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3. Shuffled Complex-Self Adaptive Hybrid EvoLution (SC-SAHEL) optimization framework

Author

Rahnamay Naeini, M, Yang, T, Sadegh, M, AghaKouchak, A, Hsu, KL, Sorooshian, S, Duan, Q, and Lei, X

Subjects
Shuffled Complex Evolution, Hybrid optimization, Evolutionary Algorithm, Reservoir operation, Hydropower, Environmental Engineering
Abstract

Simplicity and flexibility of meta-heuristic optimization algorithms have attracted lots of attention in the field of optimization. Different optimization methods, however, hold algorithm-specific strengths and limitations, and selecting the best-performing algorithm for a specific problem is a tedious task. We introduce a new hybrid optimization framework, entitled Shuffled Complex-Self Adaptive Hybrid EvoLution (SC-SAHEL), which combines the strengths of different evolutionary algorithms (EAs) in a parallel computing scheme. SC-SAHEL explores performance of different EAs, such as the capability to escape local attractions, speed, convergence, etc., during population evolution as each individual EA suits differently to various response surfaces. The SC-SAHEL algorithm is benchmarked over 29 conceptual test functions, and a real-world hydropower reservoir model case study. Results show that the hybrid SC-SAHEL algorithm is rigorous and effective in finding global optimum for a majority of test cases, and that it is computationally efficient in comparison to algorithms with individual EA.

Published
2018

4. Pharmacogenomics study of thiazide diuretics and QT interval in multi-ethnic populations: the cohorts for heart and aging research in genomic epidemiology

Author

Seyerle, AA, Sitlani, CM, Noordam, R, Gogarten, SM, Li, J, Li, X, Evans, DS, Sun, F, Laaksonen, MA, Isaacs, A, Kristiansson, K, Highland, HM, Stewart, JD, Harris, TB, Trompet, S, Bis, JC, Peloso, GM, Brody, JA, Broer, L, Busch, EL, Duan, Q, Stilp, AM, O'Donnell, CJ, Macfarlane, PW, Floyd, JS, Kors, JA, Lin, HJ, Li-Gao, R, Sofer, T, Méndez-Giráldez, R, Cummings, SR, Heckbert, SR, Hofman, A, Ford, I, Li, Y, Launer, LJ, Porthan, K, Newton-Cheh, C, Napier, MD, Kerr, KF, Reiner, AP, Rice, KM, Roach, J, Buckley, BM, Soliman, EZ, de Mutsert, R, Sotoodehnia, N, Uitterlinden, AG, North, KE, Lee, CR, Gudnason, V, Stürmer, T, Rosendaal, FR, Taylor, KD, Wiggins, KL, Wilson, JG, Chen, Y-DI, Kaplan, RC, Wilhelmsen, K, Cupples, LA, Salomaa, V, van Duijn, C, Jukema, JW, Liu, Y, Mook-Kanamori, DO, Lange, LA, Vasan, RS, Smith, AV, Stricker, BH, Laurie, CC, Rotter, JI, Whitsel, EA, Psaty, BM, and Avery, CL

Subjects
Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Genetics, Cardiovascular, Human Genome, Adult, Aged, Aged, 80 and over, Aging, Cohort Studies, Electrocardiography, Ethnicity, Female, Genomics, Heart Rate, Humans, Longitudinal Studies, Male, Middle Aged, Pharmacogenetics, Polymorphism, Single Nucleotide, Sodium Chloride Symporter Inhibitors, Pharmacology & Pharmacy, Pharmacology and pharmaceutical sciences
Abstract

Thiazide diuretics, commonly used antihypertensives, may cause QT interval (QT) prolongation, a risk factor for highly fatal and difficult to predict ventricular arrhythmias. We examined whether common single-nucleotide polymorphisms (SNPs) modified the association between thiazide use and QT or its component parts (QRS interval, JT interval) by performing ancestry-specific, trans-ethnic and cross-phenotype genome-wide analyses of European (66%), African American (15%) and Hispanic (19%) populations (N=78 199), leveraging longitudinal data, incorporating corrected standard errors to account for underestimation of interaction estimate variances and evaluating evidence for pathway enrichment. Although no loci achieved genome-wide significance (P

