Model:HydroTrend: Difference between revisions
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{{Infobox Model | {{Infobox Model | ||
|model name = HydroTrend | |model name = HydroTrend | ||
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<!-- available source code can be: not, owner, source, commercial --> | <!-- available source code can be: not, owner, source, commercial --> | ||
{{HydroTrend Disclaimer}} | {{HydroTrend Disclaimer}} | ||
===Introduction=== | |||
<section begin=onelinedescription />HydroTrend is an ANSI-standard C numerical model that creates synthetic river discharge and sediment load time series as a function of climate trends and basin morphology <section end=onelinedescription /> | <section begin=onelinedescription />HydroTrend is an ANSI-standard C numerical model that creates synthetic river discharge and sediment load time series as a function of climate trends and basin morphology <section end=onelinedescription /> | ||
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* The impact of reservoirs. | * The impact of reservoirs. | ||
===Model History=== | |||
HydroTrend, an ANSI-standard C coded program has been developed over many years by a number of researchers. The program started out with the name "RIVER" and was coded in FORTRAN. Over the years, it's capabilities have been built upon and greatly expanded up to RIVER version 5.11. The model development of RIVER and HydroTrend has been under the direction of by James Syvitski. Here is a small overview of all the primairy authors: | HydroTrend, an ANSI-standard C coded program has been developed over many years by a number of researchers. The program started out with the name "RIVER" and was coded in FORTRAN. Over the years, it's capabilities have been built upon and greatly expanded up to RIVER version 5.11. The model development of RIVER and HydroTrend has been under the direction of by James Syvitski. Here is a small overview of all the primairy authors: | ||
{| {{Prettytable}} class="wikitable sortable" | {| {{Prettytable}} class="wikitable sortable" | ||
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|} | |} | ||
===Current Users=== | |||
'''User community:''' | '''User community:''' | ||
<properties> | <properties> | ||
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</properties> | </properties> | ||
==Papers== | |||
===Papers describing HydroTrend=== | |||
* Kettner, A.J., and Syvitski, J.P.M., 2008. HydroTrend version 3.0: a Climate-Driven Hydrological Transport Model that Simulates Discharge and Sediment Load leaving a River System. ''Computers & Geosciences'', '''34'''(10), 1170-1183. | * Kettner, A.J., and Syvitski, J.P.M., 2008. HydroTrend version 3.0: a Climate-Driven Hydrological Transport Model that Simulates Discharge and Sediment Load leaving a River System. ''Computers & Geosciences'', '''34'''(10), 1170-1183. | ||
* Syvitski, J.P.M., Morehead, M.D. and Nicholson, M., 1998. HYDROTREND: A Climate-driven Hydrologic-Transport Model for Predicting Discharge and Sediment Loads to Lakes or Oceans. ''Computers & Geosciences'', '''24'''(1), 51-68. | * Syvitski, J.P.M., Morehead, M.D. and Nicholson, M., 1998. HYDROTREND: A Climate-driven Hydrologic-Transport Model for Predicting Discharge and Sediment Loads to Lakes or Oceans. ''Computers & Geosciences'', '''24'''(1), 51-68. | ||
* Syvitski, J.P.M., and J.M. Alcott, 1995. RIVER3: Simulation of River Discharge and Sediment Transport. ''Computers and Geosciences'', '''21'''(1), 89-101. | * Syvitski, J.P.M., and J.M. Alcott, 1995. RIVER3: Simulation of River Discharge and Sediment Transport. ''Computers and Geosciences'', '''21'''(1), 89-101. | ||
===Papers applying HydroTrend=== | |||
* Kettner, A.J., Restrepo, J.D., and Syvitski, J.P.M., submitted. Spatial Simulation of Fluvial Sediment Fluxes within an Andean Drainage Basin, the Magdalena River, Colombia. ''Journal of Geology''. | * Kettner, A.J., Restrepo, J.D., and Syvitski, J.P.M., submitted. Spatial Simulation of Fluvial Sediment Fluxes within an Andean Drainage Basin, the Magdalena River, Colombia. ''Journal of Geology''. | ||
