Diurnal and seasonal variations of CO2 fluxes and their climate controlling factors for a subtropical forest in Ningxiang     

JIA Binghao  XIE Zhenghui  ZENG Yujin  WANG Linying  WANG Yuanyuan  XIE Jinbo  XIE Zhipeng 《大气科学进展》2015,32(4):553-564

In this study, the diurnal and seasonal variations of CO2 fluxes in a subtropical mixed evergreen forest in Ningxiang of Hunan Province, part of the East Asian monsoon region, were quantified for the first time. The fluxes were based on eddy covariance measurements from a newly initiated flux tower. The relationship between the CO2 fluxes and climate factors was also analyzed. The results showed that the target ecosystem appeared to be a clear carbon sink in 2013, with integrated net ecosystem CO2exchange(NEE), ecosystem respiration(RE), and gross ecosystem productivity(GEP) of-428.8, 1534.8 and1963.6 g C m-2yr-1, respectively. The net carbon uptake(i.e. the-NEE), RE and GEP showed obvious seasonal variability,and were lower in winter and under drought conditions and higher in the growing season. The minimum NEE occurred on12 June(-7.4 g C m-2d-1), due mainly to strong radiation, adequate moisture, and moderate temperature; while a very low net CO2 uptake occurred in August(9 g C m-2month-1), attributable to extreme summer drought. In addition, the NEE and GEP showed obvious diurnal variability that changed with the seasons. In winter, solar radiation and temperature were the main controlling factors for GEP, while the soil water content and vapor pressure deficit were the controlling factors in summer. Furthermore, the daytime NEE was mainly limited by the water-stress effect under dry and warm atmospheric conditions, rather than by the direct temperature-stress effect.  相似文献   

玉米农田生态系统CO2通量的动态变化   总被引：3，自引：0，他引：3       下载免费PDF全文

梁涛  李荣平  吴航  刘景利  史奎桥  张兵兵  常松 《气象与环境学报》2012,28(3):49-53

利用2008年辽宁锦州农田生态系统野外观测站涡动相关系统通量观测资料,分析了玉米农田生态系统生长季(5-10月)及非生长季CO₂通量动态变化。结果表明：玉米农田生态系统的非生长季日动态趋势不明显;生长季日动态明显,呈明显的U型曲线,CO₂通量最大值出现在12:00时,为-1.19 mg·m^-2·s^-1;不同物候期的日动态也呈现U型曲线,各发育期CO₂通量日最大值范围为0.07～-0.23 mg·m^-2·s^-1;玉米农田生长季生态系统净CO₂交换日累积（NEE）为-652.8 g·m^-2,非生长季NEE499.8 g·m^-2,2008年碳收支-153.0 g·m^-2,表现为碳汇。  相似文献   

Seasonal variation and meteorological control of CO₂ flux in a hilly plantation in the mountain areas of North China          下载免费PDF全文

黄辉  张劲松  孟平  伏玉玲  郑宁  高峻 《Acta Meteorologica Sinica》2011,25(2):238-248

The carbon cycle of terrestrial ecosystems is an important scientific issue in global climate change research.Plantation forest plays an important role in terrestrial carbon budget in China.In this study,eddy covariance flux data measured at Xiaolangdi forest ecosystem research station(XLD) in 2007 and 2008 are used to analyze the seasonal variation and meteorological control of CO2 flux in a 30-yr-old mixed plantation.The plantation forest mainly consists of Quercus variabilis,Platycladus orientalis,and Robinia pseudoacacia.The results show that the seasonal variations of net ecosystem exchange of CO2(NEE),gross primary production(GPP),and ecosystem respiration(Re) display single-peak curves.The maximum of carbon sequestration appears during May and June each year.The relative contribution of carbon release from ecosystem respiration to GPP varied slightly between 2007 and 2008.The relationship between NEE and photosynthetic active radiation(Qp) accords with the rectangular hyperbola model on diurnal scale,and shows a good linear correlation on monthly scale.The ecosystem photosynthetic parameters:the maximum photosynthetic rate(Pmax),the ecosystem photosynthetic photonyield(α),and the daytime ecosystem respiration(Rd) exhibit seasonal variations.Pmax reaches the maximum in August each year,with small interannual difference.The interannual differences of α and Rd are obvious,which is attributed to the changes of meteorological factors,such as solar radiation,vapor pressure deficit(D),precipitation,etc.Parameters Re,GPP,and NEP(net ecosystem production) have obvious exponential relations with temperature on monthly scale.There is a hysteresis in the response of GPP and NEP to temperature,i.e.,the carbon sequestration is not the maximum when the temperature reaches the peak value.The Q10 values were 1.37 and 1.45 in 2007 and 2008,respectively.On monthly scale,Re,GPP,and NEE increase as D increases,but rise slowly and even decrease when D is higher than 1.5 kPa.  相似文献   

