Stics Soil Crop Model : : Conceptual Framework, Equations and Uses.
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Place / Publishing House: | Versailles : : Quae,, 2022. ©2023. |
Year of Publication: | 2022 |
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Beaudoin, Nicolas. Stics Soil Crop Model : Conceptual Framework, Equations and Uses. Versailles : Quae, 2022. ©2023. 1 online resource (519 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Hors Collection Intro -- Contents -- Foreword -- Dedication -- Preface -- The first book -- A new book based on an innovative approach -- Project funding -- English revision -- Chapter 1. Introduction -- 1.1 History -- 1.2 Purpose -- 1.3 The Stics Open Book -- 1.4 Human-machine interfaces -- 1.5 Tools for STICS users -- Chapter 2. Overall description of the modelled system -- 2.1 Conceptual Framework -- 2.2 STICS validity domain -- 2.3 Relationship and priority between processes -- 2.4 Model genericity -- 2.5 Parameterised crop species -- Chapter 3. Development -- 3.1 The importance of phenology on crop development -- 3.2 Simulated events -- 3.3 Main development processes -- 3.4 Emergence and initiation of crop development and growth -- Chapter 4. Shoot growth -- 4.1 Leaf dynamics -- 4.2 Radiation interception -- 4.3 Biomass production -- 4.4 Stress indices -- Chapter 5. Root growth -- 5.1 Introduction -- 5.2 Vertical root growth -- 5.3 Root length density production and root distribution -- 5.4 Turnover of root biomass and N content allocation -- 5.5 Calculation of root density for water and nitrogen absorption -- Chapter 6. Nitrogen acquisition by plants -- 6.1 Nitrogen uptake by plants -- 6.2 Nitrogen fixation by legumes -- Chapter 7. Biomass and nitrogen partitioning -- 7.1 Introduction -- 7.2 Identified organs and compartments -- 7.3 Vegetative organs -- 7.4 Remobilisation of reserves -- 7.5 Harvested organs -- 7.6 Roots -- 7.7 Biomass and nitrogen partitioning after cut of forages -- 7.8 N and C inputs to the soil from perennial crops -- Chapter 8. Yield formation -- 8.1 Quantitative yield -- 8.2 Yield quality -- Chapter 9. Canopy microclimate -- 9.1 Introduction -- 9.2 Radiation interception -- 9.3 Energy budget and crop temperature -- 9.4 Canopy moisture -- 9.5 Climate under shelter -- 9.6 Correcting temperatures for high altitude climates. Chapter 10. Transfers in soil: water, nitrate and heat fluxes -- 10.1 Water and nitrate fluxes -- 10.2 Soil temperature -- 10.3 Modifications of surface conditions that influence water and heat transfer -- Chapter 11 -- Water Balance -- Nadine Brisson, Remi Vezy, Dominique Ripoche-Wachter and Patrick Bertuzzi -- 11.1 Background and conceptual framework -- 11.2 Soil evaporation -- 11.3 Potential crop water requirements -- 11.4 Physical soil surface conditions -- 11.5 Plant transpiration and derived stresses -- 11.6 Water balance -- Chapter 12 -- Carbon and nitrogen transformations in soil and balances -- Bruno Mary, Fabien Ferchaud, Hugues Clivot and Joël Léonard -- 12.1 Organic and mineral C-N pools -- 12.2 Decomposition and mineralisation of organic matter -- 12.3 Nitrification -- 12.4 Denitrification -- 12.5 N2O emissions -- 12.6 Ammonia volatilisation -- 12.7 Carbon and nitrogen balances -- Chapter 13 -- Soil-crop management effects -- Nadine Brisson, Bruno Mary and Dominique Ripoche-Wachter -- 13.1 Introduction -- 13.2 Crop management -- 13.3 Crop operations and soil tillage -- 13.4 Soil water management -- 13.5 Nitrogen and carbon inputs in soil -- Chapter 14 -- Ways of STICS use -- Nicolas Beaudoin, Julie Constantin, Anne-Isabelle Graux, Gatien Falconnier, François Affholder, Françoise Ruget and Laurent Ruiz -- 14.1 Defining the Unit of SiMulation (USM) -- 14.2 Rotations and long-term simulations -- 14.3 Simulation over large spatial scales -- 14.4 Simulation with coupled models -- 14.5 Typology of STICS uses -- 14.6 Perspectives for model capacity extension toward agroecology -- Chapter 15 -- Tools for smart use of the standard STICS model version -- Dominique