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Benchmarking a Soil Moisture Data Assimilation System for Agricultural Drought Monitoring.

机译：农业干旱监测土壤水分数据同化系统基准。

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Despite considerable interest in the application of land surface data assimilation systems (LDAS) for agricultural drought applications, relatively little is known about the large-scale performance of such systems and, thus, the optimal methodological approach for implementing them. To address this need, this paper evaluates an LDAS for agricultural drought monitoring by benchmarking individual components of the system (i.e., a satellite soil moisture retrieval algorithm, a soil water balance model and a sequential data assimilation filter) against a series of linear models which perform the same function (i.e., have the same basic inputoutput structure) as the full system component. Benchmarking is based on the calculation of the lagged rank cross-correlation between the normalized difference vegetation index (NDVI) and soil moisture estimates acquired for various components of the system. Lagged soil moistureNDVI correlations obtained using individual LDAS components versus their linear analogs reveal the degree to which non-linearities andor complexities contained within each component actually contribute to the performance of the LDAS system as a whole. Here, a particular system based on surface soil moisture retrievals from the Land Parameter Retrieval Model (LPRM), a two-layer Palmer soil water balance model and an Ensemble Kalman filter (EnKF) is benchmarked. Results suggest significant room for improvement in each component of the system.

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Hun, E.; Crow, W. T.; Holmes, T.; Bolten, J.;
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年度 2014
页码 1-18
总页数 18
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Soil moisture; Normalized difference vegetation index; Cross correlation; Agriculture; Data systems; Drought; Earth surface; Assimilation; Kalman filters; Nonlinearity;

机译：土壤水分;归一化差异植被指数;互相关;农业;数据系统;干旱;地表;同化;卡尔曼滤波;非线性;

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专利

1. 基于GIS技术的农业干旱监测与评估系统 [J] . 李卫宁, 匡昭敏, 卢远, 农业科学与技术（英文版） . 2011,第009期
2. Benchmarking a Soil Moisture Data Assimilation System for Agricultural Drought Monitoring [J] . EUNJIN HAN, WADE T. CROW, THOMAS HOLMES, Journal of hydrometeorology . 2014,第3期

机译：建立用于农业干旱监测的土壤水分数据同化系统的基准
3. Inter-comparison of satellite-retrieved and Global Land Data Assimilation System-simulated soil moisture datasets for global drought analysis [J] . Liu Yongwei, Liu Yuanbo, Wang Wen Remote Sensing of Environment: An Interdisciplinary Journal . 2019,第期

机译：卫星检索和全球土地数据同化系统模拟土壤水分数据集的互相差异，全球干旱分析
4. Initializing numerical weather prediction models with satellite-derived surface soil moisture: Data assimilation experiments with ECMWF's Integrated Forecast System and the TMI soil moisture data set [J] . M. Drusch Journal of Geophysical Research, D. Atmospheres: JGR . 2007,第d3期

机译：使用卫星衍生的地表土壤湿度初始化数值天气预报模型：使用ECMWF的综合预报系统和TMI土壤湿度数据集进行数据同化实验
5. Improving soil moisture estimation by assimilating remotely sensed data into crop growth model for agricultural drought monitoring [C] . Hongkui Zhou, Jianjun Wu, Xiaohan Li, IEEE International Geoscience and Remote Sensing Symposium . 2016

机译：通过将遥感数据纳入农作物生长模型以进行农业干旱监测，改善土壤湿度估算
6. Remote sensing techniques for soil moisture and agricultural drought monitoring. [D] . Wang, Lingli. 2008

机译：用于土壤水分和农业干旱监测的遥感技术。
7. Joint Assimilation of Leaf Area Index and Soil Moisture from Sentinel-1 and Sentinel-2 Data into the WOFOST Model for Winter Wheat Yield Estimation [O] . Haizhu Pan, Zhongxin Chen, Allard de Wit, 2019

机译：从Sentinel-1和Sentinel-2数据将叶面积指数和土壤水分联合吸收到WOFOST模型中进行冬小麦产量估算
8. Initializing numerical weather prediction models with satellite-derived surface soil moisture: Data assimilation experiments with ECMWF's Integrated Forecast System and the TMI soil moisture data set [O] . M. Drusch 2007

机译：用卫星衍生的表面土壤水分初始化数值天气预报模型：数据同化实验与ECMWF的综合预测系统和TMI土壤水分数据集

Benchmarking a Soil Moisture Data Assimilation System for Agricultural Drought Monitoring.

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