中国半干旱区草甸草原和典型草原碳通量日变化特征     

赵卉忱  贾根锁  王鹤松  张安治  徐希燕 《气候与环境研究》2020,25(2):172-184

半干旱草原碳收支对陆地生态系统碳源汇功能变化具有重要影响。本文基于通榆草甸草原站2011～2017年和毛登典型草原站2013~2017年涡动相关法观测数据,分析了生长季碳通量日变化特征,研究了碳通量日变化过程对主要环境因子的响应。结果表明:两处草原7月碳吸收活动最强,草甸草原生长季各月总初级生产力（gross primary production, GPP）、生态系统呼吸（ecosystem respiration, R_e）和净碳交换量（net ecosystem exchange, NEE）的峰值均高于典型草原。NEE的日变化以单峰型为主,但7月、8月饱和水汽压差较高时,GPP在正午前后降低,引起NEE的双峰型日变化。光合有效辐射是草甸草原NEE日变化的主导因子,而在典型草原,浅层土壤含水量（5 cm）也主导了NEE日变化。水分亏缺使草原碳交换速率显著降低,草甸草原固碳速率对水分亏缺的敏感性强于典型草原。同时,水分亏缺也改变了GPP、R_e和NEE对温度和光合有效辐射的响应关系。  相似文献   

长江下游农业生态区CO₂通量的观测试验   总被引：4，自引：0，他引：4       下载免费PDF全文

卞林根高志球  陆龙骅汪瑛　谌志刚 《应用气象学报》2005,16(6):828-834

利用2001年6月10日~7月20日在安徽省全椒县稻田和2002年6月10日~7月20日在肥西县农作物混作区观测的近地层CO₂和能量通量资料，对农作物混作区和稻田CO₂通量特征进行了比较。结果表明:平均情况下，观测期内稻田白天(夜间)吸收(放出) CO₂为55.16 g·m-2(14.19 g·m-2)；农作物混作区白天(夜间)吸收(放出) C02为22.67 g·m”(12.40 g·m-2)；稻田白天吸收的CO₂通量随水稻生长而逐渐增加，夜间放出的CO₂在拔节期最高；农作物混作区CO₂通量在整个观测期并没有显著改变；稻田和农作物混作区均为大气CO₂的汇。对CO₂通量与光合有效辐射的关系分析表明:白天稻田吸收的CO₂通量与到达地面的光合有效辐射存在着显著的负相关关系。文中结果为数值模拟稻田与近地层大气CO₂交换提供了重要依据。  相似文献   

Quantification of ecosystem carbon exchange characteristics in a dominant subtropical evergreen forest ecosystem     

Yue-Lin Li  Guo-Yi Zhou  De-Qiang Zhang  Katherine Owen Wenigmann  Dennis Otieno  John Tenhunen  Qian-Mei Zhang  Jun-Hua Yan 《Asia-Pacific Journal of Atmospheric Sciences》2012,48(1):1-10

CO₂ fluxes were measured continuously for three years (2003?C2005) using the eddy covariance technique for the canopy layer with a height of 27 m above the ground in a dominant subtropical evergreen forest in Dinghushan, South China. By applying gapfilling methods, we quantified the different components of the carbon fluxes (net ecosystem exchange (NEE)), gross primary production (GPP) and ecosystem respiration (R_eco) in order to assess the effects of meteorological variables on these fluxes and the atmospherecanopy interactions on the forest carbon cycle. Our results showed that monthly average daily maximum net CO₂ exchange of the whole ecosystem varied from ?3.79 to ?14.24 ??mol m^?2 s^?1 and was linearly related to photosynthetic active radiation. The Dinghushan forest acted as a net carbon sink of ?488 g C m^?2 y^?1, with a GPP of 1448 g Cm^?2 y^?1, and a R_eco of 961 g C m^?2 y^?1. Using a carboxylase-based model, we compared the predicted fluxes of CO₂ with measurements. GPP was modelled as 1443 g C m^?2 y^?1, and the model inversion results helped to explain ca. 90% of temporal variability of the measured ecosystem fluxes. Contribution of CO₂ fluxes in the subtropical forest in the dry season (October-March) was 62.2% of the annual total from the whole forest ecosystem. On average, 43.3% of the net annual carbon sink occurred between October and December, indicating that this time period is an important stage for uptake of CO₂ by the forest ecosystem from the atmosphere. Carbon uptake in the evergreen forest ecosystem is an indicator of the interaction of between the atmosphere and the canopy, especially in terms of driving climate factors such as temperature and rainfall events. We found that the Dinghushan evergreen forest is acting as a carbon sink almost year-round. The study can improve the evaluation of the net carbon uptake of tropical monsoon evergreen forest ecosystem in south China region under climate change conditions.  相似文献   

