forest branches. Analysis of its evapotranspiration water consumption characteristics also has important guiding significance for regulating the relationship between water and solving the contradiction between water supply and demand in arid regions.[Methods] This paper takes the Larix principis-rupprechtii in the loess arid area of Qinghai province as the research object. From May to August 2018, the real-time data of the stem sap flow (10 min frequency) of Larix principis-rupprechtii growing season was obtained by using the probe stem flow meter, combined with the Penman-Monteith equation. The inverse total pore resistance γ_st of the canopy and the meteorological data obtained from the portable automatic weather station were used to construct the regression model of γ_st and meteorological factors of Larix principis-rupprechtii in the alpine region, which provided a basis for accurately estimating the transpiration of L. principis-rupprechtii. It provides scientific reference for the accurate estimation of transpiration of L. principis-rupprechtii.[Results] 1) The diurnal variation of transpiration rate of L. principis-rupprechtii shows a single peak curve, and of meteorological elements for sap flow is about 70 min. 2)The canopy layer stomatic resistance at different periods was negatively related to VPD and temperature T, and is positively related to air relative humidity RH. By comparison, we can find that the effect of multiple factors regression of meteorological factors is better than that of single factors regression. The simulated results are ideally within an average error of 14.5%.The multivariate regression equation between γ_st and three meteorological factors during the period from 00:00 to 8:00 is γ_st=-117 376.512+103 310.241VPD-3 134.50t+1 608.292RH. The multivariate regression equation for the period from 08:00 to 20:00 is γ_st=-269.467+244.359VPD-20.451t+8.033RH. The multivariate regression equation for the 20:00-24:00 period is γ_st=-1 570.795-141.384t+49.334RH. The multivariate regression model established by this method can simulate the transpiration process of L. principis-rupprechtii in high cold area and provide reference for studying transpiration of vegetation.

Key words： Penman-Monteith equation trunk stem flow canopy layer stomatic resistance lag time transpiration rate transpiration model

收稿日期: 2019-03-11

PACS:

S715.4

基金资助:国家重点研发计划重点专项"黄土高原人工生态系统结构改善和功能提升技术"（2017YFC0504604）

通讯作者: 贺康宁(1962-),男,教授,博导。主要研究方向:林业生态工程。E-mail:hkn@bjfu.edu.cn E-mail: hkn@bjfu.edu.cn

作者简介: 陈琪(1995-),男,硕士研究生。主要研究方向:林业生态工程。E-mail:825746504@qq.com

引用本文:

陈琪, 李远航, 王琼琳, 王莉, 林莎, 贺康宁. 基于Penman-Monteith模型分时段模拟华北落叶松日蒸腾过程[J]. 中国水土保持科学, 2019, 17(5): 54-64.
CHEN Qi, LI Yuanhang, WANG Qionglin, WANG Li, LIN Sha, HE Kangning. Simulation of the daily transpiration process of Larix principis-rupprechtii based on Penman-Monteith model. SSWC, 2019, 17(5): 54-64.

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http://journal12.magtechjournal.com/Jweb_stbc/CN/10.16843/j.sswc.2019.05.007 或 http://journal12.magtechjournal.com/Jweb_stbc/CN/Y2019/V17/I5/54

