Channel‐Island Connectivity Affects Water Exposure Time Distributions in a Coastal River Delta
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Paola Passalacqua | Ben R. Hodges | Edward Castañeda-Moya | P. Passalacqua | B. Hodges | R. Twilley | M. Hiatt | E. Castañeda‐Moya | Robert R. Twilley | Matthew Hiatt
[1] É. Deleersnijder,et al. Water renewal timescales in the Scheldt Estuary , 2012 .
[2] Efi Foufoula-Georgiou,et al. Delta channel networks: 2. Metrics of topologic and dynamic complexity for delta comparison, physical inference, and vulnerability assessment , 2015 .
[3] V. Babovic,et al. On inducing equations for vegetation resistance , 2007 .
[4] D. Orange,et al. N, P, Si budgets for the Red River Delta (northern Vietnam): how the delta affects river nutrient delivery to the sea , 2012, Biogeochemistry.
[5] P. Wilcock. Estimating Local Bed Shear Stress from Velocity Observations , 1996 .
[6] Paola Passalacqua,et al. Process connectivity in a naturally prograding river delta , 2017 .
[7] A. Defina,et al. Water age, exposure time, and local flushing time in semi-enclosed, tidal basins with negligible freshwater inflow , 2016 .
[8] Paola Passalacqua,et al. Hydrological connectivity in river deltas: The first‐order importance of channel‐island exchange , 2015 .
[9] H. Nepf. Drag, turbulence, and diffusion in flow through emergent vegetation , 1999 .
[10] David A. Kaplan,et al. How Important Is Connectivity for Surface Water Fluxes? A Generalized Expression for Flow Through Heterogeneous Landscapes , 2017 .
[11] Jeffrey Tsaros Rominger,et al. Interaction between flow, transport and vegetation spatial structure , 2008 .
[12] A contaminant transport model for wetlands accounting for distinct residence time bimodality , 2014 .
[13] Robert H. Kadlec,et al. Chemical, physical and biological cycles in treatment wetlands , 1999 .
[14] Marco Ghisalberti,et al. Retention time and dispersion associated with submerged aquatic canopies , 2007 .
[15] Chris Paola,et al. Quantitative metrics that describe river deltas and their channel networks , 2011 .
[16] Semi-implicit two-level predictor–corrector methods for non-linearly coupled, hydrostatic, barotropic/baroclinic flows , 2008 .
[17] Rene A. Camacho,et al. Hydrodynamic Modeling of First-Order Transport Timescales in the St. Louis Bay Estuary, Mississippi , 2013 .
[18] Paola Passalacqua,et al. What controls the transition from confined to unconfined flow? : Analysis of hydraulics in a river delta , 2017 .
[19] M. Cardenas,et al. Residence time distributions in sinuosity‐driven hyporheic zones and their biogeochemical effects , 2012 .
[20] Wonsuck Kim,et al. Is It Feasible to Build New Land in the Mississippi River Delta , 2009 .
[21] W. Nardin,et al. Dynamics of river mouth deposits , 2015 .
[22] S. Meyers,et al. A Numerical Simulation of Residual Circulation in Tampa Bay. Part II: Lagrangian Residence Time , 2008 .
[23] R. Delaune,et al. Direct measurement of denitrification activity in a Gulf coast freshwater marsh receiving diverted Mississippi River water. , 2006, Chemosphere.
[24] W. Mitsch,et al. Reducing Nitrogen Loading to the Gulf of Mexico from the Mississippi River Basin: Strategies to Counter a Persistent Ecological Problem , 2001 .
[25] J. Imberger,et al. Modeling basin‐scale internal waves in a stratified lake , 2000 .
[26] Ben R. Hodges,et al. A new approach to the local time stepping problem for scalar transport , 2014 .
[27] M. Allison,et al. The use of large water and sediment diversions in the lower Mississippi River (Louisiana) for coastal restoration , 2010 .
[28] Roger Alexander Falconer,et al. A modelling study of residence time in a macro-tidal estuary , 2007 .
[29] Marcel Zijlema,et al. An accurate and efficient finite‐difference algorithm for non‐hydrostatic free‐surface flow with application to wave propagation , 2003 .
[30] É. Delhez. On the concept of exposure time , 2013 .
[31] Andrea Rinaldo,et al. The importance of being coupled: Stable states and catastrophic shifts in tidal biomorphodynamics , 2009 .