典型温带针阔叶混交林碳收支对温度的响应特征     

舒子倩  刘勋埙  姚宁  吴虑  李舒颖 《中低纬山地气象》2021,45(5):63-69

森林生态系统是一个庞大的碳储备系统,在当前气候变暖条件下,温度变化会对森林生态系统的碳收支过程产生重要影响。该文选择长白山温带针阔混交林森林生态系统（CBS）作为研究对象,利用多年通量及小气候观测资料分析该生态系统碳收支过程对温度的响应特征,结果显示该温带森林碳交换的季节变化特征十分明显。生态系统总初级生产力GPP、生态系统呼吸R_e和净生态系统碳交换NEE在2003—2008年的月平均变化显示,碳收支3个组分最大值均出现在夏季,GPP最大值出现在7月,R_e最大值主要出现在8月,NEE负方向的最大值主要出现在6月或7月,表现为碳吸收。在日尺度和月尺度对温度的响应上,GPP和R_e都是随温度（气温和5 cm土壤温度）呈显著的指数升高形式。在日尺度上和月尺度上, NEE对气温的响应皆是分段线性形式,先是随气温的上升而正向增大,表现为碳排放;当超过临界温度,随气温的继续上升而负值增大,表现为碳吸收。根据温度、GPP、R_e以及NEE的季节的变化,每年达到最大的GPP、R_e以及NEE的最适温度均不同,这表明了在气温变化的背景下,生态系统的最适温度也在随之改变,也表明了不考虑其它因素的影响,在气候变暖的背景下,长白山针阔混交林森林生态系统的GPP、R_e随气温的升高增大,而NEE随气温的升高而减小。  相似文献   

Temperature and snow-melt controls on interannual variability in carbon exchange in the high Arctic     

L. Groendahl  T. Friborg  H. Soegaard 《Theoretical and Applied Climatology》2007,88(1-2):111-125

Summary Net Ecosystem CO₂ Exchange (NEE) was studied during the summer season (June–August) at a high Arctic heath ecosystem for 5 years in Zackenberg, NE Greenland. Integrated over the 80 day summer season, the heath is presently a sink ranging from −1.4 g C m⁻² in 1997 to −23.3 g C m⁻² in 2003. The results indicate that photosynthesis might be more variable than ecosystem respiration on the seasonal timescale. The years focused on in this paper differ climatically, which is reflected in the measured fluxes. The environmental conditions during the five years strongly indicated that time of snow-melt and air temperature during the growing season are closely related to the interannual variation in the measured fluxes of CO₂ at the heath. Our estimates suggest that net ecosystem CO₂ uptake is enhanced by 0.16 g C m⁻² per increase in growing degree-days during the period of growth. This study emphasises that increased summer time air temperatures are favourable for this particular ecosystem in terms of carbon accumulation.  相似文献   

Response of carbon dioxide exchange to grazing intensity over typical steppes in a semi-arid area of Inner Mongolia     

Lei?Wang  Huizhi?LiuEmail author  Christian?Bernhofer 《Theoretical and Applied Climatology》2017,128(3-4):719-730