* Kettner, A.J., and Syvitski, J.P.M., accepted. Fluvial responses to perturbations in the Northern Mediterranean since the Last Glacial Maximum. ''Quaternary Science Reviews''. | * Kettner, A.J., and Syvitski, J.P.M., accepted. Fluvial responses to perturbations in the Northern Mediterranean since the Last Glacial Maximum. ''Quaternary Science Reviews''. | ||
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---- | ---- | ||
==HydroTrend Issues== | |||
'''Error reports:'''<br> | '''Error reports:'''<br> | ||
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---- | ---- | ||
==HydroTrend Help== | |||
Have a look at the input files. The main input file (HYDRO.IN) is described below. The rest will follow shortly!--[[User:WikiSysop|WikiSysop]] 11:08, 10 September 2009 (MDT) | Have a look at the input files. The main input file (HYDRO.IN) is described below. The rest will follow shortly!--[[User:WikiSysop|WikiSysop]] 11:08, 10 September 2009 (MDT) | ||
===Input files=== | |||
There are 2 input files required to run the model: HYDRO.IN and HYDRO.HYPS. You can use an optional input file (HYDRO.CLIMATE) to specify precipitation and temperature events if you do not want to use the climate generator build in to HydroTrend. Each file has it's own format, see [[Model:HydroTrend#Download|HydroTrend Download]] for example files. Below you'll find per input file, an explanation of each of the input parameters. | There are 2 input files required to run the model: HYDRO.IN and HYDRO.HYPS. You can use an optional input file (HYDRO.CLIMATE) to specify precipitation and temperature events if you do not want to use the climate generator build in to HydroTrend. Each file has it's own format, see [[Model:HydroTrend#Download|HydroTrend Download]] for example files. Below you'll find per input file, an explanation of each of the input parameters. | ||
====HYDRO.IN==== | |||
Explanation table for HYDRO.IN input file | Explanation table for HYDRO.IN input file | ||
{| {{Prettytable}} class="wikitable sortable" | {| {{Prettytable}} class="wikitable sortable" | ||
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|} | |} | ||
''References'' <references/> | ''References'' <references/> | ||
====Saturated hydraulic conductivity==== | |||
Saturated hydraulic conductivity rates shown in the table below are in relation to texture and are only a general guide. Differences in bulk density may alter the rates shown below.<br> | Saturated hydraulic conductivity rates shown in the table below are in relation to texture and are only a general guide. Differences in bulk density may alter the rates shown below.<br> | ||
Table 2: General values for Saturated hydraulic conductivity | Table 2: General values for Saturated hydraulic conductivity | ||
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<br> | <br> | ||
====HYDRO.HYPS==== | |||
'''*****TEXT WILL COME*****'''--[[User:WikiSysop|WikiSysop]] 10:08, 25 August 2008 (MDT) | '''*****TEXT WILL COME*****'''--[[User:WikiSysop|WikiSysop]] 10:08, 25 August 2008 (MDT) | ||
====HYDRO.CLIMATE==== | |||
'''*****TEXT WILL COME*****'''--[[User:WikiSysop|WikiSysop]] 10:09, 25 August 2008 (MDT) | '''*****TEXT WILL COME*****'''--[[User:WikiSysop|WikiSysop]] 10:09, 25 August 2008 (MDT) | ||
---- | ---- | ||
===Output files=== | |||
====ASCII output==== | |||
''General ASCII output files''<br> | ''General ASCII output files''<br> | ||
A summary table of information is output to HYDRO.LOG. Mean annual and total annual values of many model parameters (discharge, load, basin temperature, precipitation, etc.) are written to a set of annual trend files (HYDRO.TRN1, HYDRO.TRN2, and HYDRO.TRN3). These annual trend files are useful for verifying climate ranges and trends and to check total discharge and sediment load. HYDRO.STAT is representing the used water and sediment equations and their statistics per epoch. | A summary table of information is output to HYDRO.LOG. Mean annual and total annual values of many model parameters (discharge, load, basin temperature, precipitation, etc.) are written to a set of annual trend files (HYDRO.TRN1, HYDRO.TRN2, and HYDRO.TRN3). These annual trend files are useful for verifying climate ranges and trends and to check total discharge and sediment load. HYDRO.STAT is representing the used water and sediment equations and their statistics per epoch. | ||
