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= What is Organic Data Science? =  
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== Our Science Goal: The Age of Water and Carbon ==
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[[File:VirtualOverlayNetworks.jpg|thumb|left|upright|Organic team science would enable the creation of “virtual overlay networks” over existing cyberinfrastructure and other related activities.]]
  
[[File:OrganicDataScience.jpg|thumb|left|Organic data science diagram goes here.]]
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This study focuses on long-standing problems of coupled water and carbon budgets through development of a new scientific paradigm, <i>The Age of Water and Carbon,</i> that melds  theory and practice from limnology and hydrology within the paradigm of [[Organic_Data_Science | Organic Data Science]]. We are integrating analytical frameworks from two communities – hydrology and isotope modeling in [http://criticalzone.org Critical Zone Observatories (CZOs)] and hydrodynamic water quality modeling from the [http://www.gleon.org Global Lake Ecological Observatory Network (GLEON)] – to quantify water and material fluxes from two research sites, the Shales Hills CZO and the GLEON member site, [http://www.lternet.edu/sites/ntl North Temperate Lakes LTER]. This foundation will serve as a nexus for participation by multiple communities and will seed the growth of additional science through shared ideas, knowledge, and data.
  
We are investigating [[What_Is_Organic_Data_Science| Organic Data Science]], a new approach aimed to allow scientists to formulate and resolve science processes through an open framework that facilitates ad-hoc participation and entice collaborators based on attractive science goals. Organic Data Science]] allows scientists to formulate and resolve science processes through an open framework that facilitates ad-hoc participation and entice collaborators based on attractive science goals.
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An initial goal is a retrospective analysis based on a fully-coupled catchment-lake-groundwater hydrodynamic model parameterized from national data, calibrated with local data, and implemented to run climate and landuse change scenarios. The target catchments for the initial catchment-lake isoscapes are Trout Lake (Wisconsin) and Shaver Creek (Pennsylvania). As water age and the associated flowpaths are identified, scientists will use that information to infer the sources of organic carbon to lake-catchment ecosystems, their fluxes from the landscape to lakes, the fates as storage, conversion or export, and understanding of the uncertainties surrounding these quantities.  Thus, an outcome of this work will be the first-ever dynamical model for lake water, energy and carbon cycling constrained by a fully coupled catchment mass balance including the effects of the groundwater basin.
  
Accomplishing this requires three elements:  
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=== Models Employed ===
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'''Catchment:'''  [http://www.organicdatascience.org/ageofwater/index.php/Select_core_lake_and_catchment_models Penn State Integrated Hydrologic Model (PIHM)]
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<br>'''Lake:''' [http://www.organicdatascience.org/ageofwater/index.php/Select_core_lake_and_catchment_models General Lake Model (GLM)]
  
# a science approach to tackle the problem of the age of water,  
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== The Online Framework ==
# a technical substrate that facilitates transdisciplinary collaborations, and  
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The science-driven demands of this research project have motivated the assembly of community-level resources distributed amongst institutions. The complex suite of resources, including data sets, computer models, computing resources, or technological staff must be coordinated and directed toward a common goal.  
# a social approach to engage the community.
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<b><i>[[What_Is_Organic_Data_Science| Read more about Organic Data Science]].</i></b>
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The organic data science platform is a structured environment that can handle this complexity. By documenting the scientific progress, unresolved tasks that must be undertaken are made clear, both as a reminder to the principal investigators, but also to new members who want to contribute. The wiki provides a legacy of documentation, and a trail of how results were obtained. Ultimately, it is envisioned to lead to better scientific products representative of diverse contributions from both the hydrology and limnology communities.  
  
= Our Science Goal: The Age of Water and Carbon =
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<b>Organic Data Science</b>.  [http://www.organicdatascience.org See this site for more information about this framework].
  
[[File:VirtualOverlayNetworks.jpg|thumb|left|Organic team science would enable the creation of “virtual overlay networks” over existing cyberinfrastructure and other related activities.]]
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== Ongoing Science Activities ==
  
This study focuses on long-standing problems of coupled water and carbon budgets through development of a new scientific paradigm, <i>The Age of Water and Carbon,</i> that melds  theory and practice from limnology and hydrology within the new collaborative paradigm of [[Organic_Data_Science | Organic Data Science]]. We are integrating analytical frameworks from two communities – hydrology and isotope modeling in [http://criticalzone.org Critical Zone Observatories (CZOs)] and hydrodynamic water quality modeling from the [http://www.gleon.org Global Lake Ecological Observatory Network (GLEON)]  – to quantify water and material fluxes from two research sites, the Shales Hills CZO and the GLEON member site, [http://www.lternet.edu/sites/ntl North Temperate Lakes LTER]. This foundation will serve as a nexus for participation by multiple communities and will seed the growth of additional science through shared ideas, knowledge, and data. <b><i>[[Age_of_Water:_Example| Read more about Modeling the Age of Water and Carbon in Lake-Catchment Systems]].</i></b>  or <b><i>[[PIHM_Software| Read more about the PIHM catchment model]].</i></b>
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# [[Develop a computational model for water and carbon isotopes in lake-catchment systems]]
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# [[Select core lake and catchment models]]
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# [[Implement the catchment model for North Temperate Lakes]]
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# [[Implement the lake model for North Temperate Lakes]]
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# [[Couple the lake and catchment models]]
  
= Ongoing Activities =
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== Leadership Team ==
  
Our project goal is to ''predict pathways and age of water and carbon isotopes for lake-catchment systems''.  To that end, we are working with the community in several major activities:
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[[File:LeadTeam.JPG|400px|G16 Workshop Leadership Team|border]]
 