The eddy covariance technique was used to measure the CO₂ flux over four differently grazed Leymus chinensis steppe ecosystems (ungrazed since 1979 (UG79), winter grazed (WG), continuously grazed (CG), and heavily grazed (HG) sites) during four growing seasons (May to September) from 2005 to 2008, to investigate the response of the net ecosystem exchange (NEE) over grassland ecosystems to meteorological factors and grazing intensity. At UG79, the optimal air temperature for the half-hourly NEE occurred between 17 and 20 °C, which was relatively low for semi-arid grasslands. The saturated NEE (NEE_sat) and temperature sensitivity coefficient (Q ₁₀) of ecosystem respiration (RE) exhibited clear seasonal and interannual variations, which increased with canopy development and the soil water content (SWC, at 5 cm). The total NEE values for the growing seasons from 2005 to 2008 were ?32.0, ?41.5, ?66.1, and ?89.8 g C m^?2, respectively. Both the amounts and distribution of precipitation during the growing season affected the NEE. The effects of grazing on the CO₂ flux increased with the grazing intensity. During the peak growth stage, heavy grazing and winter grazing decreased NEE_sat and gross primary production (45 % for HG and 34 % for WG) due to leaf area removal. Both RE and Q ₁₀ were clearly reduced by heavy grazing. Heavy grazing changed the ecosystem from a CO₂ sink into a CO₂ source, and winter grazing reduced the total CO₂ uptake by 79 %. In the early growing season, there was no difference in the NEE between CG and UG79. In addition to the grazing intensity, the effects of grazing on the CO₂ flux also varied with the vegetation growth stages and SWC.  相似文献   

稻茬冬小麦不同播种方式和播种量试验研究   总被引：1，自引：0，他引：1  

吴新胜  贾昕远  王炽  袁志勇  李军 《气象科学》2011,(S1):67-73

稻茬冬小麦不同播种方式和播种量试验于2008—2009年度在江苏省农业科技综合展示基地(宿迁点)进行,试验共设计4种播种方式和3个播种量水平,研究分析不同播种方式和播种量及气象条件对稻茬冬小麦生长发育、抗逆性和产量的影响。结果表明:播种方式和播种量对冬小麦的生长发育及产量有显著影响,在生产实际中应结合具体情况采取适当的播种方式,播种量水平以每亩20万株左右基本苗较理想。在粳稻收获较晚,冬小麦无法适期播种时,可以采取稻田套播方式,播种量要适当增加;籼稻腾茬早的,可以选择收获后7 d左右人工撒播或条播;在茬口和气候等条件适宜的情况下,尽可能采取水稻收获后2 d左右进行冬小麦播种。条播能更充分的利用光温水等气候资源。  相似文献   

稻茬冬小麦不同播种方式和播种量试验研究     

吴新胜  贾昕远  王炽  袁志勇  李军 《气象科学》2012,32(S1):67-73

稻茬冬小麦不同播种方式和播种量试验于2008—2009年度在江苏省农业科技综合展示基地(宿迁点)进行,试验共设计4种播种方式和3个播种量水平,研究分析不同播种方式和播种量及气象条件对稻茬冬小麦生长发育、抗逆性和产量的影响。结果表明:播种方式和播种量对冬小麦的生长发育及产量有显著影响,在生产实际中应结合具体情况采取适当的播种方式,播种量水平以每亩20万株左右基本苗较理想。在粳稻收获较晚,冬小麦无法适期播种时,可以采取稻田套播方式,播种量要适当增加;籼稻腾茬早的,可以选择收获后7 d左右人工撒播或条播;在茬口和气候等条件适宜的情况下,尽可能采取水稻收获后2 d左右进行冬小麦播种。条播能更充分的利用光温水等气候资源。  相似文献   

东北雨养玉米田碳交换年际变化及影响因素北大核心CSCD          下载免费PDF全文

张慧  高全  常姝婷  金晨  梁琬璐  蔡福 《应用气象学报》2023,34(2):246-256

在气候变化背景下,农田净生态系统生产力变化趋势和影响因素不确定性大,为有效评估农田生态系统的固碳潜力,利用2005-2020年东北雨养春玉米田涡动相关数据分析该区域碳通量年际变化趋势及其气象、土壤和生物影响因素。结果表明:东北雨养春玉米田净生态系统生产力为272±109g·m^(-2)·a^(-1),且无显著变化趋势;与生态系统呼吸相比,净生态系统生产力年际变化主要受总生态系统生产力影响。气象因素的降水量和生物因素的作物水分利用效率是净生态系统生产力年际变化的主要影响因素,影响权重分别为28.4%和31.4%;气象、土壤和生物因素对总生态系统生产力年际变化的影响权重分别为61.0%,43.8%和62.8%;土壤因素和生物因素是生态系统呼吸年际变化的主要影响因素,且土壤因素对生态系统呼吸年际变化的影响权重(39.3%)大于生物因素(29.2%)。在气候变暖背景下,东北雨养春玉米田对水分更为敏感,同时日照和温度通过影响饱和水汽压差和土壤湿度间接影响净生态系统生产力的年际变化。  相似文献   

Seasonal variation of carbon dioxide fluxes over irrigated soybean (Glycine max L.)     