Published
2018

5. A Review of Global Precipitation Data Sets: Data Sources, Estimation, and Intercomparisons

Author

Sun, Q, Miao, C, Duan, Q, Ashouri, H, Sorooshian, S, and Hsu, KL

Subjects
global precipitation, gauge-based, satellite-based, reanalysis, development, uncertainty, Meteorology & Atmospheric Sciences, Earth Sciences, Engineering, Physical Sciences
Abstract

In this paper, we present a comprehensive review of the data sources and estimation methods of 30 currently available global precipitation data sets, including gauge-based, satellite-related, and reanalysis data sets. We analyzed the discrepancies between the data sets from daily to annual timescales and found large differences in both the magnitude and the variability of precipitation estimates. The magnitude of annual precipitation estimates over global land deviated by as much as 300 mm/yr among the products. Reanalysis data sets had a larger degree of variability than the other types of data sets. The degree of variability in precipitation estimates also varied by region. Large differences in annual and seasonal estimates were found in tropical oceans, complex mountain areas, northern Africa, and some high-latitude regions. Overall, the variability associated with extreme precipitation estimates was slightly greater at lower latitudes than at higher latitudes. The reliability of precipitation data sets is mainly limited by the number and spatial coverage of surface stations, the satellite algorithms, and the data assimilation models. The inconsistencies described limit the capability of the products for climate monitoring, attribution, and model validation.

Published
2018

6. Large-scale pharmacogenomic study of sulfonylureas and the QT, JT and QRS intervals: CHARGE Pharmacogenomics Working Group

Author

Floyd, JS, Sitlani, CM, Avery, CL, Noordam, R, Li, X, Smith, AV, Gogarten, SM, Li, J, Broer, L, Evans, DS, Trompet, S, Brody, JA, Stewart, JD, Eicher, JD, Seyerle, AA, Roach, J, Lange, LA, Lin, HJ, Kors, JA, Harris, TB, Li-Gao, R, Sattar, N, Cummings, SR, Wiggins, KL, Napier, MD, Stürmer, T, Bis, JC, Kerr, KF, Uitterlinden, AG, Taylor, KD, Stott, DJ, de Mutsert, R, Launer, LJ, Busch, EL, Méndez-Giráldez, R, Sotoodehnia, N, Soliman, EZ, Li, Y, Duan, Q, Rosendaal, FR, Slagboom, PE, Wilhelmsen, KC, Reiner, AP, Chen, Y-DI, Heckbert, SR, Kaplan, RC, Rice, KM, Jukema, JW, Johnson, AD, Liu, Y, Mook-Kanamori, DO, Gudnason, V, Wilson, JG, Rotter, JI, Laurie, CC, Psaty, BM, Whitsel, EA, Cupples, LA, and Stricker, BH

Subjects
Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Genetics, Cardiovascular, Human Genome, Heart Disease, Patient Safety, Clinical Research, Good Health and Well Being, Aged, Cardiovascular Diseases, Cytochrome P-450 CYP2C9, Diabetes Mellitus, Type 2, Drug-Related Side Effects and Adverse Reactions, Electrocardiography, Ethnicity, Female, Genetic Variation, Genome-Wide Association Study, Humans, Male, Middle Aged, Pharmacogenetics, Pharmacogenomic Testing, Sulfonylurea Compounds, Pharmacology & Pharmacy, Pharmacology and pharmaceutical sciences
Abstract

Sulfonylureas, a commonly used class of medication used to treat type 2 diabetes, have been associated with an increased risk of cardiovascular disease. Their effects on QT interval duration and related electrocardiographic phenotypes are potential mechanisms for this adverse effect. In 11 ethnically diverse cohorts that included 71 857 European, African-American and Hispanic/Latino ancestry individuals with repeated measures of medication use and electrocardiogram (ECG) measurements, we conducted a pharmacogenomic genome-wide association study of sulfonylurea use and three ECG phenotypes: QT, JT and QRS intervals. In ancestry-specific meta-analyses, eight novel pharmacogenomic loci met the threshold for genome-wide significance (P

