Evaluating the Dependence of Vegetation on Climate in an Improved Dynamic Global Vegetation Model   总被引：2，自引：0，他引：2  

ZENG Xiaodong 《大气科学进展》2010,27(5):977-991

The capability of an improved Dynamic Global Vegetation Model (DGVM) in reproducing the impact of climate on the terrestrial ecosystem is evaluated. The new model incorporates the Community Land ModelDGVM (CLM3.0-DGVM) with a submodel for temperate and boreal shrubs, as well as other revisions such as the two-leaf scheme for photosynthesis and the definition of fractional coverage of plant functional types (PFTs). Results show that the revised model may correctly reproduce the global distribution of tempera...  相似文献   

层状云微观结构模型的观测和模拟初证          下载免费PDF全文

ZHAO Zhen  LEI Heng-Chi 《大气和海洋科学快报》2009,2(3):172-176

The microphysical ＂three-layer＂ model for stratiform clouds over a midlatitude location in Northwest China is investigated by combining in situ airborne Particle Measuring Systems, Inc. （PMS）, radar measurements, and the NCAR/Penn State Mesoscale Model Version 5 （MM5） simulation with a two-moment microphysics scheme. The coexistence of measured supercooled liquid water and small ice particles produces snow particles below the cloud top in the second layer. Peak number concentration and mean diameter of cloud water and raindrop appear in the third warm layer. A thin dry layer just below the melting layer is also observed. The predicted precipitation is tested by equitable threat score. The melting layer is clearly defined in the radar image and model radar reflectivity output is agreement with the observations. The model results provide features of the microphysical structure for every layer of ＂three-layer＂ model at Yan＇an station. For both observation and model simulation, the ＂three-layer＂ model explains the stratiform precipitation formation completely and comprehensively.  相似文献   

Application of a Coupled Land Surface-Hydrological Model to Flood Simulation in the Huaihe River Basin of China   总被引：1，自引：0，他引：1       下载免费PDF全文

LI Min  LIN Zhao-Hui  YANG Chuan-Guo  SHAO Quan-Xi 《大气和海洋科学快报》2014,7(6):493-498

A hydrological simulation in the Huaihe River Basin（HRB） was investigated using two different models： a coupled land surface hydrological model（CLHMS）, and a large-scale hydrological model（LSX-HMS）. The NCEP-NCAR reanalysis dataset and observed precipitation data were used as meteorological inputs. The simulation results from both models were compared in terms of flood processes forecasting during high flow periods in the summers of 2003 and 2007, and partial high flow periods in 2000. The comparison results showed that the simulated streamflow by CLHMS model agreed well with the observations with Nash-Sutcliffe coefficients larger than 0.76, in both periods of 2000 at Lutaizi and Bengbu stations in the HRB, while the skill of the LSX-HMS model was relatively poor. The simulation results for the high flow periods in 2003 and 2007 suggested that the CLHMS model can simulate both the peak time and intensity of the hydrological processes, while the LSX-HMS model provides a delayed flood peak. These results demonstrated the importance of considering the coupling between the land surface and hydrological module in achieving better predictions for hydrological processes, and CLHMS was proven to be a promising model for future applications in flood simulation and forecasting.  相似文献   

Vegetation Feedback at the Mid-Pliocene          下载免费PDF全文

JIANG Da-Bang 《大气和海洋科学快报》2013,6(5):320-323

A global atmospheric general circulation model and an asynchronously coupled global atmosphere-biome model are used to simulate vegetation feedback at the mid-Pliocene approximately 3.3 to 3.0 million years ago.For that period,the simulated vegetation differed from present conditions at 62%of the global ice-free land surface.Vegetation feedback had little overall impact on the global climate of the mid-Pliocene.At the regional scale,however,the interactive vegetation led to statistically significant increases in annual temperature over Greenland,the high latitudes of North America,the mid-high latitudes of eastern Eurasia,and western Tibet,and reductions in most of the land areas at low latitudes,owing to vegetation-induced changes in surface albedo.  相似文献   

一方程模型在植被冠层中的应用     

张淑君  王惠民  蒋华 《南京气象学院学报》2003,26(6):845-851

利用建立的一方程模式对植被气象场和湍流场进行了模拟计算。结果表明：在植被叶面积密度最大值处，由植被叶面积产生的阻力使风速急剧减小，而后平缓接近地面风速值。Reynolds应力从植被顶部向下剧烈减小，在Z／Hc值为0．4～0．6之间衰减迅速；冠层下部风速小且切变弱，湍流未能充分发展，因而动量输送甚微。由于在植被内部环境中存在着湍流通量的辐散或辐合的现象，湍流强度从植被底部开始由下至上逐渐增强，在冠层上方则基本保持不变。  相似文献   