[32] The Trapping Index: How to integrate the Eulerian and the Lagrangian approach for the computation of the transport time scales of semi-enclosed basins. , 2015, Marine pollution bulletin.
[33] F. Y. Cheng,et al. Biogeochemical hotspots: Role of small water bodies in landscape nutrient processing , 2017 .
[34] H. Nepf. Hydrodynamics of vegetated channels , 2012 .
[35] R. Fulweiler,et al. Denitrification in coastal Louisiana: A spatial assessment and research needs , 2010 .
[36] R. Rosenberg,et al. Spreading Dead Zones and Consequences for Marine Ecosystems , 2008, Science.
[37] J. West,et al. A screening of the capacity of Louisiana freshwater wetlands to process nitrate in diverted Mississippi River water , 2005 .
[38] David Mohrig,et al. The morphology and evolution of channels on the Wax Lake Delta, Louisiana, USA , 2013 .
[39] Ben R. Hodges. Accuracy order of Crank-Nicolson discretization for hydrostatic free-surface flow , 2004 .
[40] Chunyan Li,et al. Cold-front-induced flushing of the Louisiana Bays , 2010 .
[41] R. Kadlec. Overland flow in wetlands: vegetation resistance. , 1990 .
[42] Nancy E. Monsen,et al. A comment on the use of flushing time, residence time, and age as transport time scales , 2002 .
[43] Harry H. Roberts,et al. Accretion and Vegetation Community Change in the Wax Lake Delta Following the Historic 2011 Mississippi River Flood , 2015 .
[44] Peter M. J. Herman,et al. Density-dependent linkage of scale-dependent feedbacks: a flume study on the intertidal macrophyte Spartina anglica , 2009 .
[45] S. Blaise,et al. Residence time, exposure time and connectivity in the Scheldt Estuary , 2011 .
[46] J. M. Smith,et al. Hurricane-induced failure of low salinity wetlands , 2010, Proceedings of the National Academy of Sciences.
[47] C. Sasser,et al. Differential salinity response between two Mississippi River subdeltas: Implications for changes in plant composition , 2001 .
[48] J. Day,et al. Nitrogen and phosphorus transport between Fourleague Bay, LA, and the Gulf of Mexico: the role of winter cold fronts and Atchafalaya River discharge , 2003 .
[49] Doerthe Tetzlaff,et al. Connectivity between landscapes and riverscapes—a unifying theme in integrating hydrology and ecology in catchment science? , 2007 .
[50] W. Nardin,et al. Influence of vegetation on spatial patterns of sediment deposition in deltaic islands during flood , 2016 .
[51] Paola Passalacqua,et al. Quantifying the patterns and dynamics of river deltas under conditions of steady forcing and relative sea level rise , 2016 .
[52] John R. White,et al. Floods and Cold Front Passages: Impacts on Coastal Marshes in a River Diversion Setting (Wax Lake Delta Area, Louisiana) , 2015 .
[53] D. Mohrig,et al. Flow patterns and morphology of a prograding river delta , 2016 .
[54] Enrique R. Vivoni,et al. Flow structure in depth-limited, vegetated flow , 2000 .
[55] D. A. Brooks,et al. Tidal Circulation and Residence Time in a Macrotidal Estuary: Cobscook Bay, Maine , 1999 .
[56] Ming-Hsi Hsu,et al. Residence time of the Danshuei River estuary, Taiwan , 2004 .
[57] Georg Umgiesser,et al. Eulerian and lagrangian transport time scales of a tidal active coastal basin , 2009 .
[58] Edward H. Dettmann,et al. Effect of water residence time on annual export and denitrification of nitrogen in estuaries: A model analysis , 2001 .
[59] Robert H. Kadlec,et al. Nitrate dynamics in event-driven wetlands , 2010 .
[60] Audrey H. Sawyer,et al. Surface water‐groundwater connectivity in deltaic distributary channel networks , 2015 .
[61] Dimitri Lague,et al. Elevation change and stability on a prograding delta , 2017 .
[62] R. Twilley,et al. Island Edge Morphodynamics along a Chronosequence in a Prograding Deltaic Floodplain Wetland , 2018, Journal of Coastal Research.
[63] Hugo A. Loáiciga,et al. Groundwater fluxes in the global hydrologic cycle: past, present and future , 1993 .
