LOADEST-Publications
From CSDMS
References LOADEST
Total peer and non-peer reviewed publications |
32 |
Journal Articles |
26 |
Books |
0 |
Book sections |
1 |
References are automatically added
Add references
| Peer reviewed reference(s) | Year | type | Cited |
|---|---|---|---|
| Peer reviewed reference(s) | Year | type | Cited |
| Ghojoghi, Altin; Ghorbani, Rasoul; Patimar, Rahman; Salmanmahiny, Abdolrassoul; Naddafi, Rahmat; Fazel, Abdolazim; Jardine, Timothy D.; 2023. The fate of nitrogen in the Zarin-Gol River receiving trout farm effluent. Scientific Reports, 13. 10.1038/s41598-023-49243-6 | 2023 | Model application | 0 |
| Ha, Don-Woo; Jung, Kang-Young; Baek, Jonghun; Lee, Yeoungjea; Na, Eun Hye; 2022. Performance evaluation of TMDLs in upstream Seomjin River basin using LOAD ESTimator model. DESALINATION AND WATER TREATMENT, 259160–169. 10.5004/dwt.2022.28458 | 2022 | Model application | 0 |
| Song, Yanni; Wu, Yiping; Sun, Changshun; Zhao, Fubo; Hu, Jingyi; Chen, Ji; Qiu, Linjing; Lian, Yanqing; 2022. Spatiotemporal features of pollutant loads in the Yan River Basin, a typical loess hilly and gully watershed in the Chinese Loess Plateau. Geoscience Letters, 910. 10.1186/s40562-022-00220-3 | 2022 | Model application | 2 |
| Rouhani, S.; Schaaf, C.L.; Huntington, T.G.; Choate, J.; 2021. Simulation of Dissolved Organic Carbon Flux in the Penobscot Watershed, Maine. Ecohydrology & Hydrobiology, 21256–270. 10.1016/j.ecohyd.2021.02.005 | 2021 | Model application | 9 |
| Gao, Jungang; White, Michael J.; Bieger, Katrin; Arnold, Jeffrey G.; 2021. Design and development of a Python-based interface for processing massive data with the LOAD ESTimator (LOADEST). Environmental Modelling & Software, 135104897. 10.1016/j.envsoft.2020.104897 | 2021 | Model application | 8 |
| Densmore, B.K.; Hall, B.M.; Moser, M.T.; 2020. Modeling Escherichia coli in the Missouri River near Omaha, Nebraska, 2012–16. Scientific Investigations Report, 2020-5045. 10.3133/sir20205045 | 2020 | Model application | 0 |
| Abimbola, Olufemi; Mittelstet, Aaron; Messer, Tiffany; Berry, Elaine; van Griensven, Ann; 2020. Modeling and Prioritizing Interventions Using Pollution Hotspots for Reducing Nutrients, Atrazine and E. coli Concentrations in a Watershed. Sustainability, 13103. 10.3390/su13010103 | 2020 | Model application | 10 |
| Kim, Kyeung; Kang, Moon Seong; Song, Jung Hun; Park, Jihoon; 2018. 유역특성에 따른 LOADEST 회귀모형 매개변수 추정. Journal of Korea Water Resources Association, 51151–163. 10.3741/JKWRA.2018.51.2.151 | 2018 | Model application | 0 |
| Pokhrel, Bijay; 2018. Impact of Land Use Change on Flow and Sediment Yields in the Khokana Outlet of the Bagmati River, Kathmandu, Nepal. Hydrology, 522. 10.3390/hydrology5020022 | 2018 | Model application | 24 |
| Kim, Jonggun; Lim, Kyoung Jae; Park, Youn Shik; 2018. Evaluation of Regression Models of LOADEST and Eight-Parameter Model for Nitrogen Load Estimations. Water, Air, & Soil Pollution, 229179. 10.1007/s11270-018-3844-8 | 2018 | Model application | 5 |
| Strauch, Ayron M.; MacKenzie, Richard A.; Giardina, Christian P.; Bruland, Gregory L.; 2018. Influence of declining mean annual rainfall on the behavior and yield of sediment and particulate organic carbon from tropical watersheds. Geomorphology, 30628–39. 10.1016/j.geomorph.2017.12.030 | 2018 | Model application | 18 |
| Libera, Dominic A.; Sankarasubramanian, A.; Sharma, Ashish; Reich, Brian J.; 2018. A non-parametric bootstrapping framework embedded in a toolkit for assessing water quality model performance. Environmental Modelling & Software, 10725–33. 10.1016/j.envsoft.2018.05.013 | 2018 | Model application | 4 |
| Sharifi, Amirreza; Yen, Haw; Wallace, Carlington; McCarty, Gregory; Crow, Wade; Momen, Bahram; Lang, Megan; Sadeghi, Ali; Lee, Sangchul; Denver, Judith; Rabenhorst, Martin; 2017. Effect of Water Quality Sampling Approaches on Nitrate Load Predictions of a Prominent Regression-Based Model. Water, 9895. 10.3390/w9110895 | 2017 | Model application | 9 |
