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1. UNDERSTANDING YELLOWSTONE STREAM MORPHOLOGY AND DYNAMICS THROUGH FLOODPLAIN INUNDATION MODELING

   https://doi.org/10.1130/abs/2020RM-346802  

   Phinney, April I. ; Foky, Trent ; Hinzmann, Alice ; Iosso, Chantal ; Van Wetter, Eliza ; Persico, Lyman P. ( January 2020 , Geological Society of America Abstracts with Programs)
2. Inundation, hydrodynamics and vegetation influences carbon dioxide concentrations in Amazon floodplain lakes

   Amaral, JHF ; Melack, JM ; Barbosa, PM ; Borges, AV ; Kasper, D ; Cortes, AC ; Zhou, W ; MacIntyre, S ; Forsberg, BR ( January 2021 , Ecosystems)

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3. Inundation, hydrodynamics and vegetation influences carbon dioxide concentrations in Amazon floodplain lakes

   https://doi.org/10.1007/s10021-021-00692-y  

   Amaral, J.H.F. ; Melack, J.M. ; Barbosa, P.M. ; Borges, A.V. ; Kasper, D. ; Cortes, A.C. ; Zhou, W. ; MacIntyre, S. ; Forsberg, B.R. ( January 2021 , Ecosystems)

   Extensive floodplains and numerous lakes in the Amazon basin are well suited to examine the role of floodable lands within the context of the sources and processing of carbon within inland waters. We measured diel, seasonal and inter-annual variations of carbon dioxide concentrations and related environmental variables in open water and flooded vegetation and estimated the extension of these habitats using remote sensing in a representative central Amazon floodplain lake, Lake Janauacá. Depth-averaged values of CO2 in the open water of the lake, 157± 91 µM (mean ± SD), were less than those in an embayment near aquatic vegetation, 285±116 µM, and were variable over 24-h periods at both sites. Within floating herbaceous plant mats, mean concentration (without one outlier) was 275±77 µM and in flooded forests mean concentration was 217±78 µM. Variability in CO2 concentrations in open water resulted from changes in the extent of inundation and exchange with vegetated habitats. The best statistical model, including CO2 in aquatic plant mats, Secchi depth, rate of change in water level and chlorophyll concentrations, explained around 90% of the variability in CO2 concentration. Three-dimensional hydrodynamic modeling demonstrated that diel differences in water temperature between plant mats and open water and basin-scale motions caused lateral exchanges of CO2 linking vegetated habitats to open water. Our findings extend understanding of CO2 in tropical lakes and floodplains with measurements and models that emphasize the importance of flooded forests and aquatic herbaceous plants fringing floodplain lakes as sources of carbon dioxide to the open waters. 

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4. Geomorphology of the Congaree River Floodplain: Implications for the Inundation Continuum

   https://doi.org/10.1029/2020WR029456  

   Xu, Haiqing ; Torres, Raymond ; van der Steeg, Shailesh ; Viparelli, Enrica ( December 2021 , Water Resources Research)

   Floodplain inundation has been viewed as a type of binary process set by the relative elevation between river stage and levee crest. However, recent reports in the literature show that this perception may have limited applicability. In particular, through‐bank channels, conduits that cross the main river levees or banks, facilitate conditions for an “inundation continuum,” or inundation for a range of sub‐bankfull flows. Moreover, through‐bank channels and their networks provide a direct hydraulic connection between the main river and the floodplain interior. We analyzed through‐bank channel structure and floodplain topography and compared them to river surface elevation to provide greater insight on floodplain inundation processes. Results show that well‐developed levees with through‐bank channels facilitate frequent through‐bank inundation. Where levees are poorly developed, floodplain inundation occurs by overbank flow. Therefore, for a given discharge through‐bank and overbank inundation may occur simultaneously. For the Congaree River floodplain, we infer that this dichotomy of inundation processes leads to temporally and spatially complex inundation flow paths for a given river stage. Further, our analyses reveal that the inundation continuum concept should be considered in the context of having vertical, longitudinal, lateral, and temporal components.

    

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5. High Resolution Modeling of River‐Floodplain‐Reservoir Inundation Dynamics in the Mekong River Basin

   https://doi.org/10.1029/2019WR026449  

   Shin, Sanghoon ; Pokhrel, Yadu ; Yamazaki, Dai ; Huang, Xiaodong ; Torbick, Nathan ; Qi, Jiaguo ; Pattanakiat, Sura ; Ngo‐Duc, Thanh ; Nguyen, Tuan Duc ( April 2020 , Water Resources Research)

   Numerous studies have examined the changes in streamflow in the Mekong River Basin (MRB) using observations and hydrological modeling; however, there is a lack of integrated modeling studies that explicitly simulate the natural and human‐induced changes in flood dynamics over the entire basin. Here we simulate the river‐floodplain‐reservoir inundation dynamics over the MRB for 1979–2016 period using a newly integrated, high‐resolution (~5 km) river hydrodynamics‐reservoir operation model. The framework is based on the river‐floodplain hydrodynamic model CaMa‐Flood in which a new reservoir operation scheme is incorporated by including 86 existing MRB dams. The simulated flood extent is downscaled to a higher resolution (~90 m) to investigate fine‐scale inundation dynamics, and results are validated with ground‐ and satellite‐based observations. It is found that the historical variations in surface water storage have been governed primarily by climate variability; the impacts of dams on river‐floodplain hydrodynamics were marginal until 2009. However, results indicate that the dam impacts increased noticeably in 2010 when the basin‐wide storage capacity doubled due to the construction of new mega dams. Further, results suggest that the future flood dynamics in the MRB would be considerably different than in the past even without climate change and additional dams. However, it is also found that the impacts of dams can largely vary depending on reservoir operation strategies. This study is expected to provide the basis for high‐resolution river‐floodplain‐reservoir modeling for a holistic assessment of the impacts of dams and climate change on the floodpulse‐dependent hydro‐ecological systems in the MRB and other global regions.

    

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