黄河源区植被覆盖度对区域气候影响的数值模拟   总被引：2，自引：1，他引：1       下载免费PDF全文

张静辉  文军  张堂堂  罗亚勇  史小康  田辉 《高原气象》2011,30(4):989-995

利用1997-2006年8km空间分辨率的AVHRR/NDVI,得到了与区域气候模式RegCM3具有相同分辨率的植被覆盖度时间序列,并用其替代RegCM3模式中默认的植被覆盖度,对黄河源区主要气候要素进行了数值模拟。结果表明,使用卫星遥感估算的植被覆盖度,模拟的黄河源区气象台站月平均气温更接近实测值,局地降水量也有一定...  相似文献   

影响青藏高原植被生理过程与大气CO2浓度及气候变化的相互作用   总被引：11，自引：0，他引：11  

范广洲  程国栋 《大气科学》2002,26(4):509-518

利用一陆面过程模式,初步模拟研究了青藏高原夏季风盛行期植被生理过程与大气CO2浓度及气候变化的相互作用。结果表明,气候以及大气CO2浓度变化对青藏高原地区的植被生理过程有较明显的影响,高温、高温和高CO2浓度将加强高原植被的光合作用和呼吸作用,有利于植被生长。高原植被也可通过生理过程,产生净CO2呼收,降低大气CO2含量,起到调整温室效应的作用,从而影响全球气候变化;当气温升高、大气CO2增加时,这种作用更加有效。青藏高原地区大气CO2浓度加倍,对高原地区气候的直接影响不明显。植被的存在也会影响区域气候变化,并可通过改变高原热源,进而影响高原及其周边地区气候变化。文中还归纳出了植被生理与气候相互作用的简单概念模型。  相似文献   

基于GEE的阿坝红原机场建设前后植被覆盖度时空变化分析     

赵芮  李耀辉  王玮 《沙漠与绿洲气象(新疆气象)》2024,18(2):139-146

借助Google Earth Engine平台，以阿坝红原机场周边15 km缓冲区为研究区，选取30 m分辨率的Landsat系列卫星数据，并采用像元二分模型对该区域2004-2020年5-9月的遥感影像进行反演,从整体和像元尺度对机场建设前后的植被覆盖度的空间格局、结构变化及趋势进行了深入分析。研究结果表明：(1)机场通航后，其西北及东北方向的草地植被生长状况较好，且植被覆盖度随海拔增加呈下降趋势；(2)在2004-2020年期间，低植被度覆盖度和中低植被度覆盖度的面积分别减少60.04%和43.07%，而中植被覆盖度、中高植被覆盖度和高植被覆盖度的面积分别增长15.13%、50.11%和61.22%；(3)研究区植被覆盖度显著改善面积远超显著退化面积，改善区主要集中于机场的西北、东北及正南方向，显著退化区主要位于机场的正北、西南及东南方向。该研究结果能够更好地了解研究区植被覆盖度的动态变化，为机场周边生态环境的后续监测、修复和治理提供了基础数据，为生态环境保护和可持续发展提供更为科学的依据。  相似文献   

全球植被分布对气候影响的数值试验   总被引：7，自引：3，他引：4  

曾红玲  季劲钧  吴国雄 《大气科学》2010,34(1):1-11

利用一个新的陆－气双向耦合模式R42_AVIM, 通过有无植被覆盖的对比试验分析, 探讨了全球植被分布对气候和大气环流产生的潜在影响。得出: 陆面植被覆盖使得地表特征参数发生行星尺度的明显改变, 在叶面积指数大的热带和中高纬度森林带尤其显著。在现实植被分布下, 陆地表面反照率减小, 地表净辐射收支和地表潜热通量增加, 而地表感热通量减小。植被叶面积指数比较大的区域地表温度降低, 并且这种温度的改变一直延伸到对流层中上层, 在热带表现为斜压结构, 而在中高纬表现为相当正压结构。植被的存在使热带和中高纬度森林带的蒸发和相应的高层凝结潜热加热增强, 从而增强了经圈环流的上升支, 使得冬季在热带和南半球中纬度降水增多, 夏季在热带和北半球中高纬地区降水明显增多; 而经圈环流下沉支的增强致使副热带降水减少且更干旱。同时, 植被的存在使大陆潜热释放增强, 气温下降, 减小了海陆温度对比, 亚洲夏季风也有所减弱。  相似文献   