[1]	马长健,刘馨惠,卞城月,等.热平衡式茎流计在测定植物蒸腾耗水中的应用进展[J].中国农学通报, 2015, 31(32):241. MA Changjian, LIU Xinhui, BIAN Chengyue, et al. Application progress of heat balance stem-flow gauge in measuring plant transpiration water consumption[J]. Chinese Agricultural Science Bulletin, 2015, 31(32):241.
[2]	李洁,任启文,孙杰肖.张家口崇礼区3种优势树种蒸腾耗水特征研究[J].西北林学院学报, 2018,33(6):40. LI Jie, REN Qiwen, SUN Jiexiao. Water consumption of three dominant tree species at Qingshuihe Watershed of Chongli district in Zhangjiakou[J]. Journal of Northwest Forestry University,2018, 33(6):40.
[3]	鱼腾飞,冯起,司建华,等. 胡杨的夜间蒸腾:来自树干液流、叶片气体交换及显微结构的证据[J].北京林业大学学报, 2017,39(9):8. YU Tengfei, FENG Qi, SI Jianhua, et al. Nocturnal transpiration of Populus euphratica authenticated by measurements of stem sap flux, leaf gas exchange and stomatal microsturcture[J]. Journal of Beijing Forestry University, 2017, 39(9):8.
[4]	韩磊,展秀丽,王芳,等.河东沙区侧柏树干液流与蒸腾驱动因子的时滞效应研究[J].生态环境学报, 2018,27(8):1417. HAN Lei,ZHAN Xiuli,WANG Fang, et al.Time lag effect between stem sap flow and driving factors of transpiration of Platycladus orientalis in east sandy land of Yellow River[J].Ecology and Environment, 2018, 27(8):1417.
[5]	胡兴波,芦新建,于洋,等.基于热扩散法的青海云杉冠层导度模拟(英文)[J].林业科学, 2018,54(3):8. HU Xingbo, LU Xinjian, YU Yang, et al. Simulation of canopy conductance of Qinghai Spruce (Picea crassifolia) plantation based on Granier's thermal dissipation probe method[J]. Scientia Silvae Sinicae, 2018, 54(3):8.
[6]	吕纯波.土壤水分胁迫条件下水稻气孔阻力分析研究[J].黑龙江水利科技, 2016,44(4):41. LU Chunbo. Analysis of stomatal resistance of rice under soil water stress[J]. Heilongjiang Science and Technology of Water Conservancy. 2016, 44(4):41.
[7]	芦新建,胡月楠,张进虎.Penman-Monteith模型中主要参数推求及应用简化[J].安徽农业科学, 2011,39(11):6310. LU Xinjian,HU Yuenan,ZHANG Jinhu.Calculations and predigestion of the main parameters in Penman-Monteith Model[J]. Journal of Anhui Agricultural Sciences, 2011, 39(11):6310.
[8]	刘春伟,冠层阻力的计算方法综述[C].第33届中国气象学会年会.中国陕西西安, 2016:4. LIU Chunwei.A summary of calculation methods for canopy resistance[C]. The 33rd Annual Meeting of the Chinese Meteorological Society. Xi'an, Shanxi, China, 2016:4.
[9]	龙秋波,贾绍凤.茎流计发展及应用综述[J].水资源与水工程学报, 2012, 23(4):18. LONG Qiubo,JIA Shaofeng.Review on the development and application of sap flow gauge[J].Journal of Water Resources and Water Engineering,2012,23(4):18.
[10]	刘德良,李吉跃,马达.侧柏树干边材液流空间变化规律[C].梅州市自然科学优秀学术论文集(第十届),2010:14. LIU Deliang,LI Jiyue,MA Da. Sutdies on spatial viarations of stem sap flow of Playteladus oirentalis[C]. Meizhou City Natural Science Excellent Academic Papers (10th), 2010:14.
[11]	王倩, 王云琦,马超, 等. 缙云山针阔混交林碳通量变化特征及影响因子研究[J]. 长江流域资源与环境, 2019,28(3):565. WANG Qian,WANG Yunqi, MA Chao, et al. Characteristics of carbon fluxes and their response to environmental factors in ecosystems of mixed coniferous and broad-leaved forests in Jinyun mountain[J]. Resources and Environment in the Yangtze Basin, 2019, 28(3):565.
[12]	芦新建,贺康宁,王辉,等.AWRA-L模型估算区域林冠降雨截留量[J].农业工程学报, 2015,31(7):137. LU Xinjian,HE Kangning,WANG Hui,et al.Estimation of regional canopy rainfall interception by AWRA-L model[J]. Transactions of the CSAE. 2015. 31(7):137.
[13]	康绍忠,熊运章,刘晓明,等.用彭曼-蒙特斯模式估算作物蒸腾量的研究[J].西北农林科技大学学报(自然科学版), 1991(1):13. KANG Shaozhong,XIONG Yunzhang,LIU Xiaoming,et al.Estimation of crop transpiration by Penman-Monteith Model[J]. Journal of Northwest A & F University (Natural Science Edition), 1991(1):13.
[14]	焦醒,刘广全,匡尚富,等. Penman-Monteith模型在森林植被蒸散研究中的应用[J].水利学报, 2010,41(2):245. JIAO Xing,LIU Guangquan,KUANG Shangfu,et al. Review on application of Penman-Monteith Equation to studying forest vegetation evapotranspiration[J]. Journal of Hydraulic Engineering, 2010, 41(2):245.
[15]	贺康宁,田阳,张光灿,等.刺槐日蒸腾过程的Penman-Monteith方程模拟[J].生态学报, 2003(2):251. HE Kangning,TIAN Yang,ZHANG Guangcan,et al. Modeling of the daily transpiration variaton in locust forest by Penman-Monteith equation[J].Acta Ecologica Sinica,2003(2):251.