Published
2018

7. Genome-wide association analysis identifies six new loci associated with forced vital capacity

Author

Loth, DW, Artigas, MS, Gharib, SA, Wain, LV, Franceschini, N, Koch, B, Pottinger, TD, Smith, AV, Duan, Q, Oldmeadow, C, Lee, MK, Strachan, DP, James, AL, Huffman, JE, Vitart, V, Ramasamy, A, Wareham, NJ, Kaprio, J, Wang, XQ, Trochet, H, Kähönen, M, Flexeder, C, Albrecht, E, Lopez, LM, De Jong, K, Thyagarajan, B, Alves, AC, Enroth, S, Omenaas, E, Joshi, PK, Fall, T, Viñuela, A, Launer, LJ, Loehr, LR, Fornage, M, Li, G, Wilk, JB, Tang, W, Manichaikul, A, Lahousse, L, Harris, TB, North, KE, Rudnicka, AR, Hui, J, Gu, X, Lumley, T, Wright, AF, Hastie, ND, Campbell, S, Kumar, R, Pin, I, Scott, RA, Pietiläinen, KH, Surakka, I, Liu, Y, Holliday, EG, Schulz, H, Heinrich, J, Davies, G, Vonk, JM, Wojczynski, M, Pouta, A, Johansson, A, Wild, SH, Ingelsson, E, Rivadeneira, F, Völzke, H, Hysi, PG, Eiriksdottir, G, Morrison, AC, Rotter, JI, Gao, W, Postma, DS, White, WB, Rich, SS, Hofman, A, Aspelund, T, Couper, D, Smith, LJ, Psaty, BM, Lohman, K, Burchard, EG, Uitterlinden, AG, Garcia, M, Joubert, BR, McArdle, WL, Musk, AB, Hansel, N, Heckbert, SR, Zgaga, L, Van Meurs, JBJ, Navarro, P, Rudan, I, Oh, YM, Redline, S, Jarvis, DL, Zhao, JH, Rantanen, T, O'Connor, GT, and Ripatti, S

Subjects
Developmental Biology, Medical and Health Sciences, Biological Sciences
Abstract

Forced vital capacity (FVC), a spirometric measure of pulmonary function, reflects lung volume and is used to diagnose and monitor lung diseases. We performed genome-wide association study meta-analysis of FVC in 52,253 individuals from 26 studies and followed up the top associations in 32,917 additional individuals of European ancestry. We found six new regions associated at genome-wide significance (P < 5 × 10-8) with FVC in or near EFEMP1, BMP6, MIR129-2-HSD17B12, PRDM11, WWOX and KCNJ2. Two loci previously associated with spirometric measures (GSTCD and PTCH1) were related to FVC. Newly implicated regions were followed up in samples from African-American, Korean, Chinese and Hispanic individuals. We detected transcripts for all six newly implicated genes in human lung tissue. The new loci may inform mechanisms involved in lung development and the pathogenesis of restrictive lung disease.© 2014 Nature America, Inc. All rights reserved.

Published
2014

10. Multi-model ensemble hydrologic prediction using Bayesian model averaging

Author

Duan, Q, Ajami, NK, Gao, X, and Sorooshian, S

Subjects
Bayesian model averaging, ensemble hydrologic prediction, multi-model combination, uncertainty estimation, Civil Engineering, Environmental Engineering, Applied Mathematics
Abstract

Multi-model ensemble strategy is a means to exploit the diversity of skillful predictions from different models. This paper studies the use of Bayesian model averaging (BMA) scheme to develop more skillful and reliable probabilistic hydrologic predictions from multiple competing predictions made by several hydrologic models. BMA is a statistical procedure that infers consensus predictions by weighing individual predictions based on their probabilistic likelihood measures, with the better performing predictions receiving higher weights than the worse performing ones. Furthermore, BMA provides a more reliable description of the total predictive uncertainty than the original ensemble, leading to a sharper and better calibrated probability density function (PDF) for the probabilistic predictions. In this study, a nine-member ensemble of hydrologic predictions was used to test and evaluate the BMA scheme. This ensemble was generated by calibrating three different hydrologic models using three distinct objective functions. These objective functions were chosen in a way that forces the models to capture certain aspects of the hydrograph well (e.g., peaks, mid-flows and low flows). Two sets of numerical experiments were carried out on three test basins in the US to explore the best way of using the BMA scheme. In the first set, a single set of BMA weights was computed to obtain BMA predictions, while the second set employed multiple sets of weights, with distinct sets corresponding to different flow intervals. In both sets, the streamflow values were transformed using Box-Cox transformation to ensure that the probability distribution of the prediction errors is approximately Gaussian. A split sample approach was used to obtain and validate the BMA predictions. The test results showed that BMA scheme has the advantage of generating more skillful and equally reliable probabilistic predictions than original ensemble. The performance of the expected BMA predictions in terms of daily root mean square error (DRMS) and daily absolute mean error (DABS) is generally superior to that of the best individual predictions. Furthermore, the BMA predictions employing multiple sets of weights are generally better than those using single set of weights. © 2006 Elsevier Ltd. All rights reserved.

