BioKenaF: A crop growth simulation model for kenaf September “27-30” 2006 Madrid, Spain “A Crop Growth Dynamic Simulation Model for Kenaf” University of Thessaly Department of Agriculture, Crop Production & Agricultural Environment Laboratory of Agronomy and Applied Crop Physiology (UTH) Greece
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
-
BioKenaF: A crop growth simulation model for kenaf
September “27-30” 2006
Madrid, Spain
“A Crop Growth Dynamic Simulation Model for Kenaf”
University of Thessaly
Department of Agriculture, Crop Production &
Agricultural Environment
Laboratory of Agronomy and Applied Crop Physiology
(UTH) Greece
-
Model structure
� Leaf Photosynthesis
� Canopy Photosynthesis
� Respiration
� Dry Matter distribution
� Water balance routine
-
Leaf Photosynthesis
The relation between available radiation and
CO2 gross assimilation by a single leaf is
described by an asymptotic exponential relation
FG = AMAX * ( 1 − EXP(− EFF*PAR/AMAX) )
FG: assimilation in kg(CO2)ha-1(leaf)h-1
PAR: photosynthetically active radiation(J m-2s-1)
EFF: is the light use efficiency in
kg ha-1h-1/J m-2s-1
AMAX: maximum rate of CO2 assimilation in
kg(CO2)ha-1(leaf)h-1.
-
Canopy Photosynthesis
EXTRA
TERRESTIAL
IRRADIANCE
GLOBAL
RADIATION
PAR
PARDIR
PARDIF
VIS
As. Rate of
sunlit
leaves
As. Rate of
shaded
leaves
Total
Assimilation
Rate
Integration
-
Respiration
Maintenance respiration (MRR): Energy consumed to meet maintenance requirements.
MRRorg=Rorg*Sorg
Growth respiration (EC): Respiration providing energy for the conversion of primary photosynthesis into structural plant materials like, proteins, cellulose, fats, lignin.
DWIorg=DailyGainorg*EC
Maintenance respiration (MRR): Energy consumed to meet maintenance requirements.
MRRorg=Rorg*Sorg
Growth respiration (EC): Respiration providing energy for the conversion of primary photosynthesis into structural plant materials like, proteins, cellulose, fats, lignin.
DWIorg=DailyGainorg*EC
-
Dry matter distribution (Daily basis)
Total
Assimilation
Rate
Carbohydrate
As. Rate
(FGASS)
Rate of
NET Potential
As.
Maintenance
Respiration
DWI LEAF - ECleaf
DWI STEM - ECStem
DWI SHEATH - ECSheath
DWI ROOTS - ECRoot
DWI S. ORGANS -ECSO-
* FRorg
DVSDVS
-
BioKenaF: Relation diagramLightTemp
Photosynthesis
Developmentrate
Developmentstage
Partitioningcoefficients
Assimilatepool
Maintenancerespiration
BIOMASS
STEMS
ST. ORGANS
PETIOLES
ROOTS
LEAVES
LAI
Gro
wth
CONV.EFF.
SLA
-
BioKenaF: Relation Diagram
-
Application
HARDWARE
• Processor: AMD ATHLON XP 2800+
• Motherboard: Gigabyte 7N400-Pro
• RAM: 1 GB 400 Mhz
• Hard disk: W.Digital 160 GB
• Graphics: GA 6600 GT 128 MB Ram
SOFTWARE
• Microsoft Visual Basic 6
• Microsoft Excel 2000
• Helexis Icon Catcher v3.0
• Microsoft Paint for windows XP
SIMULATION TIME
4 sec
13 sec including exportation to MS Excel
-
BioKenaF application
Interface
Input Form
-
BioKenaF application
Soil Type
Input Form
-
BioKenaF application
Irrigation
Data
Manager
-
BioKenaF application
Editor of Meteorological
Data Files
-
Results
total
stem
leaves
petioles
Palamas- Karditsa (Greece) Year 2003, 100% Irrigation
-
Results
Palamas- Karditsa (Greece) Year 2003, 50% Irrigation
0
5000
10000
15000
20000
25000
150 200 250 300 350
J. Day
Kg
r / h
a
total
stem
leaves
petioles
-
Results
Palamas- Karditsa (Greece) Year 2003, 25% Irrigation
0
5000
10000
15000
20000
25000
150 200 250 300 350
J. Day
Kg
r /
ha total
stem
leaves
petioles
-
Results
Italy Bolognia Year 2003, potential productivity
Sowing date 19/6/2003
0
5000
10000
15000
20000
25000
150 200 250 300 350
J. Day
Kg
r /
ha
Sowing date 19/5/2003
0
5000
10000
15000
20000
25000
150 200 250 300 350
J. Day
Kg
r /
ha
-
Results
Italy Bolognia Year 2004, potential productivity
2004 S1
0
5000
10000
15000
20000
25000
150 200 250 300 350 400
J. Day
Kg
r /
ha
2004 S2
0
5000
10000
15000
20000
25000
150 200 250 300 350 400
J. Day
Kg
r /
ha
-
Results
total
stem
leavespetioles
France- Nicae Year 2005, potential productivity
0,00
5000,00
10000,00
15000,00
20000,00
25000,00
150 200 250 300 350
J. Day
Kg
r /
ha
-
Results
Greece Year 2003
-
Results
Greece Year 2004
-
Results
Greece Year 2005
-
Results
Bolognia Year 2003
-
Results
Bolognia Year 2003
-
Results
France Year 2004
-
Results
Summary
-
Missing Data
XXXXXXXXXX2004
XXXXXXXXXX2003France
XXXXXXX?XX2005
XXXX?2004CETA
XXXXX?2003Greece
XXXXXX2005
XXXXXX2004
XXXXXX2003Spain
XX2005
XXProblem
2004
XXXX2003Catania
XXX2005
XXXXXXXXXXX2004
XXXXXXXXXXX2003Portugal
G. WaterSoil TypeIrrigationHarvestsDay of Emer.RHWindPrecipitationRadiationTMINTMAXYearLocation
Wheather
-
Thank you for your attention !
Related Documents
