A. J. and -. Barré-de-saint-venant, Théorie du mouvement non-permanent des eaux, avec application aux crues des rivières et à l'introduction des marées dans leur lit, Comptes Rendus des Séances de l'Académie des Sciences, vol.73, pp.147-154, 1871.

B. François, Nonlinear Stability of Finite Volume Methods for Hyperbolic Conservation Laws, and Well-Balanced Schemes for Sources, Frontiers in Mathematics. Birkhäuser Basel, 2004.

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D. Olivier, D. Frédéric, J. François, C. L. Christian, L. Stéphane et al., Fullswof : A free software package for the simulation of shallow water flows, 2014.

D. Olivier, D. Frédéric, J. François, C. L. Christian, L. Stéphane et al., Full shallow-water equations for overland flow, The Journal of Open Source Software, vol.2, issue.20, p.448, 2017.

H. Amiram, D. Peter, . Lax, and . Bram-van-leer, On upstream differencing and Godunov-type schemes for hyperbolic conservation laws, SIAM Review, vol.25, issue.1, pp.35-61, 1983.

N. Amina and . Bako, Modélisation numérique de l'érosion diffuse des sols. Interaction gouttes-ruissellement, 106 Length of the domain with respect to x (in meters) <L> : : 0.53 Final time <T> : : 600 Number of times saved <nbtimes>, vol.<Nxcell>, p.10, 2016.

. Timestep,

J. T. Melvin, IMP-IMP Teletype Communication, Left boundary condition (1=imp.h 2=neum 3=imp.q 4=wall 5=period) <Lbound> : : 1 Imposed discharge in left bc <L_imp_q>, pp.34-40, 1970.

J. T. Melvin, IMP-IMP Teletype Communication, Right boundary condition (1=imp.h 2=neum 3=imp.q 4=wall 5=period) <Rbound> : : 1 Imposed discharge in right bc <R_imp_q>, pp.34-40, 1970.

J. Buie, Practice: Right to diagnose is challenged in Fla., 1988.

A. Schmitt and A. Haber, Multi-winding flux tubes in CFL quark matter, Proceedings of XIII Quark Confinement and the Hadron Spectrum ? PoS(Confinement2018), 2019.

A. Gelb and E. Tadmor, Adaptive Edge Detectors for Piecewise Smooth Data Based on the Minmod Limiter, 2=ENO 3=ENOmod) <rec> : : 1 AmortENO <amortENO> : : ModifENO <modifENO> : : Limiter (1=Minmod 2=VanAlbada 3=VanLeer) <lim>, p.1, 2005.

R. J. Pickering, Acid rain, Topography (1=file 2=flat 3=Thacker 4=bump) <topo> : : 2 Name of the topography file <topo_NF> : : Initialization of h and u (1=file 2=h&u=0 3=Wet_Dam 4=Dry_Dam 5=Dressler 6=Thacker) <hu_init> : :1 Name of the hu initialization file <hu_NF> : : hubis.txt Rain (0=no rain 1=file 2=function) <rain> : : 0 Name of the rain file <rain_NF> : : rain.txt Infiltration model, 1987.

, Supplementary file 12. Number of genes with different category value of Ks and Ka/Ks in each species pair., zcrust, thickness of the crust (1=file 2=const_coef) <zcrust_init> : : zcrust coefficient <zcrustcoef> : : Name of the zcrust file <zcrust_NF> : : Ks, hydraulic conductivity (saturation) of the soil (1=file 2=const_coef) <Ks_init> : : Ks coefficient <Kscoef> : : Name of the Ks, vol.<Ks_NF>