[16]	吴林,闵雷雷,沈彦俊,等.分时段修正双源模型在西北干旱区玉米蒸散量模拟中的应用[J].中国生态农业学报,2017,25(5):634. WU Lin,MIN Leilei,SHEN Yanjun,et al.Simulation of maize evapotranspiration at different growth stages using revised dual-layered model in arid Northwest China[J]. Chinese Journal of Eco-Agriculture, 2017. 25(5):634.
[17]	芦新建,胡月楠,张进虎,等. Penman-Monteith模型中主要参数推求及应用简化[J].安徽农业科学, 2011. 39(11):6310. LU Xinjian,HU Yuenan,ZHANG Jinhu,et al.Calculations and predigestion of the main parameters in Penman-Monteith Model[J]. Journal of Anhui Agricultural Sciences, 201,39(11):6310.
[18]	司建华,冯起,鱼腾飞,等.植物夜间蒸腾及其生态水文效应研究进展[J].水科学进展, 2014,25(6):907. SI Jianhua, FENG Qi,YU Tengfei,et al.Research advances in nighttime transpiration and its eco-hydrological implications[J]. Advances in Water Science, 2014, 25(6):907.
[19]	赵春彦,司建华,冯起,等.荒漠河岸胡杨(Populus euphratica)树干液流的时滞效应[J].中国沙漠, 2014, 34(5):1254. ZHAO Chunyan,SI Jianhua,FENG Qi,et al.Time Lag Characteristics of stem sap flow of Populus euphratica in desert riparian forest[J]. Journal of Desert Research, 2014, 34(5):1254.
[20]	李雯雯,徐业勇,魏雅君,等.干旱区杏李树干液流时滞特征研究[J].经济林研究, 2017,35(02):138. LI Wenwen,XU Yeyong,WEI Yajun,et al. Study on time-lag characteristics of stem sap flow in Prunus salicina×armeniaca at arid areas[J]. Nonwood Forest Research, 2017,35(02):138.
[21]	李召宝.冬小麦和夏玉米气孔阻力与冠层阻力监测与估算方法研究[R],华中农业大学, 2010:63. LI Zhaobao. Study on monitoring and estimation methods of stomatal resistance and canopy resistance in winter wheat and summer maize[R]. Huazhong Agricultural University, 2010:63.
[22]	李栋.北方地区四种典型树种中长期蒸腾节律研究[R].济南:山东大学,2010:99. LI Dong, Study on medium and long-term transpiration rhythm of four typical tree species in northern China[R]. Jinan:Shandong University.2010:99.
[23]	任启文,忻富宁,李联地,等.冀北山地华北落叶松全生长季树干液流及蒸腾耗水特征[J].中南林业科技大学学报, 2018,38(5):91. REN Qiwen, XIN Funing,LI Liandi,et al. Stem sap flow and water consumption of Larix principis-rupprechtii during growth season in northern mountain areas of Hebei province[J]. Journal of Central South University of Forestry & Technology, 2018, 38(5):91.
[24]	葛亮,董晓华,李璐,等.气象因素对柑桔树植株日间蒸腾作用的影响研究[J].节水灌溉, 2018(12):17. GE Liang, DONG Xiaohua, LI Lu,et al.Effects of meteorological factors on daytime transpiration of citrus trees[J]. Water-Saving Irrigation, 2018(12):17.
[25]	段汝航,赵仲辉,项文化,等.湖南会同杉木人工林林冠截留特征及模拟[J].水土保持学报, 2017,31(4):320. DUAN Ruhang,ZHAO Zhonghui,XIANG Wenhua,et al. Characteristics and simulation of canopy interception of Chinese fir plantations in Huitong, Hunan province[J]. Journal of Soil and Water Conservation, 2017, 31(4):320.
[26]	丁访军,王兵,郭浩,等.中亚热带毛竹和杉木的稳定碳同位素组成及其对水分利用效率的指示[J].江西农业大学学报, 2011,33(1):52. DING Fangjun,WANG Bing,GUO Hao,et al.Composition of stable carbon isotope of Phyllostachys edulis and Cunninghamia lanceolata and their indications for water use efficiency in the middle subtropics[J]. Journal of Jiangxi Agricultural University, 2011, 33(1):52.
[27]	SCHULZE E D, CERMAK J, MATYSSEK M, et al. Canopy transpiration and water transpiration and water fluxes in the xylem of the trunk of Larix and Picea trees:A comparison of xylem flow, porometer and cuvette measurements[J].Oecologia, 1985,66:475.
[28]	王慧梅,孙伟祖,元刚,等.不同环境因子对兴安落叶松树干液流的时滞效应复杂性及其综合影响[J].应用生态学报, 2011,22(12):3109. WANG Huimei, SUN Weizu, YUAN Gang. Complexity and its integrative effects of the time lags of environment factors affecting Larix gmelinii stem sap flow[J]. Chinese Journal of Applied Ecology, 2011, 22(12):3109.
[29]	PHILLIPS N G, SCHOLZ F G, BUCCI S J, et al.Using branch and basal trunk sap flow measurements to estimate whole-plant water capacitance:Comment on Burgess and Dawson (2008)[J]. Plant and Soil, 2009, 315(1/2):315.
[30]	葛亮,董晓华,李璐,等.气象因素对柑桔树植株日间蒸腾作用的影响研究[J].节水灌溉, 2018(12):17. GE Liang,DONG Xiaohua,LI Lu. Effects of meteorological factors on daytime transpiration of citrus trees[J]. Water-Saving Irrigation, 2018(12):17.
[31]	李海光,余新晓,李钢铁,等.基于MATLAB的华北落叶松蒸腾仿真模拟[J].水土保持通报,2010,30(3):117. LI Haiguang,YU Xinxiao,LI Gangtie, et al.Simulation research on transpiration of Larix Principis-rupprechtii Mayr based on MATLAB[J]. Bulletin of Soil and Water Conservation, 2010, 30(3):117.