logging in or signing up Yamagata VolteMort Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 85 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: October 09, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript The C budget of Japan: Ecosystem Model (TsuBiMo): The C budget of Japan: Ecosystem Model (TsuBiMo) Y. YAMAGATA and G. ALEXANDROV Climate Change Research Project, National Institute for Environmental Studies, JAPAN Regional Carbon Budgets: from Methodologies to Quantification Beijing, China, 15-18 November 2004Outline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Outline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Structure of our forest ecosystem carbon balance model (TsuBiMo): Structure of our forest ecosystem carbon balance model (TsuBiMo)TsuBiMo: Litter-fall compartment: TsuBiMo: Litter-fall compartmentRegional Carbon Budget Assessment using TsuBiMo: Regional Carbon Budget Assessment using TsuBiMo CO2 fluxes (JapanFlux) Yield tables (MAFF) GPP (Pg) NPP (Pn) NEP (PE) NBP Changes in total carbon stock of the managed forests in Japan Carbon stock changes in the pool of non- living organic matter Satellite images (JAXA) Carbon stock changes in the pool of living organic matter Accumulation in biomass Age distribution (MAFF)Input data: grids of 1km resolution: Input data: grids of 1km resolution Monthly temperature Monthly precipitation Monthly solar radiation Forest age structure Managed forest 15 age classes of 5-years Natural forests 4 age classes of 20-yearsOutline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Slide9: 2003/10/17 2003/11/6 Pictures From Dr. Nishida Takayama Flux CiteScheme of using CO2 flux data for calibrating productivity model: Scheme of using CO2 flux data for calibrating productivity model TsuBiMo function for GPP : Observation Pmax light-saturated photosynthesis K light attenuation coefficient ß light-use efficiency fPAR fraction of absorbed PARCalibrated Productivity Model (Takayama Flux Data 1999-2001): Calibrated Productivity Model (Takayama Flux Data 1999-2001)CO2 fluxes v.s. Productivity Model: CO2 fluxes v.s. Productivity Model BLUE – observed fluxes YELLOW- 28-days moving average RED – model estimates The model could successfully replicate the forest ecosystem CO2 flux responses to climate variationsAgreement with World Biometric Data of Calibrated Productivity Model: Agreement with World Biometric Data of Calibrated Productivity Model Blue – Local Calibration Red – Global CalibrationOutline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Yield Table data for Growth Function: Yield Table data for Growth Function Age dependence of wood stock in m3/ha (yield tables) The estimates of conversion coefficient specified by age TsuBiMo function for biomass growth : Yield table data The model parameters depends on species and site fertility, however the data from ecological studies are not sufficient. -> We use yield table data for filling the gap.Yield Tables v.s. Model Estimates: Yield Tables v.s. Model Estimates Sugi, North Kinki (Fukuda et al., 2004) Line shows the values produced by the function above for b2=0.854772; Pnb1=4.61481 assumed Dots show the values derived from the yield table above by using the assumed conversion coefficient warm-temperate cool-temperate subtropicalOutline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Carbon Stock in Japanese Forest: Carbon Stock in Japanese Forest Carbon Stock is estimated using TsuBiMoNPP of Japanese Forests : NPP of Japanese Forests NPP is estimated using TsuBiMo from vegetation period, light intensity, temperature and precipitationForest Age and Carbon Stock in Japan: Forest Age and Carbon Stock in Japan Area of the k-th age class (sk ) Forest age data Carbon stock estimate Carbon stock changes with ageNEP estimates in Japanese forest : NEP estimates in Japanese forest Alexandrov, G.A., Yamagata, Y., 2002. Net Biome Production of managed forests in Japan. Science in China, 45 (Supp): 109-115 Scenario: harvest age lifted up to 70 yearsOutline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Model v.s. Carbon Stock Data: Model v.s. Carbon Stock Data Black: total carbon stock after breakup Grey: carbon stock changes in the tree biomass Lines: Model estimates (Kawaguchi and Yoda,1986) Beech forest in JapanSlide24: Comparison of NEP estimate (tentative) Ecological model Forestry inventory (tC/ha・yr) 17.9 MtC/yr 21.0 MtC/yr Artificial forest onlyOutline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Accuracy assessment of R/S data use: Accuracy assessment of R/S data use Yellow – MODIS Blue – Ground Productivity can be estimated by using FPAR as input to ModelConclusion and future direction: Conclusion and future direction We have try to estimate the national level carbon budget using a process based ecosystem model (TsuBiMo) Calibration with flux and inventory data showed that the global model underestimate the productivity at managed forest test sites comparisons of national level estimate with inventory approach showed regional discrepancies but rather good total coincidence Model-data integration using different data sources including R/S need to be developed You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Yamagata VolteMort Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 