Published
2007

11. An integrated hydrologic Bayesian multimodel combination framework: Confronting input, parameter, and model structural uncertainty in hydrologic prediction

Author

Ajami, NK, Duan, Q, and Sorooshian, S

Subjects
Civil Engineering, Environmental Engineering, Applied Economics, Physical Geography and Environmental Geoscience
Abstract

The conventional treatment of uncertainty in rainfall-runoff modeling primarily attributes uncertainty in the input-output representation of the model to uncertainty in the model parameters without explicitly addressing the input, output, and model structural uncertainties. This paper presents a new framework, the Integrated Bayesian Uncertainty Estimator (IBUNE), to account for the major uncertainties of hydrologic rainfall-runoff predictions explicitly. IBUNE distinguishes between the various sources of uncertainty including parameter, input, and model structural uncertainty. An input error model in the form of a Gaussian multiplier has been introduced within IBUNE. These multipliers are assumed to be drawn from an identical distribution with an unknown mean and variance which were estimated along with other hydrological model parameters by a Monte Carlo Markov Chain (MCMC) scheme. IBUNE also includes the Bayesian model averaging (BMA) scheme which is employed to further improve the prediction skill and address model structural uncertainty using multiple model outputs. A series of case studies using three rainfall-runoff models to predict the streamflow in the Leaf River basin, Mississippi, are used to examine the necessity and usefulness of this technique. The results suggest that ignoring either input forcings error or model structural uncertainty will lead to unrealistic model simulations and incorrect uncertainty bounds. Copyright 2007 by the American Geophysical Union.

Published
2007

12. Multimodel combination techniques for analysis of hydrological simulations: Application to distributed model intercomparison project results

Author

Ajami, NK, Duan, Q, Gao, X, and Sorooshian, S

Subjects
Meteorology & Atmospheric Sciences, Atmospheric Sciences
Abstract

This paper examines several multimodel combination techniques that are used for streamflow forecasting: the simple model average (SMA), the multimodel superensemble (MMSE), modified multimodel superensemble (M3SE), and the weighted average method (WAM). These model combination techniques were evaluated using the results from the Distributed Model Intercomparison Project (DMIP), an international project sponsored by the National Weather Service (NWS) Office of Hydrologic Development (OHD). All of the multimodel combination results were obtained using uncalibrated DMIP model simulations and were compared against the best-uncalibrated as well as the best-calibrated individual model results. The purpose of this study is to understand how different combination techniques affect the accuracy levels of the multimodel simulations. This study revealed that the multimodel simulations obtained from uncalibrated single-model simulations are generally better than any single-member model simulations, even the best-calibrated single-model simulations. Furthermore, more sophisticated multimodel combination techniques that incorporated bias correction step work better than simple multimodel average simulations or multimodel simulations without bias correction. © 2006 American Meteorological Society.