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* HYDROASCII.VWD; contains three columns separated by a space: Velocity, width and dept at the river mouth. | * HYDROASCII.VWD; contains three columns separated by a space: Velocity, width and dept at the river mouth. | ||
====Binary output==== | |||
There are 2 binary output files, named HYDRO.DIS and HYDRO.CONVDIS. Both files contain the same data, which is a minimum of 6 columns all seporated by space. From one to 6 or more: it contains velocity, width, depth, Qb, Cs[i](number of columns is equal to the number of grainsizes specified in the input file) and Total Cs. All values are defined as floats. Matlab can handle the format. | There are 2 binary output files, named HYDRO.DIS and HYDRO.CONVDIS. Both files contain the same data, which is a minimum of 6 columns all seporated by space. From one to 6 or more: it contains velocity, width, depth, Qb, Cs[i](number of columns is equal to the number of grainsizes specified in the input file) and Total Cs. All values are defined as floats. Matlab can handle the format. | ||
The binary file are platform dependant. A swapped version of the output file is created for other platforms: HYDRO.CONVDIS file (this is the swabbed version of HYDRO.DIS). | The binary file are platform dependant. A swapped version of the output file is created for other platforms: HYDRO.CONVDIS file (this is the swabbed version of HYDRO.DIS). | ||
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---- | ---- | ||
==Downloads== | |||
'''Introduction'''<br> | '''Introduction'''<br> | ||
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---- | ---- | ||
== Source code == | |||
If you're interested in the source code:<br>[[media:HydroTrend_3.0.1_source.tar|HydroTrend_3.0.1_source]] (nightbuild 03/11/2008)<br> | If you're interested in the source code:<br>[[media:HydroTrend_3.0.1_source.tar|HydroTrend_3.0.1_source]] (nightbuild 03/11/2008)<br> | ||
[[media:HydroTrend_3.0.2_source.tar|HydroTrend_3.0.2_source]] (nightbuild 03/14/2008)<br> | [[media:HydroTrend_3.0.2_source.tar|HydroTrend_3.0.2_source]] (nightbuild 03/14/2008)<br> | ||
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[[media:HydroTrend_3.0.4.tar.bz2|HydroTrend_3.0.4_source]] (experimental 01/14/2008) | [[media:HydroTrend_3.0.4.tar.bz2|HydroTrend_3.0.4_source]] (experimental 01/14/2008) | ||
=== Command-Line Access === | |||
If you plan to make changes, use this command to check out the code as yourself using HTTPS: | If you plan to make changes, use this command to check out the code as yourself using HTTPS: | ||
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Need help with Subversion? Go to the [[SVN|subversion help page]]. | Need help with Subversion? Go to the [[SVN|subversion help page]]. | ||
=== GUI and IDE Access === | |||
This project's Subversion repository may be accessed using many different client programs and plug-ins. See your client's documentation for more information. | This project's Subversion repository may be accessed using many different client programs and plug-ins. See your client's documentation for more information. | ||
Revision as of 12:19, 10 September 2009
Contact
Name | Albert Kettner |
Type of contact | Model developer |
Institute / Organization | CSDMS, INSTAAR, University of Colorado |
Postal address 1 | 1560 30th street |
Postal address 2 | |
Town / City | Boulder |
Postal code | 80309 |
State | Colorado |
Country | USA"USA" is not in the list (Afghanistan, Albania, Algeria, Andorra, Angola, Antigua and Barbuda, Argentina, Armenia, Australia, Austria, ...) of allowed values for the "Country" property. |
Email address | kettner@colorado.edu |
Phone | 303-735-5486 |
Fax | 303-492-6388 |
HydroTrend
Metadata
Summary
Technical specs
In/Output
Process
Testing
Other