一个引入近地层的土壤一植被－大气相互作用模式     

赵鸣  江静  苏炳凯  符淙斌 《大气科学》1995,(4)

本文在国外同类模式基础上，结合自己特点建立了一个土壤一植被－大气近地层的相互作用模式。在这个模式中，土壤和植被与大气之间的各种通量输送是与近地层大气进行的，而不是同较高层大气直接交换，更符合实际情况。以大气几十米高处的风、温度、湿度为输入参数，驱动运行本模式，进行敏感性试验，并用有限的观测数据相比较。结果证明，本模式能合理模拟土壤、植被、大气的温、湿以及各种通量的变化。进一步与中尺度大气模式耦合可以用于气候研究。  相似文献   

Evaluation of the New Dynamic Global Vegetation Model in CAS-ESM     

Jiawen ZHU  Xiaodong ZENG  Minghua ZHANG  Yongjiu DAI  Duoying JI  Fang LI  Qian ZHANG  He ZHANG  Xiang SONG 《大气科学进展》2018,35(6):659-670

In the past several decades, dynamic global vegetation models(DGVMs) have been the most widely used and appropriate tool at the global scale to investigate vegetation-climate interactions. At the Institute of Atmospheric Physics, a new version of DGVM(IAP-DGVM) has been developed and coupled to the Common Land Model(CoLM) within the framework of the Chinese Academy of Sciences' Earth System Model(CAS-ESM). This work reports the performance of IAP-DGVM through comparisons with that of the default DGVM of CoLM(CoLM-DGVM) and observations. With respect to CoLMDGVM, IAP-DGVM simulated fewer tropical trees, more "needleleaf evergreen boreal tree" and "broadleaf deciduous boreal shrub", and a better representation of grasses. These contributed to a more realistic vegetation distribution in IAP-DGVM,including spatial patterns, total areas, and compositions. Moreover, IAP-DGVM also produced more accurate carbon fluxes than CoLM-DGVM when compared with observational estimates. Gross primary productivity and net primary production in IAP-DGVM were in better agreement with observations than those of CoLM-DGVM, and the tropical pattern of fire carbon emissions in IAP-DGVM was much more consistent with the observation than that in CoLM-DGVM. The leaf area index simulated by IAP-DGVM was closer to the observation than that of CoLM-DGVM; however, both simulated values about twice as large as in the observation. This evaluation provides valuable information for the application of CAS-ESM, as well as for other model communities in terms of a comparative benchmark.  相似文献   

陆地生态系统模型及其与气候模式耦合的回顾   总被引：5，自引：2，他引：3  

毛嘉富  王斌  戴永久 《气候与环境研究》2006,11(6):763-771

陆地生态系统和气候系统通过能量通量、水汽通量、物质交换相互影响、作用。作者对陆地生态系统模型及其与气候模式耦合的研究进行综述和讨论,总结了当代5类主要全球陆地生态系统模型,即生物地理模型、生物地球化学模型、森林林窗模型、陆面生物圈模型和动态全球植被模型,以及它们与气候模式耦合的研究进展。阐述了动态全球植被模型及其与气候模式耦合研究在全球变化研究的重要作用。最后,对未来模拟研究的方向进行了分析。  相似文献   

Impact of Spin-up Forcing on Vegetation States Simulated by a Dynamic Global Vegetation Model Coupled with a Land Surface Model     

LI Fang  ZENG Xiaodong  SONG Xiang  TIAN Dongxiao  SHAO Pu  ZHANG Dongling 《大气科学进展》2011,28(4):775-788

A dynamic global vegetation model (DGVM) coupled with a land surface model (LSM) is generally initialized using a spin-up process to derive a physically-consistent initial condition. Spin-up forcing, which is the atmospheric forcing used to drive the coupled model to equilibrium solutions in the spin-up process, varies across earlier studies. In the present study, the impact of the spin-up forcing in the initialization stage on the fractional coverages (FCs) of plant functional type (PFT) in the subsequent simulation stage are assessed in seven classic climate regions by a modified Community Land Model’s Dynamic Global Vegetation Model (CLM-DGVM). Results show that the impact of spin-up forcing is considerable in all regions except the tropical rainforest climate region (TR) and the wet temperate climate region (WM). In the tropical monsoon climate region (TM), the TR and TM transition region (TR-TM), the dry temperate climate region (DM), the highland climate region (H), and the boreal forest climate region (BF), where FCs are affected by climate non-negligibly, the discrepancies in initial FCs, which represent long-term cumulative response of vegetation to different climate anomalies, are large. Moreover, the large discrepancies in initial FCs usually decay slowly because there are trees or shrubs in the five regions. The intrinsic growth timescales of FCs for tree PFTs and shrub PFTs are long, and the variation of FCs of tree PFTs or shrub PFTs can affect that of grass PFTs.  相似文献   