. Kc, Protein Inference Using PIA Workflows and PSI Standard File Formats, Kc coefficient <Kccoef> : : Name of the Kc file <Kc_NF> : : dtheta, initial water deficit (1=file 2=const_coef) <dtheta_init> : : dtheta coefficient <dthetacoef> : : Name of the dtheta file <dtheta_NF> : : Psi, load pressure (1=file 2=const_coef) <Psi_init> : : Psi coefficient <Psicoef> : : Name of the Psi file <Psi_NF> : : imax, Maximun infiltration rate (1=file 2=const_coef) <imax_init> : : imax coefficient <imaxcoef> : : Name of the imax file <imax_NF> : : Suffix for the 'Outputs' directory <suffix_o> : : ##################################################################### # Input parameters for the transfer equations ##################################################################### Number of classes <Nc> : : 11 Number of times saved <nbtimes_conc>, p.10

, CHAPTER IV. CAUSAL ORDER AND TEMPORAL ORDER, Space, Time, and Spacetime, pp.239-348, 1976.

. J.-donald-cossairt, Effects of inflow on NuMI groundwater concentrations, Temporal concentrations saved (0=No 1=Yes) <Temp> : : 0 Spatial position of the temporal concentrations saved (x position) <X_temp> : : 200 Inflow concentrations (0=No_inflow 1=same_coef 2=file) <Cin> : : 1 Cin coefficient <Cincoef> : : 0.000017454 Name of the inflow concentrations file <Cin_NF> : :cin_nf.txt Start time of inflow concentrations <Tin> : : 0 End time of inflow concentrations <Tstop>, p.600, 1999.

, Refleksi Pembelajaran Inovatif, Initialization of Ci and Mi (0=Ci&Mi=0 1=Ci&Mi=same_coef 2=file) <CM_init> : : 0 Ci coefficient <Cicoef> : : Mi coefficient <Micoef> : : Name of the Ci and Mi initialization file <CM_NF> : : Alpha, coefficient of the concentration Mi in the exchange layer <Alphacoef> : : 1 Relaxation parameter Rpi (1=same_coef 2=file) <Rpi> : : 2 Rpi coefficient <Rpicoef> : :100 Name of the Rpi file <Rpi_NF> : : rpi.txt Relaxation time Tsi, p.1

P. K. Bhowmick, Rehabilitation of a 'Denotified Community': The Ex-Criminal Lodhas of West Bengal, RAIN, issue.44, p.6, 1981.

K. , Supplementary file 1. 5 week old Atxn1154Q/2Q KI inferior olive IPA canonical pathway enrichment., parameter of the equilibrium function (1=same_coef 2=file) <Ki> : : 1 Ki coefficient <Kicoef> : : 0.1 Name of the Ki file <Ki_NF> : : Second Ki, parameter of the equilibrium function (1=same_coef 2=file) <Ki2> : : Second Ki coefficient <Kicoef2> : : Name of the second Ki file <Ki_NF2> : : R0, rain intensity threshold <R0> : : q0, water flux threshold <q0> : : Distributed supply

. Ds and . &lt;dscoef&gt;, Name of the Ds file <Ds_NF> : : Start time of distributed supply <TD_start> : : Depletion time of distributed supply <TD_end> : : Rain supply (0=No_supply 1=supply

H. Farber, Why You Can't Find a Taxi in the Rain and Other Labor Supply Lessons from Cab Drivers, Ad, detachability of the initial soil <Adcoef> : : B, rain exponent (0=const_coef 1=exponential_form) <B> : : B coefficient <Bcoef> : : Depletion time of rain supply <TR_end> : : Flow supply (0=No_supply 1=supply, 2014.

. Fd-;-je, Depletion time of flow supply <TF_end> : : Ms, mass for complete shielding <Mscoef> : : Pi, proportion of each class in the initial soil (1=same_prop 2=file) <Pi> : : Pi coefficient <Picoef> : : Name of the Pi file <Pi_NF> : : Chemical supply (0=No_supply 1=supply) <Chem> : : 0 J, diffusion rate from the soil <J> : : de, depth of the exchange layer <de> : : Depletion time of chemical supply <TC_end> : : Suffix for the 'Outputs

. Timestep, Table 2: Mean (±SD) time (seconds) and mean number of steps to reach the location that participants were looking ahead to., seconds) <dt> : : 0.01 Number of time steps <ndt>, p.60000

H. Abedi and A. M. Abbassi, Gravitational constant in multiple field gravity, Journal of Cosmology and Astroparticle Physics, vol.2015, issue.05, pp.026-026, 2015.