IntroductionHydroTrend is an ANSI-standard C numerical model that creates synthetic river discharge and sediment load time series as a function of climate trends and basin morphologyHydroTrend is an ANSI-standard C numerical model that creates synthetic river discharge and sediment load time series as a function of climate trends and basin morphology and has been used to study the sediment flux to a basin for basin filling models. As a drainage basin simulator, the model provides time series of daily discharge hydraulics at a river mouth, including the sediment load properties. HydroTrend was designed to provide input to lake or shelf circulation and sedimentation models (Steckler et al., 1996; Syvitski and Alcott, 1995b), and study the impact of land-sea fluxes given climatic change scenarios (Moore, 1992; Syvitski and Andrews, 1994). HydroTrend simulates the major processes that occur in a river basin, including:
Model HistoryHydroTrend, an ANSI-standard C coded program has been developed over many years by a number of researchers. The program started out with the name "RIVER" and was coded in FORTRAN. Over the years, it's capabilities have been built upon and greatly expanded up to RIVER version 5.11. The model development of RIVER and HydroTrend has been under the direction of by James Syvitski. Here is a small overview of all the primairy authors:
Current UsersUser community: <properties> Albert Kettner:=kettner@colorado.edu (since January 2002) Irina Overeem:=Irina.Overeem@colorado.edu (since January 2003) Kerry McCarney:=kmccarney@geol.sc.edu (since June, 2006) Camilo Medina:=camilomedi@gmail.com (since October, 2007) Ted Lewis:=limno.ted@gmail.com (since December, 2007) Ilja de Winter:=i.l.dewinter@tudelft.nl (since March, 2008) Phaedra Upton:=P.Upton@gns.cri.nz (since February, 2009) </properties> PapersPapers describing HydroTrend
Papers applying HydroTrend
HydroTrend IssuesError reports:
HydroTrend HelpHave a look at the input files. The main input file (HYDRO.IN) is described below. The rest will follow shortly!--WikiSysop 11:08, 10 September 2009 (MDT) Input filesThere are 2 input files required to run the model: HYDRO.IN and HYDRO.HYPS. You can use an optional input file (HYDRO.CLIMATE) to specify precipitation and temperature events if you do not want to use the climate generator build in to HydroTrend. Each file has it's own format, see HydroTrend Download for example files. Below you'll find per input file, an explanation of each of the input parameters. HYDRO.INExplanation table for HYDRO.IN input file
Saturated hydraulic conductivitySaturated hydraulic conductivity rates shown in the table below are in relation to texture and are only a general guide. Differences in bulk density may alter the rates shown below.
HYDRO.HYPS*****TEXT WILL COME*****--WikiSysop 10:08, 25 August 2008 (MDT) HYDRO.CLIMATE*****TEXT WILL COME*****--WikiSysop 10:09, 25 August 2008 (MDT) Output filesASCII outputGeneral ASCII output files Optional ASCII output files
Binary outputThere are 2 binary output files, named HYDRO.DIS and HYDRO.CONVDIS. Both files contain the same data, which is a minimum of 6 columns all seporated by space. From one to 6 or more: it contains velocity, width, depth, Qb, Cs[i](number of columns is equal to the number of grainsizes specified in the input file) and Total Cs. All values are defined as floats. Matlab can handle the format. The binary file are platform dependant. A swapped version of the output file is created for other platforms: HYDRO.CONVDIS file (this is the swabbed version of HYDRO.DIS). Matlab tools to visualize
DownloadsIntroduction I have tried to make HydroTrend v3.0 as accessible as possible. Not only is the source code available on this website, people can download an executable (see below) as well.
For Mac OS 10.5.2 For Windows xp Source codeIf you're interested in the source code: Command-Line AccessIf you plan to make changes, use this command to check out the code as yourself using HTTPS: # Project members authenticate over HTTPS to allow committing changes.
svn checkout https://csdms.colorado.edu/svn/hydrotrend/hydrotrend
When prompted, enter your CSDMS Subversion password. GUI and IDE AccessThis project's Subversion repository may be accessed using many different client programs and plug-ins. See your client's documentation for more information. |