Levent Şaylan  Reiji Kimura  Erdenebayar Munkhtsetseg  Makio Kamichika 《Theoretical and Applied Climatology》2011,105(1-2):277-286

In this study, variations in carbon dioxide (CO₂) fluxes resulting from gross primary production (GPP), net ecosystem exchange (NEE), and respiration (R _e) of soybean (Glycine max L.) were investigated by the Eddy Covariance method during the growing period from June to November 2005 on an irrigated sand field at the Arid Land Research Center, Tottori University in Tottori, Japan. Although climatic conditions were humid and temperate, the soybeans required frequent irrigation because of the low water holding capacity of the sandy soil at the field site. Finally, it has been found that the accumulated NEE, GPP, and R _e fluxes of soybean over 126 days amount to ?93, 319, and 226 gC m^?2, respectively. Furthermore, the average ratio of GPP to R _e was 1.4 and the average ratio of NEE to GPP was about ?0.29 for the growth period of soybean. Daily maximum NEE of ?3.8 gC m^?2 occurred when LAI was 1.1.  相似文献   

麦田通量数据质量控制及能量闭合性分析     

彭记永  张晓娟 《气象与环境科学》2016,39(4):68-72

近地面层能量不闭合是涡度相关系统观测中普遍存在的难点问题。为了提高涡度相关系统通量观测数据的质量,选取郑州农业气象试验站2009年10月—2010年6月整个冬小麦生长季的通量观测资料,对30 min通量数据进行野点剔除、数据插补和Webb-Pearman-Leuning(WPL)校正等数据预处理。用两种方法(OLS和EBR)评价了该地区麦田生态系统能量平衡状况。结果表明:处理后的数据质量有明显提升,日平均湍流能增加7.09 W·m~(-2),日平均CO2通量减少0.0730 mg·m~(-2)·s~(-1)。农田涡度相关系统观测的能量平衡比率(EBR)日变化规律明显:早晨和傍晚昼夜交替时EBR波动最大,白天能量闭合状况优于夜间;暖季EBR大部分都在1左右浮动,能量平衡闭合程度较高,而冬季能量平衡闭合程度比暖季偏低。能量通量和湍流通量有较强的相关性,决定系数R2=0.8066,能量闭合度为88%,存在能量不闭合现象。  相似文献   

Detecting a Terrestrial Biosphere Sink for Carbon Dioxide: Interannual Ecosystem Modeling for the Mid-1980s   总被引：1，自引：0，他引：1  

Christopher S. Potter  Steven A. Klooster 《Climatic change》1999,42(3):489-503

There is considerable uncertainty as to whether interannual variability in climate and terrestrial ecosystem production is sufficient to explain observed variation in atmospheric carbon content over the past 20–30 years. In this paper, we investigated the response of net CO₂ exchange in terrestrial ecosystems to interannual climate variability (1983 to 1988) using global satellite observations as drivers for the NASA-CASA (Carnegie-Ames-Stanford Approach) simulation model. This computer model of net ecosystem production (NEP) is calibrated for interannual simulations driven by monthly satellite vegetation index data (NDVI) from the NOAA Advanced Very High Resolution Radiometer (AVHRR) at 1 degree spatial resolution. Major results from NASA-CASA simulations suggest that from 1985 to 1988, the northern middle-latitude zone (between 30 and 60°N) was the principal region driving progressive annual increases in global net primary production (NPP; i.e., the terrestrial biosphere sink for carbon). The average annual increase in NPP over this predominantly northern forest zone was on the order of +0.4 Pg (10¹⁵ g) C per year. This increase resulted mainly from notable expansion of the growing season for plant carbon fixation toward the zonal latitude extremes, a pattern uniquely demonstrated in our regional visualization results. A net biosphere source flux of CO₂ in 1983–1984, coinciding with an El Niño event, was followed by a major recovery of global NEP in 1985 which lasted through 1987 as a net carbon sink of between 0.4 and 2.6 Pg C per year. Analysis of model controls on NPP and soil heterotrophic CO₂ fluxes (R_h) suggests that regional warming in northern forests can enhance ecosystem production significantly. In seasonally dry tropical zones, periodic drought and temperature drying effects may carry over with at least a two-year lag time to adversely impact ecosystem production. These yearly patterns in our model-predicted NEP are consistent in magnitude with the estimated exchange of CO₂ by the terrestrial biosphere with the atmosphere, as determined by previous isotopic (¹³C) deconvolution analysis. Ecosystem simulation results can help further target locations where net carbon sink fluxes have occurred in the past or may be verified in subsequent field studies.  相似文献   

