University of Tokyo (UT) National Agriculture and Food Research Organization (NARO)

1. Decemver 26, 2007 @ITCAD in Khon Kaen, Thailand The Information Technologies for Sustainable Agricultural System in Khon Kaen- The Communication on Agricultural Information using Field Server - University of Tokyo (UT) National Agriculture and Food Research Organization (NARO) National Institute for Agro-Environmental Sciences (NIAES)

2. Application of agro-informatics to safe agricultural production management Societal Benefits Collaboration between University and Institutes Information based on knowledge from scientific data and models ↓ Low-cost, high-quality and safe agricultural production Ecosystem model Agricultural production supporting tool considering propagating information (1997-2000) Prediction of the best cultivation day Soil water prediction model future vegetation of cabbage Tools for data fusion of agricultural information Collaboration system of DB and model (2001-2005) Rice growth model Link to models Decision by agricultural information Tools for data collection Data Integration and Fusion System Most appropriate day Seeding, planting, fertilizing How much pesticide should we spread? input Global observation data for agricultural production Soil moisture control Meteorological data Climate prediction by model Future application Early-warning system for cold-weather damage Check system of right crop for right land system Vegetation data by satellite History of agricultural crop management Real-time observation data in agricultural field Solution of food and environmental issues in the world

3. Web-based suitable crops judgment system Masaru Mizoguchi, University of Tokyo, Japan amizo@mail.ecc.u-tokyo.ac.jp

4. Background • There are some fears that the rice production will be damaged by global warming. • If farmers know the potential crop production except rice, it is very helpful for agriculture and economy in Khon Kaen. • We are now developing a Web-based search tool for potential cropping by GSBUA .

5. GSBUA(Global Scale Bottom Up Approach) • A new concept that we propose to emphasize the importance of farmers' action for global warming fear. • Practice by farmers is more important than just a theory.

6. Web-based suitable crops judgment system • is developed based on the principle that the programs in existence for plant growth should be applicable to different weather data without any modifications. • can check a suitable field and crop • can search possibility of rice cropping in all areas over the world • can display the potential rice cropping for any breed on Google map

7. Principle: Horizontal integration of weather data Today • Real time prediction • Harvest plan • Protection plan • Fertilizer application plan • Labor plan • Shipping plan Growth period Short term prediction Observed Normal year • Normal year prediction • Optimal crop • Prediction of potential Normal year value • Future Prediction • Impact assessment • Cropping map under global warming Long term prediction

8. Example of GSBUASuitable search tool for field & crop • Select the location on Google Map • Get meteorological information nearest the location

9. Can predict growth rate in global warming

10. Select breed

11. Select the location

12. Estimate meteorological condition using observation data near the location

13. Display the predicted result 気温＋日長 登熟 DVI（DeVelopmental Index 発育指数） 移植日＝0，出穂期＝1 出穂

14. In cold region, ・・

15. Cannot grow because it is too cold 生育せず

16. Can Koshi-hikari grow in Thailand?

17. Grow faster than Japan Can potential cropping in all over the world using the same program （But now only on the condition of much water) We need to estimate soil moisture!

18. 農業政策を支援するツール　　 日本の稲作を海外で展開したい．中国やタイで展開するには？ 穀物価格の急騰 気候変動による収穫減 途上国の食料危機 食の安全・安心の確保 ↓ 日本の農業技術の出番 DIASのコアシステム 現地の状況を細かく知りたい。気温，降水量，日射量，土壌，GISデータなど． 様々な機関のデータ 温暖化になっても農作物は栽培できるのだろうか？ 農業政策決定者 現地農民はどうしたいのだろうか？ 過去の栽培履歴や災害履歴・歴史的背景などは？ 専門家からの報告 農業単独での取り組みでは不十分．どの分野と組み合わせればよいだろう？ ニュース・歴史的背景 etc…