| Stewart, J. R.; Livneh, B.; Kasprzyk, J. R.; Rajagopalan, B.; Minear, J. T.; Raseman, W. J.; 2017. A Multialgorithm Approach to Land Surface Modeling of Suspended Sediment in the Colorado Front Range: MULTI-PHYSICS SEDIMENT MODELING. Journal of Advances in Modeling Earth Systems, 92526–2544. 10.1002/2017MS001120 | 2017 | Model application | 5 |
| Park, Youn; Engel, Bernie; 2016. Identifying the Correlation between Water Quality Data and LOADEST Model Behavior in Annual Sediment Load Estimations. Water, 8368. 10.3390/w8090368 | 2016 | Model application | 12 |
| Park, Youn; Engel, Bernie; Frankenberger, Jane; Hwang, Hasun; 2015. A Web-Based Tool to Estimate Pollutant Loading Using LOADEST. Water, 74858–4868. 10.3390/w7094858 | 2015 | Model application | 25 |
| Park, Youn Shik; Engel, Bernie A.; 2015. Analysis for Regression Model Behavior by Sampling Strategy for Annual Pollutant Load Estimation. Journal of Environmental Quality, 441843–1851. 10.2134/jeq2015.03.0137 | 2015 | Model application | 16 |
| Chen, Dingjiang; Hu, Minping; Guo, Yi; Dahlgren, Randy A.; 2015. Reconstructing historical changes in phosphorus inputs to rivers from point and nonpoint sources in a rapidly developing watershed in eastern China, 1980–2010. Science of The Total Environment, 533196–204. 10.1016/j.scitotenv.2015.06.079 | 2015 | Model application | 30 |
| Stackpoole, S. M.; Stets, E. G.; Striegl, R. G.; 2014. The impact of climate and reservoirs on longitudinal riverine carbon fluxes from two major watersheds in the Central and Intermontane West. Journal of Geophysical Research: Biogeosciences, 119848–863. 10.1002/2013JG002496 | 2014 | Model application | 14 |
| Dwivedi, Dipankar; Mohanty, Binayak P.; Lesikar, Bruce J.; 2013. Estimating Escherichia coli loads in streams based on various physical, chemical, and biological factors: Estimating E. coli Load in Streams by Bnn. Water Resources Research, 492896–2906. 10.1002/wrcr.20265 | 2013 | Model application | 34 |
| Mast, M. Alisa; 2013. Evaluation of stream chemistry trends in US Geological Survey reference watersheds, 1970–2010. Environmental Monitoring and Assessment, 1859343–9359. 10.1007/s10661-013-3256-6 | 2013 | Model application | 23 |
| Sun, Chengchun; Shen, Zhenyao; Liu, Ruimin; Xiong, Ming; Ma, Fangbing; Zhang, Ouyang; Li, Yangyang; Chen, Lei; 2013. Historical trend of nitrogen and phosphorus loads from the upper Yangtze River basin and their responses to the Three Gorges Dam. Environmental Science and Pollution Research, 208871–8880. 10.1007/s11356-013-1859-7 | 2013 | Model application | 36 |
| Duan, Weili; Takara, Kaoru; He, Bin; Luo, Pingping; Nover, Daniel; Yamashiki, Yosuke; 2013. Spatial and temporal trends in estimates of nutrient and suspended sediment loads in the Ishikari River, Japan, 1985 to 2010. Science of The Total Environment, 461499–508. 10.1016/j.scitotenv.2013.05.022 | 2013 | Model application | 135 |
| Qian, Yun; Migliaccio, Kati W.; Wan, Yongshan; Li, Yuncong; 2007. Trend Analysis of Nutrient Concentrations and Loads in Selected Canals of the Southern Indian River Lagoon, Florida: Trend Analysis of Surface Water Nutrients. Water, Air, and Soil Pollution, 186195–208. 10.1007/s11270-007-9477-y | 2007 | Model application | 24 |
| McClelland, J. W.; Stieglitz, M.; Pan, Feifei; Holmes, R. M.; Peterson, B. J.; 2007. Recent changes in nitrate and dissolved organic carbon export from the upper Kuparuk River, North Slope, Alaska: N AND C EXPORT FROM THE KUPARUK RIVER. Journal of Geophysical Research: Biogeosciences, 112n/a–n/a. 10.1029/2006JG000371 | 2007 | Model application | 130 |
| , ; 2007. Water Quality Modeling for the Raccoon River Watershed Using SWAT. Transactions of the ASABE, 50479–493. 10.13031/2013.22660 | 2007 | Model application | 189 |
| Runkel, R.L.; Crawford, C.G.; Cohn, T.A.; 2004. LOAD ESTIMATOR (LOADEST): A FORTRAN PROGRAM FOR ESTIMATING CONSTITUENT LOADS IN STREAMS AND RIVERS. , . [1] | 2004 | Model overview | 766 |
Citations
<graph>{{safesubst:#invoke:Graph|chartWrapper}}</graph>
| Nr. of publications: | 32 |
| Total citations: | 1541 |
| h-index: | 14 |
| m-quotient: | 0.64 |
Publications per year
<graph>{{safesubst:#invoke:Graph|chartWrapper}}</graph>