我国北方地区植被总初级生产力的空间分布与季节变化   总被引：3，自引：0，他引：3  

王鹤松  贾根锁  冯锦明 《大气科学》2010,34(5):882-890

本研究通过集成Terra MODIS卫星影像数据与地面通量台站的观测数据, 改进了基于遥感的VPM光能利用率模型, 模拟了我国北方地区2008年陆地生态系统总初级生产力 (GPP) 的空间分布与季节变化。研究表明: (1) 我国北方地区植被GPP在空间分布上表现为东高西低的特征, 年均值为518.36 g/m2 (C重量, 下同)。 (2) 我国北方地区主要植被类型的GPP有较强的季节动态, 大体上都表现出单峰变化趋势。GPP值按照由大到小顺序依次为: 夏绿阔叶林 (DBF)>针阔混交林 (MF)>农田 (Crop)>落叶针叶林 (DNF)>常绿针叶林 (ENF)>草地 (Grass)>稀疏灌丛 (Oshrub)>裸地或稀疏植被 (BSV)。(3) 整个区域的GPP季相变化表现为: 夏季最高, 达到32.80 g?m-2?(8 d)-1, 为全年最大值; 春季GPP为5.67 g?m-2?(8 d)-1, 与秋季的5.08 g?m-2?(8 d)-1较为接近, 冬季GPP最弱, 仅为0.07 g?m-2?(8 d)-1。与通量台站实测值及前人研究结果的比较表明, 本文所模拟的GPP与观测值之间的相对误差绝对值多小于15%, 表明模拟结果具有较好的可靠性。这说明通过集成遥感观测数据与台站观测数据的方法来模拟GPP, 可以较准确地模拟区域尺度的GPP空间分布与时间变化, 这为深入研究陆气相互作用提供了重要研究手段。  相似文献   

盘锦湿地芦苇生态系统长期通量观测研究   总被引：14，自引：3，他引：11       下载免费PDF全文

汪宏宇  周广胜 《气象与环境学报》2006,22(4):18-24

针对2004年5月26日-2005年10月15日盘锦湿地芦苇生态系统碳通量、感热通量和潜热通量资料进行分析。结果表明:芦苇湿地具有较强的碳汇作用;2005年芦苇湿地固定二氧化碳为13.32 t/hm2,日平均感热通量和潜热通量分别为2 464 kJ/m2和3 880 kJ/m2。2004年和2005年6～9月的日累积值波文比平均值均为0.15。芦苇湿地碳通量、感热通量和潜热通量的日动态呈单峰单谷型变化,极值出现在中午前后,夜间线形平直。芦苇生长季白天通量绝对值远较夜间大,白天碳吸收,夜间碳排放。CO2浓度年平均日变化曲线亦为单谷单峰型,夜间浓度较高且逐渐升高,直到日出前达到峰值;日出后急剧下降,傍晚又开始逐渐增加。芦苇湿地感热通量昼正夜负,潜热通量与林地不同,全天为正。各通量季节变化明显,冬季CO2通量日变化不明显,趋近于零;感热通量总体向上输送,春季数值较大,生长季数值较小;潜热通量冬季最小,接近0,春季开始显著增加,生长季达到最大。  相似文献   

Direct Radiative Effect of Aerosols on Net Ecosystem Carbon Exchange in the Pearl River Delta Region     