Published
2006

13. Model Parameter Estimation Experiment (MOPEX): An overview of science strategy and major results from the second and third workshops

Author

Duan, Q, Schaake, J, Andréassian, V, Franks, S, Goteti, G, Gupta, HV, Gusev, YM, Habets, F, Hall, A, Hay, L, Hogue, T, Huang, M, Leavesley, G, Liang, X, Nasonova, ON, Noilhan, J, Oudin, L, Sorooshian, S, Wagener, T, and Wood, EF

Subjects
MOPEX, a priori parameter estimation, model calibration, rainfall-runoff modeling, regionalization, uncertainty analysis, Environmental Engineering
Abstract

The Model Parameter Estimation Experiment (MOPEX) is an international project aimed at developing enhanced techniques for the a priori estimation of parameters in hydrologic models and in land surface parameterization schemes of atmospheric models. The MOPEX science strategy involves three major steps: data preparation, a priori parameter estimation methodology development, and demonstration of parameter transferability. A comprehensive MOPEX database has been developed that contains historical hydrometeorological data and land surface characteristics data for many hydrologic basins in the United States (US) and in other countries. This database is being continuously expanded to include more basins in all parts of the world. A number of international MOPEX workshops have been convened to bring together interested hydrologists and land surface modelers from all over world to exchange knowledge and experience in developing a priori parameter estimation techniques. This paper describes the results from the second and third MOPEX workshops. The specific objective of these workshops is to examine the state of a priori parameter estimation techniques and how they can be potentially improved with observations from well-monitored hydrologic basins. Participants of the second and third MOPEX workshops were provided with data from 12 basins in the southeastern US and were asked to carry out a series of numerical experiments using a priori parameters as well as calibrated parameters developed for their respective hydrologic models. Different modeling groups carried out all the required experiments independently using eight different models, and the results from these models have been assembled for analysis in this paper. This paper presents an overview of the MOPEX experiment and its design. The main experimental results are analyzed. A key finding is that existing a priori parameter estimation procedures are problematic and need improvement. Significant improvement of these procedures may be achieved through model calibration of well-monitored hydrologic basins. This paper concludes with a discussion of the lessons learned, and points out further work and future strategy. © 2005 Elsevier Ltd. All rights reserved.

Published
2006

14. Model Parameter Estimation Experiment (MOPEX): An overview of science strategy and major results from the second and third workshops

Author

Duan, Q, Schaake, J, Andréassian, V, Franks, S, Goteti, G, Gupta, HV, Gusev, YM, Habets, F, Hall, A, Hay, L, Hogue, T, Huang, M, Leavesley, G, Liang, X, Nasonova, ON, Noilhan, J, Oudin, L, Sorooshian, S, Wagener, T, and Wood, EF

Subjects
MOPEX, a priori parameter estimation, model calibration, rainfall-runoff modeling, regionalization, uncertainty analysis, Environmental Engineering
Abstract

The Model Parameter Estimation Experiment (MOPEX) is an international project aimed at developing enhanced techniques for the a priori estimation of parameters in hydrologic models and in land surface parameterization schemes of atmospheric models. The MOPEX science strategy involves three major steps: data preparation, a priori parameter estimation methodology development, and demonstration of parameter transferability. A comprehensive MOPEX database has been developed that contains historical hydrometeorological data and land surface characteristics data for many hydrologic basins in the United States (US) and in other countries. This database is being continuously expanded to include more basins in all parts of the world. A number of international MOPEX workshops have been convened to bring together interested hydrologists and land surface modelers from all over world to exchange knowledge and experience in developing a priori parameter estimation techniques. This paper describes the results from the second and third MOPEX workshops. The specific objective of these workshops is to examine the state of a priori parameter estimation techniques and how they can be potentially improved with observations from well-monitored hydrologic basins. Participants of the second and third MOPEX workshops were provided with data from 12 basins in the southeastern US and were asked to carry out a series of numerical experiments using a priori parameters as well as calibrated parameters developed for their respective hydrologic models. Different modeling groups carried out all the required experiments independently using eight different models, and the results from these models have been assembled for analysis in this paper. This paper presents an overview of the MOPEX experiment and its design. The main experimental results are analyzed. A key finding is that existing a priori parameter estimation procedures are problematic and need improvement. Significant improvement of these procedures may be achieved through model calibration of well-monitored hydrologic basins. This paper concludes with a discussion of the lessons learned, and points out further work and future strategy. © 2005 Elsevier Ltd. All rights reserved.