全球植被与大气之间碳通量的模式估计   总被引：15，自引：0，他引：15  

Li Yinpeng  Ji Jinjun 《大气科学进展》2001,18(5):807-818

用大气植被相互作用模式(AⅥM)模拟了全球陆地植被的净初级生产力(NPP)。AⅥM由相互耦合的两部分组成：物理过程，包括陆地表面水分和能量在土壤、植被与大气之间的传输；以及生理生态过程，如：光合、呼吸、干物质分配、凋落和物候等。全球的植被分为13类，土壤按质地分为6类。用EMDI提供的全球1637个包括不同植被类型的NPP观测点数据对模型进行了检验。NPP模拟的结果表明：全球陆地植被的平均NPP为405.13 g C m-2yr-1，不同植被类型的平均NPP变化范围在99.58 g C m-2yr-l(苔原)到996.2 g C m-2yr-l(热带雨林)之间。全球年总NPP为60.72 Gt C yr-l，其中最大的部分为热带雨林，15.84 Gt C yr-1，占全球的26.09％。最大的碳汇是在北半球的温带。模式模拟的NPP在全球的空间和季节分布是合理的。  相似文献   

全球植被与大气之间碳通量的模式估计(英文)   总被引：1，自引：0，他引：1  

李银鹏  季劲钩 《大气科学进展》2001,(5)

用大气植被相互作用模式（AVIM）模拟了全球陆地植被的净初级生产力（NPP）。AVIM由相互耦合的两部分组成：物理过程，包括陆地表面水分和能量在土壤、植被与大气之间的传输；以及生理生态过程，如：光合、呼吸、干物质分配、凋落和物候等。全球的植被分为13类，土壤按质地分为6类。用EMDI提供的全球1637个包括不同植被类型的NPP观测点数据对模型进行了检验。NPP模拟的结果表明：全球陆地植被的平均NPP为405.13gCm-2yr-1，不同植被类型的平均 NPP变化范围在99.58 g Cm-2yr-1（苔原）到996.2 g Cm-2yr-1（热带雨林）之间。全球年总NPP为60.72GtCyr-1，其中最大的部分为热带雨林，15.84GtCyr-1，占全球的26.09％。最大的碳汇是在北半球的温带。模式模拟的NPP在全球的空间和季节分布是合理的。  相似文献   

Improving the vegetation dynamic simulation in a land surface model by using a statistical-dynamic canopy interception scheme     

梁妙玲  谢正辉 《大气科学进展》2008,25(4):610-618

Canopy interception of incident precipitation, as a critical component of a forest＇s water budget, can affect the amount of water available to the soil, and ultimately vegetation distribution and function. In this paper, a statistical-dynamic approach based on leaf area index and statistical canopy interception is used to parameterize the canopy interception process. The statistical-dynamic canopy interception scheme is implemented into the Community Land Model with dynamic global vegetation model （CLM-DGVM） to improve its dynamic vegetation simulation. The simulation for continental China by the land surface model with the new canopy interception scheme shows that the new one reasonably represents the precipitation intercepted by the canopy. Moreover, the new scheme enhances the water availability in the root zone for vegetation growth, especially in the densely vegetated and semi-arid areas, and improves the model＇s performance of potential vegetation simulation.  相似文献   

Seasonal Prediction of the Global Precipitation Annual Modes with the Grid-Point Atmospheric Model of IAP LASG          下载免费PDF全文

WU Zhiwei  LI Jianping 《Acta Meteorologica Sinica》2009,23(4):428-437

A right annual cycle is of critical importance for a model to improve its seasonal prediction skill. This work assesses the performance of the Grid-point Atmospheric Model of IAP LASG （GAMIL） in retrospective prediction of the global precipitation annual modes for the 1980 2004 period. The annual modes are gauged by a three-parameter metrics： the long-term annual mean and two major modes of annual cycle （AC）, namely, a solstitial mode and an equinoctial asymmetric mode. The results demonstrate that the GAMIL one-month lead prediction is basically able to capture the major patterns of the long-term annual mean as well as the first AC mode （the solstitial monsoon mode）. The GAMIL has deficiencies in reproducing the second AC mode （the equinoctial asymmetric mode）. The magnitude of the GAMIL prediction tends to be greater than the observed precipitation, especially in the sea areas including the Arabian Sea, the Bay of Bengal （BOB）, and the western North Pacific （WNP）. These biases may be due to underestimation of the convective activity predicted in the tropics, especially over the western Pacific warm pool （WPWP） and its neighboring areas. It is suggested that a more accurate parameterization of convection in the tropics, especially in the Maritime Continent, the WPWP and its neighboring areas, may be critical for reproducing the more realistic annual modes, since the enhancement of convective activity over the WPWP and its vicinity can induce suppressed convection over the WNP, the BOB, and the South Indian Ocean where the GAMIL produces falsely vigorous convections. More efforts are needed to improve the simulation not only in monsoon seasons but also in transitional seasons when the second AC mode takes place. Selection of the one-tier or coupled atmosphere-ocean system may also reduce the systematic error of the GAMIL prediction. These results offer some references for improvement of the GAMIL seasonal prediction skill.  相似文献   