麦博儒  邓雪娇  刘霞  尹淑娴 《热带气象学报(英文版)》2021,27(3):272-281

The environmental impact of aerosols is currently a hot issue that has received worldwide attention. Lacking simultaneous observations of aerosols and carbon flux, the understanding of the aerosol radiative effect of urban agglomeration on the net ecosystem carbon exchange(NEE) is restricted. In 2009-2010, an observation of the aerosol optical property and CO_2 flux was carried out at the Dongguan Meteorological Bureau Station(DMBS) using a sun photometer and eddy covariance systems. The different components of photosynthetically active radiation(PAR),including global PAR(GPAR), direct PAR(DPAR), and scattered PAR(FPAR), were calculated using the Santa Barbara DISORT Atmospheric Radiative Transfer(SBDART) model. The effects of PAR on the NEE between land-atmosphere systems were investigated. The results demonstrated that during the study period the aerosol optical depth(AOD)reduced the DPAR by 519.28±232.89 μmol photons · m~(-2)s~(-1);, but increased the FPAR by 324.93±169.85μmol photons ·m~(-2)s~(-1);, ultimately leading to 194.34±92.62 μmol photons · m~(-2)s~(-1); decrease in the GPAR. All the PARs(including GPAR,DPAR, and FPAR) resulted in increases in the NEE(improved carbon absorption), but the FPAR has the strongest effect with the light use efficiency(LUE) being 1.12 times the values for the DPAR. The absorption of DPAR by the vegetation exhibited photo-inhibition in the radiation intensity 600 photons · m~(-2)s~(-1); in contrast, the absorptions of FPAR did not exhibit apparent photo-inhibition. Compared with the FPAR caused by aerosols, the DPAR was not the primary factor affecting the NEE. On the contrary, the increase in AOD significantly increased the FPAR, enhancing the LUE of vegetation ecosystems and finally promoting the photosynthetic CO_2 absorption.  相似文献   

东亚季风区夏季陆地生态系统碳循环对东亚夏季风的响应   总被引：3，自引：1，他引：2  

姜超  徐永福  季劲钧 《气候与环境研究》2013,18(3):329-341

东亚地区陆地生态系统的时空变率表现出明显的对季风气候的响应特征。使用EOF（经验正交分解）方法分析了AVIM2动态植被陆面模式离线模拟试验模拟的1953～2004年东亚季风区夏季陆地生态系统总初级生产力（GPP）、生态系统净初级生产力（NPP）、净生态系统初级生产力（NEP）、植被呼吸以及土壤呼吸的时空分布特点,探讨了东亚夏季风对陆地生态系统碳循环影响机制。研究发现,在强季风年,江淮地区高温少雨的特点限制了光合作用,造成GPP偏低;而华南地区在强季风年气候温暖湿润,利于植被生长,GPP偏高。季风对于植被呼吸和土壤呼吸影响不明显,使得GPP和植被呼吸之差NPP的变化及NPP和土壤呼吸之差NEP的变化与GPP的变化保持一致。在强季风年江淮流域地区干热的气候条件使得NPP和NEP降低;但是在华南地区温度升高的同时降水增多使得在NPP偏高的基础上NEP也偏高。  相似文献   

气候变化背景下麦田沟金针虫爆发性发生为害          下载免费PDF全文

任三学  赵花荣  齐月  田晓丽  杨超  胡丽丽 《应用气象学报》2020,31(5):620-630

近年华北地区大面积推行保护性耕作措施和作物秸秆粉碎还田,冬小麦与夏玉米一年两熟连续轮作种植,为沟金针虫创造了有利的取食和栖息环境。地处华北北部的中国气象局固城农业气象野外科学试验基地2018—2019年秋季、冬季、春季气温出现了冷暖交替,尤其最低气温显著偏高,诱发麦田沟金针虫爆发性发生为害。据春季麦田挖土调查,虫口密度最高达144头·m-2,虫口重量最重达18.764 g·m-2。58个调查点达防治指标5头·m-2占98.27%。拔节-收获期调查虫口密度孕穗期最高,拔节期次之,收获期最低。冬小麦与夏玉米禾本科作物连作种植田间虫口密度达35.3~40.4头·m-2,显著高于前茬大豆、玉米、冬小麦休闲地,且花生地、春玉米地比大豆地虫口密度高5倍多,虫口重量高10倍以上。成熟期虫害麦田测产,籽粒减产36.8%;虫口密度增加10头·m-2,籽粒减产率增加4.824%;虫口重量增加1 g·m-2,籽粒减产率增加3.871%;植株虫害率增加10%,籽粒减产率增加11.587%。  相似文献