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| <doi_batch_id>20241108160119-c53f459534600f0cf45bacf1265ba54d58a4b9b4</doi_batch_id> | ||
| <timestamp>20241108160119</timestamp> | ||
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| <depositor_name>JOSS Admin</depositor_name> | ||
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| <registrant>The Open Journal</registrant> | ||
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| <journal> | ||
| <journal_metadata> | ||
| <full_title>Journal of Open Source Software</full_title> | ||
| <abbrev_title>JOSS</abbrev_title> | ||
| <issn media_type="electronic">2475-9066</issn> | ||
| <doi_data> | ||
| <doi>10.21105/joss</doi> | ||
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| <month>11</month> | ||
| <year>2024</year> | ||
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| <volume>9</volume> | ||
| </journal_volume> | ||
| <issue>103</issue> | ||
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| <title>wmpy-power: A Python package for process-based regional | ||
| hydropower simulation</title> | ||
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| <given_name>Travis B.</given_name> | ||
| <surname>Thurber</surname> | ||
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| <institution><institution_name>Pacific Northwest National Laboratory, Richland, WA., USA</institution_name></institution> | ||
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| <given_name>Tian</given_name> | ||
| <surname>Zhou</surname> | ||
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| <institution><institution_name>Pacific Northwest National Laboratory, Richland, WA., USA</institution_name></institution> | ||
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| <institution><institution_name>Pacific Northwest National Laboratory, Richland, WA., USA</institution_name></institution> | ||
| <institution><institution_name>University of Washington, Seattle, WA., USA</institution_name></institution> | ||
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| <month>11</month> | ||
| <day>08</day> | ||
| <year>2024</year> | ||
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| <identifier id_type="doi">10.21105/joss.07225</identifier> | ||
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| <citation key="Broman:2024"> | ||
| <article_title>Multi-scale impacts of climate change on | ||
| hydropower for long-term water-energy planning in the contiguous United | ||
| States</article_title> | ||
| <author>Broman</author> | ||
| <journal_title>Environmental Research | ||
| Letters</journal_title> | ||
| <issue>9</issue> | ||
| <volume>19</volume> | ||
| <doi>10.1088/1748-9326/ad6ceb</doi> | ||
| <cYear>2024</cYear> | ||
| <unstructured_citation>Broman, D., Voisin, N., Kao, S.-C., | ||
| Fernandez, A., & Ghimire, G. (2024). Multi-scale impacts of climate | ||
| change on hydropower for long-term water-energy planning in the | ||
| contiguous United States. Environmental Research Letters, 19(9). | ||
| https://doi.org/10.1088/1748-9326/ad6ceb</unstructured_citation> | ||
| </citation> | ||
| <citation key="Duan:1993"> | ||
| <article_title>Shuffled complex evolution approach for | ||
| effective and efficient global minimization</article_title> | ||
| <author>Duan</author> | ||
| <journal_title>Journal of Optimization Theory and | ||
| Applications</journal_title> | ||
| <volume>76</volume> | ||
| <doi>10.1007/BF00939380</doi> | ||
| <cYear>1993</cYear> | ||
| <unstructured_citation>Duan, Q. Y., Gupta, V. K., & | ||
| Sorooshian, S. (1993). Shuffled complex evolution approach for effective | ||
| and efficient global minimization. Journal of Optimization Theory and | ||
| Applications, 76, 501–521. | ||
| https://doi.org/10.1007/BF00939380</unstructured_citation> | ||
| </citation> | ||
| <citation key="Kao:2016"> | ||
| <article_title>The second assessment of the effects of | ||
| climate change on federal hydropower</article_title> | ||
| <author>Kao, S.-C.</author> | ||
| <journal_title>ORNL/SR2015/357, Oak Ridge National | ||
| Laboratory, Oak Ridge, TN</journal_title> | ||
| <doi>10.2172/1340431</doi> | ||
| <cYear>2016</cYear> | ||
| <unstructured_citation>Kao, S.-C., Ashfaq, M., Naz, B. S., | ||
| Martínez, U. R., Rastogi, D., Mei, R., Jager, Y., Samu, N. M., & | ||
| Sale, M. J. (2016). The second assessment of the effects of climate | ||
| change on federal hydropower. ORNL/SR2015/357, Oak Ridge National | ||
| Laboratory, Oak Ridge, TN. | ||
| https://doi.org/10.2172/1340431</unstructured_citation> | ||
| </citation> | ||
| <citation key="Kao:2022"> | ||
| <article_title>The third assessment of the effects of | ||
| climate change on federal hydropower</article_title> | ||
| <author>Kao</author> | ||
| <doi>10.2172/1887712</doi> | ||
| <cYear>2022</cYear> | ||
| <unstructured_citation>Kao, S.-C., Ashfaq, M., Rastogi, D., | ||
| Gangrade, S., Uria Martinez, R., Fernandez, A., Konapala, G., Voisin, | ||
| N., Zhou, T., Xu, W., Gao, H., Zhao, B., & Zhao, G. (2022). The | ||
| third assessment of the effects of climate change on federal hydropower. | ||
| https://doi.org/10.2172/1887712</unstructured_citation> | ||
| </citation> | ||
| <citation key="Mitra:2021"> | ||
| <article_title>Hydrogenerate: Open source python tool to | ||