Published
2006

15. Effects of frozen soil on soil temperature, spring infiltration, and runoff: Results from the PILPS 2(d) experiment at Valdai, Russia

Author

Luo, L F, Robock, A, Vinnikov, K Y, Schlosser, C A, Slater, A G, Boone, A, Braden, H, Cox, P, de Rosnay, P, Dickinson, R E, Dai, Y J, Duan, Q Y, Etchevers, P, Henderson-Sellers, A, Gedney, N, Gusev, Y M, Habets, F, Kim, J W, Kowalczyk, E, Mitchell, K, Nasonova, O N, Noilhan, J, Pitman, A J, Schaake, J, Shmakin, A B, Smirnova, T G, Wetzel, P, Xue, Yongkang K, Yang, Z L, and Zeng, Q C

Abstract

The Project for Intercomparison of Land-Surface Parameterization Schemes phase 2(d) experiment at Valdai, Russia, offers a unique opportunity to evaluate land surface schemes, especially snow and frozen soil parameterizations. Here, the ability of the 21 schemes that participated in the experiment to correctly simulate the thermal and hydrological properties of the soil on several different timescales was examined. Using observed vertical profiles of soil temperature and soil moisture, the impact of frozen soil schemes in the land surface models on the soil temperature and soil moisture simulations was evaluated. It was found that when soil-water freezing is explicitly included in a model, it improves the simulation of soil temperature and its variability at seasonal and interannual scales. Although change of thermal conductivity of the soil also affects soil temperature simulation, this effect is rather weak. The impact of frozen soil on soil moisture is inconclusive in this experiment due to the particular climate at Valdai, where the top 1 m of soil is very close to saturation during winter and the range for soil moisture changes at the time of snowmelt is very limited. The results also imply that inclusion of explicit snow processes in the models would contribute to substantially improved simulations. More sophisticated snow models based on snow physics tend to produce better snow simulations, especially of snow ablation. Hysteresis of snow-cover fraction as a function of snow depth is observed at the catchment but not in any of the models.

Published
2003

16. The Representation of Snow in Land Surface Schemes: Results from PILPS 2(d)

Author

Slater, AG, Schlosser, CA, Desborough, CE, Pitman, AJ, Henderson-Sellers, A, Robock, A, Vinnikov, K Ya, Entin, J, Mitchell, K, Chen, F, Boone, A, Etchevers, P, Habets, F, Noilhan, J, Braden, H, Cox, PM, de Rosnay, P, Dickinson, RE, Yang, Z-L, Dai, Y-J, Zeng, Q, Duan, Q, Koren, V, Schaake, S, Gedney, N, Gusev, Ye M, Nasonova, ON, Kim, J, Kowalczyk, EA, Shmakin, AB, Smirnova, TG, Verseghy, D, Wetzel, P, and Xue, Y

Subjects
Climate Action, Atmospheric Sciences, Meteorology & Atmospheric Sciences
Published
2001

17. The representation of snow in land surface schemes: Results from PILPS 2(d)

Author

Slater, AG, Schlosser, CA, Desborough, CE, Pitman, AJ, Henderson-Sellers, A, Robock, A, Vinnikov, KY, Mitchell, K, Boone, A, Braden, H, Chen, F, Cox, PM, de Rosnay, P, Dickinson, RE, Dai, YJ, Duan, Q, Entin, J, Etchevers, P, Gedney, N, Gusev, YM, Habets, F, Kim, J, Koren, V, Kowalczyk, EA, Nasonova, ON, Noilhan, J, Schaake, S, Shmakin, AB, Smirnova, TG, Verseghy, D, Wetzel, P, Yue, X, Yang, ZL, and Zeng, Q

Subjects
Meteorology & Atmospheric Sciences, Atmospheric Sciences
Published
2001

18. Simulations of a boreal grassland hydrology at Valdai, Russia: PILPS phase 2(d)

Author

Schlosser, CA, Slater, AG, Robock, A, Pitman, AJ, Vinnikov, KY, Henderson-Sellers, A, Speranskaya, NA, Mitchell, K, Boone, A, Braden, H, Chen, F, Cox, P, De Rosnay, P, Desborough, CE, Dickenson, RE, Dai, YJ, Duan, Q, Entin, J, Etchevers, P, Gedney, N, Gusev, YM, Habets, F, Kim, J, Koren, V, Kowalczyk, E, Nasonova, ON, Noilhan, J, Schaake, J, Shmakin, AB, Smirnova, TG, Verseghy, D, Wetzel, P, Xue, Y, and Yang, ZL