R. P. Wichner, SLURRY FLOW METERS AND DENSITY METERS FOR THE HOMOGENEOUS REACTOR, Constant (and homogeneous) velocity of the flow <V> : : 0.09 <Nxcell> : : 106 Length of the domain with respect to x (in meters) <L> : : 0.53 Final time <T> : : 600 Number of times saved <nbtimes>, p.10, 1957.

. Timestep,

J. T. Melvin, IMP-IMP Teletype Communication, Left boundary condition (1=imp.h 2=neum 3=imp.q 4=wall 5=period) <Lbound> : : 1 Imposed discharge in left bc <L_imp_q>, pp.34-40, 1970.

J. T. Melvin, IMP-IMP Teletype Communication, Right boundary condition (1=imp.h 2=neum 3=imp.q 4=wall 5=period) <Rbound> : : 1 Imposed discharge in right bc <R_imp_q>, pp.34-40, 1970.

J. Buie, Practice: Right to diagnose is challenged in Fla., 1988.

A. Schmitt and A. Haber, Multi-winding flux tubes in CFL quark matter, Proceedings of XIII Quark Confinement and the Hadron Spectrum ? PoS(Confinement2018), 2019.

A. Gelb and E. Tadmor, Adaptive Edge Detectors for Piecewise Smooth Data Based on the Minmod Limiter, 2=ENO 3=ENOmod) <rec> : : 1 AmortENO <amortENO> : : ModifENO <modifENO> : : Limiter (1=Minmod 2=VanAlbada 3=VanLeer) <lim>, p.1, 2005.

R. J. Pickering, Acid rain, Topography (1=file 2=flat 3=Thacker 4=bump) <topo> : : 2 Name of the topography file <topo_NF> : : Initialization of h and u (1=file 2=h&u=0 3=Wet_Dam 4=Dry_Dam 5=Dressler 6=Thacker) <hu_init> : :1 Name of the hu initialization file <hu_NF> : : hubis.txt Rain (0=no rain 1=file 2=function) <rain> : : 0 Name of the rain file <rain_NF> : : rain.txt Infiltration model, 1987.

, Supplementary file 12. Number of genes with different category value of Ks and Ka/Ks in each species pair., zcrust, thickness of the crust (1=file 2=const_coef) <zcrust_init> : : zcrust coefficient <zcrustcoef> : : Name of the zcrust file <zcrust_NF> : : Ks, hydraulic conductivity (saturation) of the soil (1=file 2=const_coef) <Ks_init> : : Ks coefficient <Kscoef> : : Name of the Ks, vol.<Ks_NF>

. Kc, Protein Inference Using PIA Workflows and PSI Standard File Formats, Kc coefficient <Kccoef> : : Name of the Kc file <Kc_NF> : : dtheta, initial water deficit (1=file 2=const_coef) <dtheta_init> : : dtheta coefficient <dthetacoef> : : Name of the dtheta file <dtheta_NF> : : Psi, load pressure (1=file 2=const_coef) <Psi_init> : : Psi coefficient <Psicoef> : : Name of the Psi file <Psi_NF> : : imax, Maximun infiltration rate (1=file 2=const_coef) <imax_init> : : imax coefficient <imaxcoef> : : Name of the imax file <imax_NF> : : Suffix for the 'Outputs' directory <suffix_o> : : classes <Nc> : : 11 Number of times saved <nbtimes_conc>, p.10

, CHAPTER IV. CAUSAL ORDER AND TEMPORAL ORDER, Space, Time, and Spacetime, pp.239-348, 1976.