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<br>(Left to Right) Jordan Read, Lele Shu, Chris Duffy, Paul Hanson, Hilary Dugan, Craig Snortheim, Gopal Bhatt
* [[Develop a computational model for water and carbon isotopes in lake-catchment systems]]
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<br>(Not pictured) Yolanda Gil
* [[Select core lake and catchment models]]
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* [[Implement the catchment model for North Temperate Lakes]]
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* [[Implement the lake model for North Temperate Lakes]]
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* [[Couple the lake and catchment models]]
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= Models =
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<b>The models that we are considering include:</b>
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{{ #ask: [[Is a::model]]
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| ?author
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| ?software_license
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| ?language
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| default=No models are described in this site
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}}
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= Contributing to Organic Data Science =
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[[File:People.jpg|thumb|left|Contributors to the project.]]
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= Contributing and Participating =
 
<b>[[Contributors | There is a growing set of contributors to the project]].</b>
 
<b>[[Contributors | There is a growing set of contributors to the project]].</b>
  
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We welcome new members to the project. By contributing you can:
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#Become part of a community that works on large science problems
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#Become involved in science projects that would otherwise be impractical
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#Be more efficient in your workflow
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#Learn about tools that otherwise may seem unapproachable
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#Give direction to projects
  
<b>We have [[Special Information for Newcomers]] to catch up with what we have been doing so far and our plans for the future.  </b>
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The contents of this wiki are accessible to everyoneIf you would like to contribute new content, please contact us to obtain an account by emailing us at <b>organic.data.science@gmail.com.</b>
 
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We are using a semantic wiki framework with significant extensions to structure collaboration processes<b><i>[[Organic_Data_Science_through_a_Semantic_Wiki | Read more about how this framework works and how to participate and contribute]].</i></b>
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<b>[[How_to_use_this_organic_data_science_wiki | Get an account, and learn how to use this wiki]].</b>
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= Acknowledgments =
 
= Acknowledgments =
  
 
This work is supported by the National Science Foundation through the INSPIRE program with grant number IIS-1344272.
 
This work is supported by the National Science Foundation through the INSPIRE program with grant number IIS-1344272.

Latest revision as of 15:41, 6 November 2014

Our Science Goal: The Age of Water and Carbon

Organic team science would enable the creation of “virtual overlay networks” over existing cyberinfrastructure and other related activities.

This study focuses on long-standing problems of coupled water and carbon budgets through development of a new scientific paradigm, The Age of Water and Carbon, that melds theory and practice from limnology and hydrology within the paradigm of Organic Data Science. We are integrating analytical frameworks from two communities – hydrology and isotope modeling in Critical Zone Observatories (CZOs) and hydrodynamic water quality modeling from the Global Lake Ecological Observatory Network (GLEON) – to quantify water and material fluxes from two research sites, the Shales Hills CZO and the GLEON member site, North Temperate Lakes LTER. This foundation will serve as a nexus for participation by multiple communities and will seed the growth of additional science through shared ideas, knowledge, and data.

An initial goal is a retrospective analysis based on a fully-coupled catchment-lake-groundwater hydrodynamic model parameterized from national data, calibrated with local data, and implemented to run climate and landuse change scenarios. The target catchments for the initial catchment-lake isoscapes are Trout Lake (Wisconsin) and Shaver Creek (Pennsylvania). As water age and the associated flowpaths are identified, scientists will use that information to infer the sources of organic carbon to lake-catchment ecosystems, their fluxes from the landscape to lakes, the fates as storage, conversion or export, and understanding of the uncertainties surrounding these quantities. Thus, an outcome of this work will be the first-ever dynamical model for lake water, energy and carbon cycling constrained by a fully coupled catchment mass balance including the effects of the groundwater basin.

Models Employed

Catchment: Penn State Integrated Hydrologic Model (PIHM)
Lake: General Lake Model (GLM)

The Online Framework

The science-driven demands of this research project have motivated the assembly of community-level resources distributed amongst institutions. The complex suite of resources, including data sets, computer models, computing resources, or technological staff must be coordinated and directed toward a common goal.

The organic data science platform is a structured environment that can handle this complexity. By documenting the scientific progress, unresolved tasks that must be undertaken are made clear, both as a reminder to the principal investigators, but also to new members who want to contribute. The wiki provides a legacy of documentation, and a trail of how results were obtained. Ultimately, it is envisioned to lead to better scientific products representative of diverse contributions from both the hydrology and limnology communities.

Organic Data Science. See this site for more information about this framework.

Ongoing Science Activities

  1. Develop a computational model for water and carbon isotopes in lake-catchment systems
  2. Select core lake and catchment models
  3. Implement the catchment model for North Temperate Lakes
  4. Implement the lake model for North Temperate Lakes
  5. Couple the lake and catchment models

Leadership Team

G16 Workshop Leadership Team
(Left to Right) Jordan Read, Lele Shu, Chris Duffy, Paul Hanson, Hilary Dugan, Craig Snortheim, Gopal Bhatt
(Not pictured) Yolanda Gil

Contributing and Participating

There is a growing set of contributors to the project.

We welcome new members to the project. By contributing you can:

  1. Become part of a community that works on large science problems
  2. Become involved in science projects that would otherwise be impractical
  3. Be more efficient in your workflow
  4. Learn about tools that otherwise may seem unapproachable
  5. Give direction to projects

The contents of this wiki are accessible to everyone. If you would like to contribute new content, please contact us to obtain an account by emailing us at organic.data.science@gmail.com.

Acknowledgments

This work is supported by the National Science Foundation through the INSPIRE program with grant number IIS-1344272.

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