Subjects
Meteorology & Atmospheric Sciences, Atmospheric Sciences, Applied Mathematics
Abstract

The Project for the Intercomparison of Land-Surface Parameterization Schemes (PILPS) aims to improve understanding and modeling of land surface processes. PILPS phase 2(d) uses a set of meteorological and hydrological data spanning 18 yr (1966-83) from a grassland catchment at the Valdai water-balance research site in Russia. A suite of stand-alone simulations is performed by 21 land surface schemes (LSSs) to explore the LSSs' sensitivity to downward longwave radiative forcing, timescales of simulated hydrologic variability, and biases resulting from single-year simulations that use recursive spinup. These simulations are the first in PILPS to investigate the performance of LSSs at a site with a well-defined seasonal snow cover and frozen soil. Considerable model scatter for the control simulations exists. However, nearly all the LSS scatter in simulated root-zone soil moisture is contained within the spatial variability observed inside the catchment. In addition, all models show a considerable sensitivity to longwave forcing for the simulation of the snowpack, which during the spring melt affects runoff, meltwater infiltration, and subsequent evapotranspiration. A greater sensitivity of the ablation, compared to the accumulation, of the winter snowpaek to the choice of snow parameterization is found. Sensitivity simulations starting at prescribed conditions with no spinup demonstrate that the treatment of frozen soil (moisture) processes can affect the long-term variability of the models. The single-year recursive runs show large biases, compared to the corresponding year of the control run, that can persist through the entire year and underscore the importance of performing multiyear simulations.

Published
2000

19. The project for intercomparison of land-surface parameterization schemes (PILPS) phase 2(c) Red-Arkansas River basin experiment: 3. Spatial and temporal analysis of water fluxes

Author

Lohmann, D, Lettenmaier, DP, Liang, X, Wood, EF, Boone, A, Chang, S, Chen, F, Dai, Y, Desborough, C, Dickinson, RE, Duan, Q, Ek, M, Gusev, YM, Habets, F, Irannejad, P, Koster, R, Mitchell, KE, Nasonova, ON, Noilhan, J, Schaake, J, Schlosser, A, Shao, Y, Shmakin, AB, Verseghy, D, Warrach, K, Wetzel, P, Xue, Y, Yang, ZL, and Zeng, QC

Subjects
PILPS, water balance, routing model, continental river basin modeling, Red-Arkansas River basin, Networking & Telecommunications, Earth Sciences
Abstract

The water-balance components of 16 Soil-Vegetation Atmospheric Transfer (SVAT) schemes were evaluated by comparing predicted and observed streamflow, predicted evapotranspiration and evapotranspiration inferred from an atmospheric moisture budget analysis, and soil moisture storage changes for a seven-year period (1980-1986) using data from the Red-Arkansas River basins of the Southern Great Plains of the USA. The evaluations support the following suggestions: (a) The mean annual runoff of all models follows, at least generally, the strong climatic East-West gradient of precipitation, although most models predict too much runoff in the dry part of the basin. (b) The mean monthly storage change tends to be underestimated, even though all models capture reasonably well the seasonality of the evapotranspiration. (c) The wide range of conceptualizations used for generation of surface and subsurface runoff strongly affect runoff generation on seasonal, and shorter, time scales. Model responses to summer precipitation ranged from almost no summer runoff (one model) to the (more common) situation of persistent overprediction of summer runoff, especially in the driest part of the basin. (d) All models tended to underpredict evapotranspiration in summer and overpredict in winter. (e) Model-derived mean seasonal cycles of changes in soil moisture storage are qualitatively similar to those inferred from observations, but most models do not predict the decrease in April soil moisture storage and the increase in October that is inferred from observations.