85 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: October 09, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript The C budget of Japan: Ecosystem Model (TsuBiMo): The C budget of Japan: Ecosystem Model (TsuBiMo) Y. YAMAGATA and G. ALEXANDROV Climate Change Research Project, National Institute for Environmental Studies, JAPAN Regional Carbon Budgets: from Methodologies to Quantification Beijing, China, 15-18 November 2004Outline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Outline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Structure of our forest ecosystem carbon balance model (TsuBiMo): Structure of our forest ecosystem carbon balance model (TsuBiMo)TsuBiMo: Litter-fall compartment: TsuBiMo: Litter-fall compartmentRegional Carbon Budget Assessment using TsuBiMo: Regional Carbon Budget Assessment using TsuBiMo CO2 fluxes (JapanFlux) Yield tables (MAFF) GPP (Pg) NPP (Pn) NEP (PE) NBP Changes in total carbon stock of the managed forests in Japan Carbon stock changes in the pool of non- living organic matter Satellite images (JAXA) Carbon stock changes in the pool of living organic matter Accumulation in biomass Age distribution (MAFF)Input data: grids of 1km resolution: Input data: grids of 1km resolution Monthly temperature Monthly precipitation Monthly solar radiation Forest age structure Managed forest 15 age classes of 5-years Natural forests 4 age classes of 20-yearsOutline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Slide9: 2003/10/17 2003/11/6 Pictures From Dr. Nishida Takayama Flux CiteScheme of using CO2 flux data for calibrating productivity model: Scheme of using CO2 flux data for calibrating productivity model TsuBiMo function for GPP : Observation Pmax light-saturated photosynthesis K light attenuation coefficient ß light-use efficiency fPAR fraction of absorbed PARCalibrated Productivity Model (Takayama Flux Data 1999-2001): Calibrated Productivity Model (Takayama Flux Data 1999-2001)CO2 fluxes v.s. Productivity Model: CO2 fluxes v.s. Productivity Model BLUE – observed fluxes YELLOW- 28-days moving average RED – model estimates The model could successfully replicate the forest ecosystem CO2 flux responses to climate variationsAgreement with World Biometric Data of Calibrated Productivity Model: Agreement with World Biometric Data of Calibrated Productivity Model Blue – Local Calibration Red – Global CalibrationOutline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Yield Table data for Growth Function: Yield Table data for Growth Function Age dependence of wood stock in m3/ha (yield tables) The estimates of conversion coefficient specified by age TsuBiMo function for biomass growth : Yield table data The model parameters depends on species and site fertility, however the data from ecological studies are not sufficient. -> We use yield table data for filling the gap.Yield Tables v.s. Model Estimates: Yield Tables v.s. Model Estimates Sugi, North Kinki (Fukuda et al., 2004) Line shows the values produced by the function above for b2=0.854772; Pnb1=4.61481 assumed Dots show the values derived from the yield table above by using the assumed conversion coefficient warm-temperate cool-temperate subtropicalOutline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Carbon Stock in Japanese Forest: Carbon Stock in Japanese Forest Carbon Stock is estimated using TsuBiMoNPP of Japanese Forests : NPP of Japanese Forests NPP is estimated using TsuBiMo from vegetation period, light intensity, temperature and precipitationForest Age and Carbon Stock in Japan: Forest Age and Carbon Stock in Japan Area of the k-th age class (sk ) Forest age data Carbon stock estimate Carbon stock changes with ageNEP estimates in Japanese forest : NEP estimates in Japanese forest Alexandrov, G.A., Yamagata, Y., 2002. Net Biome Production of managed forests in Japan. Science in China, 45 (Supp): 109-115 Scenario: harvest age lifted up to 70 yearsOutline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Model v.s. Carbon Stock Data: Model v.s. Carbon Stock Data Black: total carbon stock after breakup Grey: carbon stock changes in the tree biomass Lines: Model estimates (Kawaguchi and Yoda,1986) Beech forest in JapanSlide24: Comparison of NEP estimate (tentative) Ecological model Forestry inventory (tC/ha・yr) 17.9 MtC/yr 21.0 MtC/yr Artificial forest onlyOutline: Outline Structure of model Calibration of model using flux data Calibration using inventory data Estimation of carbon stock, NPP and NEP Comparison with ecological measurement and inventory based estimate Accuracy assessment of R/S (FPAR) data use Conclusion and future direction Accuracy assessment of R/S data use: Accuracy assessment of R/S data use Yellow – MODIS Blue – Ground Productivity can be estimated by using FPAR as input to ModelConclusion and future direction: Conclusion and future direction We have try to estimate the national level carbon budget using a process based ecosystem model (TsuBiMo) Calibration with flux and inventory data showed that the global model underestimate the productivity at managed forest test sites comparisons of national level estimate with inventory approach showed regional discrepancies but rather good total coincidence Model-data integration using different data sources including R/S need to be developed