Ripoche, Christine Le Bas and Nadine Brisson -- 15.1 Driving use options -- 15.2 Strategy use options -- 15.3 Model formalism options -- 15.4 Parameterisation -- 15.5 Tools for users. Chapter 16 -- Model capacity extension methods -- Samuel Buis, Guillaume Jego and Eric Casellas -- 16.1 Introduction -- 16.2 Evaluating model performances -- 16.3 Adapting STICS to a new crop or cultivar -- 16.4 Tools and rules for model coupling -- References -- 17 -- Definition of symbols -- 17.1 Definition of parameters -- 17.2 Definition of output variables -- 17.3 Internal variables definition -- Authors list. Description based on publisher supplied metadata and other sources. Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries. Electronic books. Lecharpentier, Patrice. Ripoche-Wachter, Dominique. Strullu, Loïc. Mary, Bruno. Léonard, Joël. Launay, Marie. Justes, Éric. Print version: Beaudoin, Nicolas Stics Soil Crop Model Versailles : Quae,c2022 ProQuest (Firm) https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=7267566 Click to View |
language |
English |
format |
eBook |
author |
Beaudoin, Nicolas. |
spellingShingle |
Beaudoin, Nicolas. Stics Soil Crop Model : Conceptual Framework, Equations and Uses. Hors Collection Intro -- Contents -- Foreword -- Dedication -- Preface -- The first book -- A new book based on an innovative approach -- Project funding -- English revision -- Chapter 1. Introduction -- 1.1 History -- 1.2 Purpose -- 1.3 The Stics Open Book -- 1.4 Human-machine interfaces -- 1.5 Tools for STICS users -- Chapter 2. Overall description of the modelled system -- 2.1 Conceptual Framework -- 2.2 STICS validity domain -- 2.3 Relationship and priority between processes -- 2.4 Model genericity -- 2.5 Parameterised crop species -- Chapter 3. Development -- 3.1 The importance of phenology on crop development -- 3.2 Simulated events -- 3.3 Main development processes -- 3.4 Emergence and initiation of crop development and growth -- Chapter 4. Shoot growth -- 4.1 Leaf dynamics -- 4.2 Radiation interception -- 4.3 Biomass production -- 4.4 Stress indices -- Chapter 5. Root growth -- 5.1 Introduction -- 5.2 Vertical root growth -- 5.3 Root length density production and root distribution -- 5.4 Turnover of root biomass and N content allocation -- 5.5 Calculation of root density for water and nitrogen absorption -- Chapter 6. Nitrogen acquisition by plants -- 6.1 Nitrogen uptake by plants -- 6.2 Nitrogen fixation by legumes -- Chapter 7. Biomass and nitrogen partitioning -- 7.1 Introduction -- 7.2 Identified organs and compartments -- 7.3 Vegetative organs -- 7.4 Remobilisation of reserves -- 7.5 Harvested organs -- 7.6 Roots -- 7.7 Biomass and nitrogen partitioning after cut of forages -- 7.8 N and C inputs to the soil from perennial crops -- Chapter 8. Yield formation -- 8.1 Quantitative yield -- 8.2 Yield quality -- Chapter 9. Canopy microclimate -- 9.1 Introduction -- 9.2 Radiation interception -- 9.3 Energy budget and crop temperature -- 9.4 Canopy moisture -- 9.5 Climate under shelter -- 9.6 Correcting temperatures for high altitude climates. Chapter 10. Transfers in soil: water, nitrate and heat fluxes -- 10.1 Water and nitrate fluxes -- 10.2 Soil temperature -- 10.3 Modifications of surface conditions that influence water and heat transfer -- Chapter 11 -- Water Balance -- Nadine Brisson, Remi Vezy, Dominique Ripoche-Wachter and Patrick Bertuzzi -- 11.1 Background and conceptual framework -- 11.2 Soil evaporation -- 11.3 Potential crop water requirements -- 11.4 Physical soil surface conditions -- 11.5 Plant transpiration and derived stresses -- 11.6 Water balance -- Chapter 12 -- Carbon and nitrogen transformations in soil and balances -- Bruno Mary, Fabien Ferchaud, Hugues Clivot and Joël Léonard -- 12.1 Organic and mineral C-N pools -- 12.2 Decomposition and mineralisation of organic matter -- 12.3 Nitrification -- 12.4 Denitrification -- 12.5 N2O emissions -- 12.6 Ammonia volatilisation -- 12.7 Carbon and nitrogen balances -- Chapter 13 -- Soil-crop management