. J.-donald-cossairt, Effects of inflow on NuMI groundwater concentrations, Temporal concentrations saved (0=No 1=Yes) <Temp> : : 0 Spatial position of the temporal concentrations saved (x position) <X_temp> : : 200 Inflow concentrations (0=No_inflow 1=same_coef 2=file) <Cin> : : 1 Cin coefficient <Cincoef> : : 0.000017454 Name of the inflow concentrations file <Cin_NF> : :cin_nf.txt Start time of inflow concentrations <Tin> : : 0 End time of inflow concentrations <Tstop>, p.600, 1999.

, Refleksi Pembelajaran Inovatif, Initialization of Ci and Mi (0=Ci&Mi=0 1=Ci&Mi=same_coef 2=file) <CM_init> : : 0 Ci coefficient <Cicoef> : : Mi coefficient <Micoef> : : Name of the Ci and Mi initialization file <CM_NF> : : Alpha, coefficient of the concentration Mi in the exchange layer <Alphacoef> : : 1 Relaxation parameter Rpi (1=same_coef 2=file) <Rpi> : : 2 Rpi coefficient <Rpicoef> : :100 Name of the Rpi file <Rpi_NF> : : rpi.txt Relaxation time Tsi, p.1

H. Menard, R. Beaudoin, and K. Loczy, Measurements of R0(H) and R0(F) in alcohol hydrogen fluoride mixtures, Journal of Chemical & Engineering Data, vol.29, issue.2, pp.120-121, 1984.

, Ex-dividend or Ex-rights

K. , Supplementary file 1. 5 week old Atxn1154Q/2Q KI inferior olive IPA canonical pathway enrichment., parameter of the equilibrium function (1=same_coef 2=file) <Ki> : : 1 Ki coefficient <Kicoef> : : 0.0001 Name of the Ki file <Ki_NF> : : Second Ki, parameter of the equilibrium function (1=same_coef 2=file) <Ki2> : : Second Ki coefficient <Kicoef2> : : Name of the second Ki file <Ki_NF2> : : R0, rain intensity threshold <R0> : : q0, water flux threshold <q0> : : Distributed supply

. Ds and . &lt;dscoef&gt;, Name of the Ds file <Ds_NF> : : Start time of distributed supply <TD_start> : : Depletion time of distributed supply <TD_end> : : Rain supply (0=No_supply 1=supply

H. Farber, Why You Can't Find a Taxi in the Rain and Other Labor Supply Lessons from Cab Drivers, Ad, detachability of the initial soil <Adcoef> : : B, rain exponent (0=const_coef 1=exponential_form) <B> : : B coefficient <Bcoef> : : Depletion time of rain supply <TR_end> : : Flow supply (0=No_supply 1=supply, 2014.

. Fd-;-je, Depletion time of flow supply <TF_end> : : Ms, mass for complete shielding <Mscoef> : : Pi, proportion of each class in the initial soil (1=same_prop 2=file) <Pi> : : Pi coefficient <Picoef> : : Name of the Pi file <Pi_NF> : : Chemical supply (0=No_supply 1=supply) <Chem> : : 0 J, diffusion rate from the soil <J> : : de, depth of the exchange layer <de> : : Depletion time of chemical supply <TC_end> : : Suffix for the 'Outputs

. Timestep, Table 2: Mean (±SD) time (seconds) and mean number of steps to reach the location that participants were looking ahead to., seconds) <dt> : : 0.01 Number of time steps <ndt>, p.60000

H. Abedi and A. M. Abbassi, Gravitational constant in multiple field gravity, Journal of Cosmology and Astroparticle Physics, vol.2015, issue.05, pp.026-026, 2015.

N. Ettrich, Offset?dependent geometrical spreading in isotropic laterally homogeneous media using constant velocity gradient models, GEOPHYSICS, vol.67, issue.5, pp.1612-1615, 2002.