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We evaluate water budget components—namely, soil moisture, runoff, evapotranspiration, and terrestrial water storage (TWS)—simulated by the Noah land surface model with multi-parameterization options (Noah-MP) in China, a large geographic domain challenging for hydrological modeling due to poor observational data and a lack of one single parameterization that can fit for complex hydrological processes. By comparing the model simulations with multi-source reference data, we show that Noah-MP can generally reproduce the overall spatiotemporal patterns of runoff and evapotranspiration over six major river basins, with the annual correlation coefficients generally greater than 0.8 and the Nash–Sutcliffe model efficiency coefficient exceeding 0.5. Among the six basins evaluated, the best model performance is seen over the Huaihe River basin. The temporal trend of the modeled TWS anomalies agrees well with GRACE (Gravity Recovery and Climate Experiment) observations, capturing major flood and drought events in different basins. Experiments with 12 selected physical parameterization options show that the runoff parameterization has a stronger impact on the simulated soil moisture–runoff–evapotranspiration relationships than the soil moisture factor for stomatal resistance schemes, a result consistent with previous studies. Overall, Noah-MP driven by GLDAS forcing simulates the hydrological variables well, except for the Songliao basin in northeastern China, likely because this is a transitional region with extensive freeze–thaw activity, while representations of human activities may also help improve the model performance.  相似文献   
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为研究陆面模型Noah-MP在沙漠下垫面的最优参数化方案组合,本文利用中国气象局塔克拉玛干沙漠气象野外科学试验基地观测数据,根据沙漠环境特征进行不同参数化方案组合的三组模拟实验,利用观测数据对10 cm土壤温湿度、感热、潜热通量模拟值对比分析得出最优组合。研究表明:第三组对10 cm的土壤温度模拟效果最好,主要原因是Chen97感热交换系数和全网格二流近似(gap=0)辐射传输方案比较符合沙漠的环境特征。三组试验对土壤湿度模拟效果差,其主要原因是沙漠的土壤信息未能体现在模式中,第二组选择CLM方案对土壤类型影响蒸发方面有一定考虑,其模拟结果相对较好。对于感热通量,第一、二组模拟值在波峰存在高估,尤其是第二组模拟值在降水后出现了明显低估情况,第三组模拟效果最好,主要得益于选择了感热交换系数Chen97方案,能够较为真实的刻画Ch变化特征。潜热通量在四个特征量中模拟效果最差,主要原因是沙漠土壤水分极低,观测降水和实际进入土壤的水量有差异,另外没有植被和植物根系,模式无法准确计算土壤蒸发和植被蒸散。根据统计分析和泰勒图可知,第三组能够更好地还原沙漠区域的陆面过程。  相似文献   
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The authors examined the performance of version 3.4.1 of the Weather Research and Forecasting Model(WRF) with various land surface schemes in simulating a severe drought event in Southwest China. Five numerical experiments were completed using the Noah land surface scheme, the Pleim-Xiu land surface scheme, the Noah-MP land surface schemes, the Noah- MP scheme with dynamic vegetation, and the Noah-MP scheme with dynamic vegetation and groundwater processes. In general, all the simulations reasonably reproduced the spatial and temporal variations in precipitation, but significant bias was also found, especially for the spatial pattern of simulated precipitation. The WRF simulations with the Noah-MP series land surface schemes performed slightly better than the WRF simulation with the Noah and Pleim-Xiu land surface schemes in reproducing the severe drought events in Southwest China. The leaf area index(LAI) simulated by the different land surface schemes showed significant deviations in Southwest China. The Pleim-Xiu scheme overestimated the value of LAI by a factor of two. The Noah-MP scheme with dynamical vegetation overestimated the magnitude of the annual cycle of the LAI, although the annual mean LAI was close to observations. The simulated LAI showed a long-term lower value from autumn 2009 to spring 2010 relative to normal years. This indicates that the LAI is a potential indictor to monitor drought events.  相似文献   
4.
As an important part of biogeochemical cycling, the nitrogen cycle modulates terrestrial ecosystem carbon storage,water consumption, and environmental quality. Modeling the complex interactions between nitrogen, carbon and water at a regional scale remains challenging. Using China as a testbed, this study presents the first application of the nitrogenaugmented community Noah land surface model with multi-parameterization options(Noah-MP-CN) at the regional scale.Noah-MP-CN parameterizes the constraints of nitrogen availability on photosynthesis based on the Fixation and Uptake of Nitrogen plant nitrogen model and the Soil and Water Assessment Tool soil nitrogen model. The impacts of nitrogen dynamics on the terrestrial carbon and water cycles are investigated by comparing the simulations with those from the original Noah-MP. The results show that incorporating nitrogen dynamics improves the carbon cycle simulations. NoahMP-CN outperforms Noah-MP in reproducing leaf area index(LAI) and gross primary productivity(GPP) for most of China, especially in the southern warm and humid regions, while the hydrological simulations only exhibit slight improvements in soil moisture and evapotranspiration. The impacts of fertilizer application over cropland on carbon fixation, water consumption and nitrogen leaching are investigated through a trade-off analysis. Compared to halved fertilizer use, the actual quantity of application increases GPP and water consumption by only 1.97% and 0.43%,respectively; however, the nitrogen leaching is increased by 5.35%. This indicates that the current level of fertilizer use is a potential concern for degrading the environment.  相似文献   
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陆面水热通量的准确模拟可为气候模式提供高质量的下边界条件,对气候模拟和预测具有重要意义。本研究基于干旱区张掖国家气候观象台2021年1月-2022年6月和大满灌区绿洲农田站2020年1-12月的观测数据,评估Noah-MP模式对干旱区荒漠和农田两种下垫面的水热通量的模拟性能。结果表明:Noah-MP模式模拟的干旱区荒漠下垫面辐射及感热和潜热通量的变化特征、峰谷值与观测值总体一致,模拟效果较好;模拟的5 cm土壤湿度对降水过程有明显的响应,表现出明显的冷暖季差异,但其模拟性能仍有待改进。Noah-MP模式对干旱区农田下垫面辐射通量及各层土壤温度的模拟效果较理想,但模拟的潜热通量及各层土壤湿度较观测值偏低,尤其在生长季模拟性能并不理想。总体而言,Noah-MP模式对干旱区荒漠下垫面水热通量的模拟性能优于农田下垫面,优化和发展模式水文过程的参数化方案,在模式中考虑人为作用,是提高干旱区陆面过程模式模拟能力的重要方向。  相似文献   
6.
针对陆面模式Noah-MP对兰州大学半干旱气候与环境观测站(SACOL)2009年8月地表热通量模拟值偏差大的问题,通过分析相关物理过程和模拟试验来探究偏差的来源,并确定合适的参数化方案:采用Chen97方案计算感热输送系数可以改善感热通量的模拟;采用Jarvis气孔阻抗方案能增大植被蒸腾,改进模式对潜热通量的模拟效果,同时也使热通量在感热和潜热间的分配比例合理;采用LP92方案可减小土壤蒸发阻抗并有利于土壤蒸发,使得模式对潜热通量的模拟效果变好。不同参数化方案的组合试验表明:同时采用2组或3组新的参数化方案组合可以进一步减小模拟的地表感热和潜热通量的均方根误差,但是土壤湿度和温度的模拟效果并没有同步改善。  相似文献   
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