effects -- Nadine Brisson, Bruno Mary and Dominique Ripoche-Wachter -- 13.1 Introduction -- 13.2 Crop management -- 13.3 Crop operations and soil tillage -- 13.4 Soil water management -- 13.5 Nitrogen and carbon inputs in soil -- Chapter 14 -- Ways of STICS use -- Nicolas Beaudoin, Julie Constantin, Anne-Isabelle Graux, Gatien Falconnier, François Affholder, Françoise Ruget and Laurent Ruiz -- 14.1 Defining the Unit of SiMulation (USM) -- 14.2 Rotations and long-term simulations -- 14.3 Simulation over large spatial scales -- 14.4 Simulation with coupled models -- 14.5 Typology of STICS uses -- 14.6 Perspectives for model capacity extension toward agroecology -- Chapter 15 -- Tools for smart use of the standard STICS model version -- Dominique Ripoche, Christine Le Bas and Nadine Brisson -- 15.1 Driving use options -- 15.2 Strategy use options -- 15.3 Model formalism options -- 15.4 Parameterisation -- 15.5 Tools for users. Chapter 16 -- Model capacity extension methods -- Samuel Buis, Guillaume Jego and Eric Casellas -- 16.1 Introduction -- 16.2 Evaluating model performances -- 16.3 Adapting STICS to a new crop or cultivar -- 16.4 Tools and rules for model coupling -- References -- 17 -- Definition of symbols -- 17.1 Definition of parameters -- 17.2 Definition of output variables -- 17.3 Internal variables definition -- Authors list. |
author_facet |
Beaudoin, Nicolas. Lecharpentier, Patrice. Ripoche-Wachter, Dominique. Strullu, Loïc. Mary, Bruno. Léonard, Joël. Launay, Marie. Justes, Éric. |
author_variant |
n b nb |
author2 |
Lecharpentier, Patrice. Ripoche-Wachter, Dominique. Strullu, Loïc. Mary, Bruno. Léonard, Joël. Launay, Marie. Justes, Éric. |
author2_variant |
p l pl d r w drw l s ls b m bm j l jl m l ml e j ej |
author2_role |
TeilnehmendeR TeilnehmendeR TeilnehmendeR TeilnehmendeR TeilnehmendeR TeilnehmendeR TeilnehmendeR |
author_sort |
Beaudoin, Nicolas. |
title |
Stics Soil Crop Model : Conceptual Framework, Equations and Uses. |
title_sub |
Conceptual Framework, Equations and Uses. |
title_full |
Stics Soil Crop Model : Conceptual Framework, Equations and Uses. |
title_fullStr |
Stics Soil Crop Model : Conceptual Framework, Equations and Uses. |
title_full_unstemmed |
Stics Soil Crop Model : Conceptual Framework, Equations and Uses. |
title_auth |
Stics Soil Crop Model : Conceptual Framework, Equations and Uses. |
title_new |
Stics Soil Crop Model : |
title_sort |
stics soil crop model : conceptual framework, equations and uses. |
series |
Hors Collection |
series2 |
Hors Collection |
publisher |
Quae, |
publishDate |
2022 |
physical |
1 online resource (519 pages) |
contents |
Intro -- Contents -- Foreword -- Dedication -- Preface -- The first book -- A new book based on an innovative approach -- Project funding -- English revision -- Chapter 1. Introduction -- 1.1 History -- 1.2 Purpose -- 1.3 The Stics Open Book -- 1.4 Human-machine interfaces -- 1.5 Tools for STICS users -- Chapter 2. Overall description of the modelled system -- 2.1 Conceptual Framework -- 2.2 STICS validity domain -- 2.3 Relationship and priority between processes -- 2.4 Model genericity -- 2.5 Parameterised crop species -- Chapter 3. Development -- 3.1 The importance of phenology on crop development -- 3.2 Simulated events -- 3.3 Main development processes -- 3.4 Emergence and initiation of crop development and growth -- Chapter 4. Shoot growth -- 4.1 Leaf dynamics -- 4.2 Radiation interception -- 4.3 Biomass production -- 4.4 Stress indices -- Chapter 5. Root growth -- 5.1 Introduction -- 5.2 Vertical root growth -- 5.3 Root length density production and root distribution -- 5.4 Turnover of root biomass and N content allocation -- 5.5 Calculation of root density for water and nitrogen absorption -- Chapter 6. Nitrogen acquisition by plants -- 6.1 Nitrogen uptake by plants -- 6.2 Nitrogen fixation by legumes -- Chapter 7. Biomass and nitrogen partitioning -- 7.1 Introduction -- 7.2 Identified organs and compartments -- 7.3 Vegetative organs -- 7.4 Remobilisation of reserves -- 7.5 