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Crop Systems Dynamics: An ecophysiological simulation model for genotype-by-environment interactions PDF

169 Pages·2005·1.728 MB·English
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Crop Systems Dynamics An ecophysiological simulation model for genotype-by-environment interactions HHHuuummmiiidddiiitttyyy DDDaaayyyllleeennngggttthhh SSSooolllaaarrr rrraaadddiiiaaatttiiiooonnn WWWiiinnnddd ssspppeeeeeeddd TTTeeemmmpppeeerrraaatttuuurrreee CCCOOO222 PPPooottteeennntttiiiaaalll tttrrraaannnssspppiiirrraaatttiiiooonnn HHH222OOO PPPPhhhhoooottttoooossssyyyynnnntttthhhheeeessssiiiissss LLLAAAIII 11 HH++ PPSSIIII SSSeeennneee--- PPllaassttooqquuJJii22nnoonnee CCC aaassssssiiimmmiiilllaaattteeesss GGGGrrrroooowwwwtttthhhh RRRoooooottt///ssshhhoooooottt EEExxxpppaaannnsssiiiooonnn sssccceeennnccceee 11 HH++ CCyytt11oo-ccffhhQQrroommeeffQQbb66 ff 22 HH++ RRRReeeessssppppiiiirrrraaaattttiiiioooonnnn aaaccctttiiivvviiitttyyy PPllaassttooccyyaanniinn ffccyycc RRRooooootttsss LLLeeeaaafff NNN DDDDeeeevvvveeeelllloooopppp---- PPPaaarrrtttiii--- LLLeeeaaavvveeesss PPSSII mmmmeeeennnnttttrrrraaaatttteeee tttiiiooonnniiinnnggg JJ11 SSShhhooooootttsss SSSttteeemmmsss FFeerrrreeddooxxiinn DDDeeevvveeellloooppp--- RRRReeeemmmmoooobbbbiiiilllliiiizzzzaaaattttiiiioooonnnn 11-ffccyycc-ffppsseeuuddoo ffppsseeuuddoo mmmeeennntttssstttaaagggeee NNN aaassssssiiimmmiiilllaaattteeesss NNN SSSeeeeeedddsss uuussseee PPPaaarrrtttiii--- 1/2 NADPH NNNAAADDDPPP+++ ee..gg.. OO22 tttrrraaannnAAAssscccppptttuuuiiirrraaaaaallltttiiiooonnn NNN uuuppptttaaakkkeee NNN dddeeemmmaaannnddd tttiiiooonnniiinnnggg SSSiiinnnkkk ssstttrrreeennngggttthhh NNN fffiiixxxaaatttiiiooonnn SSooiill wwaatteerr SSooiill NN Xinyou Yin H.H. van Laar Crop Systems Dynamics Crop Systems Dynamics An ecophysiological simulation model for genotype-by-environment interactions Xinyou Yin H.H. van Laar WWaaggeenniinnggeenn AAccaaddeemmiicc PPPP uuuu bbbbb llll iiii ssssss hhhh eeeeee rrrr ssssss This work is subject to copyright. All rights are reserved, whether the whole or part of the material is concerned. Nothing from this publication may be translated, reproduced, stored in a computerised Subject headings: system or published in any form or in any Crop physiology manner, including electronic, mechanical, Genotype-by-Environment interactions reprographic or photographic, without prior Modelling written permission from the publisher, Wageningen Academic Publishers, P.O. Box 220, 6700 AE Wageningen, the Netherlands, ISBN: 978-90-76998-55-8 www.WageningenAcademic.com e-ISBN: 978-90-8686-539-0 DOI: 10.3920/978-90-8686-539-0 The individual contributions in this publication and any liabilities arising from them remain the responsibility of the First published, 2005 authors. The publisher is not responsible for possible © Wageningen Academic Publishers damages, wich could be a result of content The Netherlands, 2005 derived from this publication. Contents Preface 1 Introduction 1 Brief summary of existing models 1 The need for improved crop growth simulation models 3 Towards improved model algorithms and structure 4 Towards improved model input parameters 5 The crop growth simulation model – GECROS 6 Reader’s guide 8 2 Photosynthesis and transpiration 9 Potential leaf photosynthesis 9 Potential leaf transpiration and its coupling with potential photosynthesis 11 Actual leaf transpiration and photosynthesis if water stress occurs 14 Spatial integration 14 Temporal integration 18 3 Respiration 20 Growth respiration 20 Respiration for symbiotic di-nitrogen (N ) fixation 21 2 Respiration for ammonium-nitrogen uptake 21 Respiration for nitrate uptake and reduction 21 Respiration for uptake of other ions 22 Respiration for phloem loading 22 Other, less quantifiable respiration components 22 4 Nitrogen assimilation 24 Nitrogen demand 24 Nitrogen fixation 27 Nitrogen uptake 27 5 Assimilate partitioning and reserve dynamics 28 Partitioning between root and shoot 28 Within-shoot carbon partitioning 29 Carbon reserves and their remobilization 31 Within-shoot nitrogen partitioning 32 6 Crop morphology, senescence, and crop phenology 34 Leaf area index 34 Leaf senescence 35 Root senescence 38 Plant height 39 Root depth 39 Phenological development 40 7 Input requirements and model implementation in FST 43 Initialization and biophysical inputs 43 Model constants 43 Crop-specific parameters 44 Intra-crop genotypic-specific parameters 46 Crop carbon and nitrogen balance check 48 Model evaluation 49 Model application 50 Model implementation in FST 51 Making your first run of GECROS 54 References 55 Appendices 65 Appendix A Summary of equations related to the leaf photosynthesis model 67 Appendix B Calculations of input variables of Eqn (2): r, r , r , and R 71 t bh bw n Appendix C Derivation of Eqn (9) 72 Appendix D Solar elevation, daylength, and direct and diffuse solar radiation 73 Appendix E Canopy extinction and reflection coefficients 75 Appendix F Derivations of Eqns (15a-c) 77 Appendix G Derivation of Eqns (16a-c) 78 Appendix H Time course of solar radiation and air temperature 79 Appendix I Derivation of Eqn (22) 80 Appendix J Derivation of Eqn (45) 82 Appendix K Derivation of Eqn (46) 83 Appendix L List of symbols (with units) used in the text 84 Appendix M The example soil simulation model 91 Appendix N Listing of the FST program for the model 98 Appendix O List of variables used in the model program 127 The CROP part (the GECROS model) 127 The part for the example soil model 141 Appendix P A sample weather data file 145 Appendix Q Simulation outputs using the sample weather data 147 Index 151

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