[64] Kevan B. Moffett,et al. Groundwater dynamics and surface water–groundwater interactions in a prograding delta island, Louisiana, USA , 2015 .
[65] V. Casulli,et al. Stability, accuracy and efficiency of a semi-implicit method for three-dimensional shallow water flow☆ , 1994 .
[66] D. Mohrig,et al. The importance of erosion in distributary channel network growth, Wax Lake Delta, Louisiana, USA , 2014 .
[67] F. Ayoub,et al. Airborne radar imaging of subaqueous channel evolution in Wax Lake Delta, Louisiana, USA , 2016 .
[68] Paola Passalacqua,et al. The Delta Connectome: A network-based framework for studying connectivity in river deltas , 2017 .
[69] Mitul Luhar,et al. From the blade scale to the reach scale: A characterization of aquatic vegetative drag , 2013 .
[70] Jian Shen,et al. Calculating age and residence time in the tidal York River using three-dimensional model experiments , 2004 .
[71] Debora Bellafiore,et al. Comparative hydrodynamics of 10 Mediterranean lagoons by means of numerical modeling , 2014 .
[72] J. Day,et al. Nutrient stoichiometry, freshwater residence time, and nutrient retention in a river-dominated estuary in the Mississippi Delta , 2010, Hydrobiologia.
[73] Charles E. Sasser,et al. Contribution of river floods, hurricanes, and cold fronts to elevation change in a deltaic floodplain, northern Gulf of Mexico, USA , 2017 .
[74] Doerthe Tetzlaff,et al. Concepts of hydrological connectivity: Research approaches, pathways and future agendas , 2013 .
[75] Anna T. Hamilton,et al. Potential nitrate removal from a river diversion into a Mississippi delta forested wetland , 2003 .
[76] Tony Hoong Fatt Wong,et al. Numerical simulation of wetland hydrodynamics , 1997 .
[77] R. T. Cheng,et al. SEMI-IMPLICIT FINITE DIFFERENCE METHODS FOR THREE-DIMENSIONAL SHALLOW WATER FLOW , 1992 .
[78] R. Twilley,et al. Nutrient Biogeochemistry During the Early Stages of Delta Development in the Mississippi River Deltaic Plain , 2013, Ecosystems.
[79] Robert H. Kadlec,et al. Wetland residence time distribution modeling , 2000 .
[80] Ilya Zaliapin,et al. Quantifying the signature of sediment composition on the topologic and dynamic complexity of river delta channel networks and inferences toward delta classification , 2016 .
[81] V. Voller,et al. A reduced-complexity model for river delta formation – Part 1: Modeling deltas with channel dynamics , 2014 .
[82] N. Walker. Tropical Storm and Hurricane wind effects on water level, salinity, and sediment transport in the river-influenced Atchafalaya-Vermilion Bay System, Louisiana, USA , 2001 .
[83] J. Zimmerman,et al. Mixing and flushing of tidal embayments in the western Dutch Wadden Sea part I: Distribution of salinity and calculation of mixing time scales , 1976 .
[84] John W. Day,et al. Water quality analysis of a freshwater diversion at Caernarvon, Louisiana , 1999 .
[85] Anders Wörman,et al. Effect of pond shape and vegetation heterogeneity on flow and treatment performance of constructed wetlands , 2005 .
[86] Patrick Meire,et al. Flow interaction with dynamic vegetation patches: Implications for biogeomorphic evolution of a tidal landscape , 2011 .
[87] S. Temmerman,et al. Vegetation causes channel erosion in a tidal landscape , 2007 .
[88] N. Walker,et al. Impacts of Winter Storms on Circulation and Sediment Transport: Atchafalaya-Vermilion Bay Region, Louisiana, U.S.A. , 2000 .
[89] Jerónimo Puertas,et al. Depth Averaged Modelling of Turbulent Shallow Water Flow with Wet-Dry Fronts , 2007 .
[90] Anne F. Lightbody,et al. Prediction of velocity profiles and longitudinal dispersion in salt marsh vegetation , 2006 .
[91] A. Cucco,et al. Modeling the Venice Lagoon residence time , 2006 .
[92] V. Voller,et al. Natural processes in delta restoration: application to the Mississippi Delta. , 2011, Annual review of marine science.
[93] P. Passalacqua,et al. Identifying environmental controls on the shoreline of a natural river delta , 2015 .
[94] R. Kadlec. Constructed Marshes for Nitrate Removal , 2012 .