Influence of dynamic vegetation on climate change arising from increasing CO<Subscript>2</Subscript>     

Ryouta O’ishi  Ayako Abe-Ouchi 《Climate Dynamics》2009,33(5):645-663

A dynamic global vegetation model (DGVM) is coupled to an atmospheric general circulation model (AGCM) to investigate the influence of vegetation dynamics on climate change under conditions of global warming. The model results are largely in agreement with observations and the results of previous studies in terms of the present climate, present potential vegetation, present net primary productivity (NPP), and pre-industrial carbon budgets. The equilibrium state of climate properties are compared among pre-industrial, doubled, and quadrupled atmospheric CO₂ values using DGVM–AGCM and current AGCM with fixed vegetation to evaluate the influence of dynamic vegetation change. We also separated the contributions of temperature, precipitation and CO₂ fertilization on vegetation change. The results reveal an amplification of global warming climate sensitivity by 10% due to the inclusion of dynamic vegetation. The total effects of elevated CO₂ and climate change also lead to an increase in NPP and vegetation coverage globally. The reduction of albedo associated with this greening results in enhanced global warming. Our separation analysis indicates that temperature alters vegetation at high latitudes such as Siberia or Alaska, where there is a switch from tundra to forest. On the other hand, CO₂ fertilization provides the largest contribution to greening in arid/semi-arid region. Precipitation change did not cause any drastic vegetation shift.  相似文献   

陆面网格尺度变换时植被类型处理方法的探讨   总被引：1，自引：1，他引：0       下载免费PDF全文

张正秋  孙菽芬 《应用气象学报》2008,19(2):129-136

针对陆面模式与大气模式耦合, 对比分析了模式网格点上多种植被并存和单一植被两种情况下的计算结果, 同时给出了网格元上地表有效温度、地表有效感热和潜热通量等的计算方案。试验使用SSiB陆面模式并以HAPEX-MOBILHY资料作为气象强迫场。试验结果表明:如果将网格元上多种植被类型归类成同一种植被类型, 模式对有效地表温度、感热和潜热通量等的计算结果与考虑多种植被类型的结果有很大差异。根据实际情况, HAPEX-MOBILHY试验区40%为森林, 60%为混合农业区, 如果根据一般的植被类型归类法, 将该试验区全部看作草地, 其积分结果与将该试验区看作40%为落叶针叶林和60%为草地的积分结果也存在一定的差别; 虽然有些植被类型在网格元上所占的覆盖面积较小, 但它却对网格元上地表通量的计算有较大的贡献。该研究对今后陆面模式耦合工作有一定的指导意义。  相似文献   

The role of land surface dynamics in glacial inception: a study with the UVic Earth System Model   总被引：5，自引：2，他引：3  

K. J. Meissner  A. J. Weaver  H. D. Matthews  P. M. Cox 《Climate Dynamics》2003,21(7-8):515-537

The first results of the UVic Earth System Model coupled to a land surface scheme and a dynamic global vegetation model are presented in this study. In the first part the present day climate simulation is discussed and compared to observations. We then compare a simulation of an ice age inception (forced with 116 ka BP orbital parameters and an atmospheric CO₂ concentration of 240 ppm) with a preindustrial run (present day orbital parameters, atmospheric [CO₂] = 280 ppm). Emphasis is placed on the vegetations response to the combined changes in solar radiation and atmospheric CO₂ level. A southward shift of the northern treeline as well as a global decrease in vegetation carbon is observed in the ice age inception run. In tropical regions, up to 88% of broadleaf trees are replaced by shrubs and C₄ grasses. These changes in vegetation cover have a remarkable effect on the global climate: land related feedbacks double the atmospheric cooling during the ice age inception as well as the reduction of the meridional overturning in the North Atlantic. The introduction of vegetation related feedbacks also increases the surface area with perennial snow significantly.  相似文献