Published
1998

20. The project for intercomparison of land-surface parameterization schemes (PILPS) phase 2(c) Red-Arkansas River basin experiment: 2. Spatial and temporal analysis of energy fluxes

Author

Liang, X, Wood, EF, Lettenmaier, DP, Lohmann, D, Boone, A, Chang, S, Chen, F, Dai, Y, Desborough, C, Dickinson, RE, Duan, Q, Ek, M, Gusev, YM, Habets, F, Irannejad, P, Koster, R, Mitchell, KE, Nasonova, ON, Noilhan, J, Schaake, J, Schlosser, A, Shao, Y, Shmakin, AB, Verseghy, D, Warrach, K, Wetzel, P, Xue, Y, Yang, ZL, and Zeng, QC

Subjects
PILPS, energy balance, land-surface models, Red-Arkansas River basin, Networking & Telecommunications, Earth Sciences
Abstract

The energy components of sixteen Soil-Vegetation Atmospheric Transfer (SVAT) schemes were analyzed and intercompared using 10 years of surface meteorological and radiative forcing data from the Red-Arkansas River basin in the Southern Great Plains of the United States. Comparisons of simulated surface energy fluxes among models showed that the net radiation and surface temperature generally had the best agreement among the schemes. On an average (annual and monthly) basis, the estimated latent heat fluxes agreed (to within approximate estimation errors) with the latent heat fluxes derived from a radiosonde-based atmospheric budget method for slightly more than half of the schemes. The sensible heat fluxes had larger differences among the schemes than did the latent heat fluxes, and the model-simulated ground heat fluxes had large variations among the schemes. The spatial patterns of the model-computed net radiation and surface temperature were generally similar among the schemes, and appear reasonable and consistent with observations of related variables, such as surface air temperature. The spatial mean patterns of latent and sensible heat fluxes were less similar than for net radiation, and the spatial patterns of the ground heat flux vary greatly among the 16 schemes. Generally, there is less similarity among the models in the temporal (interannual) variability of surface fluxes and temperature than there is in the mean fields, even for schemes with similar mean fields.

Published
1998

21. The project for intercomparison of land-surface parameterization schemes (PILPS) phase 2(c) Red-Arkansas River basin experiment: 1. Experiment description and summary intercomparisons

Author

Wood, EF, Lettenmaier, DP, Liang, X, Lohmann, D, Boone, A, Chang, S, Chen, F, Dai, Y, Dickinson, RE, Duan, Q, Ek, M, Gusev, YM, Habets, F, Irannejad, P, Koster, R, Mitchel, KE, Nasonova, ON, Noilhan, J, Schaake, J, Schlosser, A, Shao, Y, Shmakin, AB, Verseghy, D, Warrach, K, Wetzel, P, Xue, Y, Yang, ZL, and Zeng, QC

Subjects
PILPS, land-surface parameterization, continental river basin modeling, energy/water balance, calibration of land-surface schemes, Red-Arkansas River basin, Networking & Telecommunications, Earth Sciences
Abstract

Sixteen land-surface schemes participating in the project for the Intercomparison of Land-surface Schemes (PILPS) Phase 2(c) were run using 10 years (1979-1988) of forcing data for the Red-Arkansas River basins in the Southern Great Plains region of the United States. Forcing data (precipitation, incoming radiation and surface meteorology) and land-surface characteristics (soil and vegetation parameters) were provided to each of the participating schemes. Two groups of runs are presented. (1) Calibration-validation runs, using data from six small catchments distributed across the modeling domain. These runs were designed to test the ability of the schemes to transfer information about model parameters to other catchments and to the computational grid boxes. (2) Base-runs, using data for 1979-1988, designed to evaluate the ability of the schemes to reproduce measured energy and water fluxes over multiple seasonal cycles across a climatically diverse, continental-scale basin. All schemes completed the base-runs but five schemes chose not to calibrate. Observational data (from 1980-1986) including daily river flows and monthly basin total evaporation estimated through an atmospheric budget analysis, were used to evaluate model performance. In general, the results are consistent with earlier PILPS experiments in terms of differences among models in predicted water and energy fluxes. The mean annual net radiation varied between 80 and 105 W m-2 (excluding one model). The mean annual Bowen ratio varied from 0.52 to 1.73 (also excluding one model) as compared to the data-estimated value of 0.92. The run-off ratios varied from a low of 0.02 to a high of 0.41, as compared to an observed value of 0.15. In general, those schemes that did not calibrate performed worse, not only on the validation catchments, but also at the scale of the entire modeling domain. This suggests that further PILPS experiments on the value of calibration need to be carried out.

Published
1998

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