Harvested organs -- 7.6 Roots -- 7.7 Biomass and nitrogen partitioning after cut of forages -- 7.8 N and C inputs to the soil from perennial crops -- Chapter 8. Yield formation -- 8.1 Quantitative yield -- 8.2 Yield quality -- Chapter 9. Canopy microclimate -- 9.1 Introduction -- 9.2 Radiation interception -- 9.3 Energy budget and crop temperature -- 9.4 Canopy moisture -- 9.5 Climate under shelter -- 9.6 Correcting temperatures for high altitude climates. Chapter 10. Transfers in soil: water, nitrate and heat fluxes -- 10.1 Water and nitrate fluxes -- 10.2 Soil temperature -- 10.3 Modifications of surface conditions that influence water and heat transfer -- Chapter 11 -- Water Balance -- Nadine Brisson, Remi Vezy, Dominique Ripoche-Wachter and Patrick Bertuzzi -- 11.1 Background and conceptual framework -- 11.2 Soil evaporation -- 11.3 Potential crop water requirements -- 11.4 Physical soil surface conditions -- 11.5 Plant transpiration and derived stresses -- 11.6 Water balance -- Chapter 12 -- Carbon and nitrogen transformations in soil and balances -- Bruno Mary, Fabien Ferchaud, Hugues Clivot and Joël Léonard -- 12.1 Organic and mineral C-N pools -- 12.2 Decomposition and mineralisation of organic matter -- 12.3 Nitrification -- 12.4 Denitrification -- 12.5 N2O emissions -- 12.6 Ammonia volatilisation -- 12.7 Carbon and nitrogen balances -- Chapter 13 -- Soil-crop management effects -- Nadine Brisson, Bruno Mary and Dominique Ripoche-Wachter -- 13.1 Introduction -- 13.2 Crop management -- 13.3 Crop operations and soil tillage -- 13.4 Soil water management -- 13.5 Nitrogen and carbon inputs in soil -- Chapter 14 -- Ways of STICS use -- Nicolas Beaudoin, Julie Constantin, Anne-Isabelle Graux, Gatien Falconnier, François Affholder, Françoise Ruget and Laurent Ruiz -- 14.1 Defining the Unit of SiMulation (USM) -- 14.2 Rotations and long-term simulations -- 14.3 Simulation over large spatial scales -- 14.4 Simulation with coupled models -- 14.5 Typology of STICS uses -- 14.6 Perspectives for model capacity extension toward agroecology -- Chapter 15 -- Tools for smart use of the standard STICS model version -- Dominique Ripoche, Christine Le Bas and Nadine Brisson -- 15.1 Driving use options -- 15.2 Strategy use options -- 15.3 Model formalism options -- 15.4 Parameterisation -- 15.5 Tools for users. Chapter 16 -- Model capacity extension methods -- Samuel Buis, Guillaume Jego and Eric Casellas -- 16.1 Introduction -- 16.2 Evaluating model performances -- 16.3 Adapting STICS to a new crop or cultivar -- 16.4 Tools and rules for model coupling -- References -- 17 -- Definition of symbols -- 17.1 Definition of parameters -- 17.2 Definition of output variables -- 17.3 Internal variables definition -- Authors list. |
isbn |
9782759236794 |
genre |
Electronic books. |
genre_facet |
Electronic books. |
url |
https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=7267566 |
illustrated |
Not Illustrated |
oclc_num |
1390558575 |
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Introduction -- 1.1 History -- 1.2 Purpose -- 1.3 The Stics Open Book -- 1.4 Human-machine interfaces -- 1.5 Tools for STICS users -- Chapter 2. Overall description of the modelled system -- 2.1 Conceptual Framework -- 2.2 STICS validity domain -- 2.3 Relationship and priority between processes -- 2.4 Model genericity -- 2.5 Parameterised crop species -- Chapter 3. Development -- 3.1 The importance of phenology on crop development -- 3.2 Simulated events -- 3.3 Main development processes -- 3.4 Emergence and initiation of crop development and growth -- Chapter 4. Shoot growth -- 4.1 Leaf dynamics -- 4.2 Radiation interception -- 4.3 Biomass production -- 4.4 Stress indices -- Chapter 5. Root growth -- 5.1 Introduction -- 5.2 Vertical root growth -- 5.3 Root length density production and root distribution -- 5.4 Turnover of root biomass and N content allocation -- 5.5 Calculation of root density for water and nitrogen absorption -- Chapter 6. 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