| estimate hydropower generation time-series</article_title> | ||
| <author>Mitra</author> | ||
| <doi>10.11578/dc.20211112.1</doi> | ||
| <cYear>2021</cYear> | ||
| <unstructured_citation>Mitra, B., Gallego-Calderon, J. F., | ||
| Elliott, S. N., Mosier, T. M., & Bastidas Pacheco, C. J. (2021). | ||
| Hydrogenerate: Open source python tool to estimate hydropower generation | ||
| time-series. [Computer Software] https://doi.org/10.11578/dc.20211112.1. | ||
| https://doi.org/10.11578/dc.20211112.1</unstructured_citation> | ||
| </citation> | ||
| <citation key="Thurber:2021"> | ||
| <article_title>Mosartwmpy: A python implementation of the | ||
| MOSART-WM coupled hydrologic routing and water management | ||
| model</article_title> | ||
| <author>Thurber</author> | ||
| <journal_title>Journal of Open Source | ||
| Software</journal_title> | ||
| <issue>62</issue> | ||
| <volume>6</volume> | ||
| <doi>10.21105/joss.03221</doi> | ||
| <cYear>2021</cYear> | ||
| <unstructured_citation>Thurber, T., Vernon, C. R., Sun, N., | ||
| Turner, S. W. d., Yoon, J., & Voisin, N. (2021). Mosartwmpy: A | ||
| python implementation of the MOSART-WM coupled hydrologic routing and | ||
| water management model. Journal of Open Source Software, 6(62), 3221. | ||
| https://doi.org/10.21105/joss.03221</unstructured_citation> | ||
| </citation> | ||
| <citation key="Turner:2021"> | ||
| <article_title>Water storage and release policies for all | ||
| large reservoirs of conterminous United States</article_title> | ||
| <author>Turner</author> | ||
| <journal_title>Journal of Hydrology</journal_title> | ||
| <volume>603</volume> | ||
| <doi>10.1016/j.jhydrol.2021.126843</doi> | ||
| <issn>0022-1694</issn> | ||
| <cYear>2021</cYear> | ||
| <unstructured_citation>Turner, S. W. D., Steyaert, J. C., | ||
| Condon, L., & Voisin, N. (2021). Water storage and release policies | ||
| for all large reservoirs of conterminous United States. Journal of | ||
| Hydrology, 603, 126843. | ||
| https://doi.org/10.1016/j.jhydrol.2021.126843</unstructured_citation> | ||
| </citation> | ||
| <citation key="Turner:2022"> | ||
| <article_title>Simulation of hydropower at subcontinental to | ||
| global scales: a state-of-the-art review</article_title> | ||
| <author>Turner</author> | ||
| <journal_title>Environmental Research | ||
| Letters</journal_title> | ||
| <issue>2</issue> | ||
| <volume>17</volume> | ||
| <doi>10.1088/1748-9326/ac4e38</doi> | ||
| <cYear>2022</cYear> | ||
| <unstructured_citation>Turner, S. W. D., & Voisin, N. | ||
| (2022). Simulation of hydropower at subcontinental to global scales: a | ||
| state-of-the-art review. Environmental Research Letters, 17(2). | ||
| https://doi.org/10.1088/1748-9326/ac4e38</unstructured_citation> | ||
| </citation> | ||
| <citation key="Voisin:2013"> | ||
| <article_title>On an improved sub-regional water resources | ||
| management representation for integration into Earth System | ||
| Models.</article_title> | ||
| <author>Voisin</author> | ||
| <journal_title>Hydrology & Earth System | ||
| Sciences</journal_title> | ||
| <issue>9</issue> | ||
| <volume>17</volume> | ||
| <doi>10.5194/hess-17-3605-2013</doi> | ||
| <cYear>2013</cYear> | ||
| <unstructured_citation>Voisin, N., Li, H., Ward, D., Huang, | ||
| M., Wigmosta, M., & Leung, L. (2013). On an improved sub-regional | ||
| water resources management representation for integration into Earth | ||
| System Models. Hydrology & Earth System Sciences, 17(9). | ||
| https://doi.org/10.5194/hess-17-3605-2013</unstructured_citation> | ||
| </citation> | ||
| <citation key="Zhou:2018"> | ||
| <article_title>Non-stationary hydropower generation | ||
| projections constrained by environmental and electricity grid operations | ||
| over the western United States</article_title> | ||
| <author>Zhou</author> | ||
| <journal_title>Environmental Research | ||
| Letters</journal_title> | ||
| <issue>7</issue> | ||
| <volume>13</volume> | ||
| <doi>10.1088/1748-9326/aad19f</doi> | ||
| <cYear>2018</cYear> | ||
| <unstructured_citation>Zhou, T., Voisin, N., & Fu, T. | ||
| (2018). Non-stationary hydropower generation projections constrained by | ||
| environmental and electricity grid operations over the western United | ||
| States. Environmental Research Letters, 13(7). | ||
| https://doi.org/10.1088/1748-9326/aad19f</unstructured_citation> | ||
| </citation> | ||
| <citation key="Zhou:2023"> | ||
| <article_title>Impacts of climate change on subannual | ||
| hydropower generation: a multi-model assessment of the United States | ||
| federal hydropower plant</article_title> | ||
| <author>Zhou</author> | ||
| <journal_title>Environmental Research | ||
| Letters</journal_title> | ||
| <issue>3</issue> | ||
| <volume>18</volume> | ||
| <doi>10.1088/1748-9326/acb58d</doi> | ||
| <cYear>2023</cYear> | ||
| <unstructured_citation>Zhou, T., Kao, S.-C., Xu, W., | ||
| Gangrade, S., & Voisin, N. (2023). Impacts of climate change on | ||
| subannual hydropower generation: a multi-model assessment of the United | ||
| States federal hydropower plant. Environmental Research Letters, 18(3). | ||
| https://doi.org/10.1088/1748-9326/acb58d</unstructured_citation> | ||
| </citation> | ||
| </citation_list> | ||
| </journal_article> | ||
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