PERUN: THE SYSTEM FOR SEASONAL CROP YIELD FORECASTING BASED ON THE CROP MODEL AND WEATHER GENERATOR Martin Dubrovský (1), Zdeněk Žalud (2), Mirek Trnka.

Slides:

Advertisements

Similar presentations

D. W. Shin, S. Cocke, Y.-K. Lim, T. E. LaRow, G. A. Baigorria, and J. J. OBrien Center for Ocean-Atmospheric Prediction Studies Florida State University,

Advertisements

Dr. Adriana-Cornelia Marica & Alexandru Daniel

PERUN - The System for the Crop Yield Forecasting and Assessing Impacts of Climate Change Martin Dubrovský (1) Zdeněk Žalud (2), Mirek Trnka (2), Jan Haberle.

AgroCLIM software tool for effective calculation of agrometeorological indices ADAGIO & COST 734 Miroslav Trnka, Petr Hlavinka, Jan Balek, Josef Eitzinger,

Agricultural modelling and assessments in a changing climate

PERUN - software demonstration - Martin Dubrovsky Mirek Trnka

Feasibility of data assimilation using documented weather record for reconstruction of historical climate Kei Yoshimura and Kinya Toride AORI, Univ Tokyo.

Maximum Covariance Analysis Canonical Correlation Analysis.

Crop yield predictions using seasonal climate forecasts SIMONE SIEVERT DA COSTA DSA/CPTEC/INPE Second EUROBRISA Workshop July.

Progress in Downscaling Climate Change Scenarios in Idaho Brandon C. Moore.

Crop Yield Modeling through Spatial Simulation Model.

Experimental Real-time Seasonal Hydrologic Forecasting Andrew Wood Dennis Lettenmaier University of Washington Arun Kumar NCEP/EMC/CMB presented: JISAO.

Application to the rice production in Southeast Asia Rice Production Research Program Agro-meteorology Division National Institute for Agro-Environmental.

1 Simple Linear Regression Chapter Introduction In this chapter we examine the relationship among interval variables via a mathematical equation.

Seasonal Volume Forecasts Using Ensemble Streamflow Prediction for the 2008 Water Year Steve King, Hydrologist Northwest River Forecast Center.

Alan F. Hamlet Dennis P. Lettenmaier JISAO Center for Science in the Earth System Climate Impacts Group and Department of Civil and Environmental Engineering.

INTRODUCTION Weather and climate remain among the most important variables involved in crop production in the U.S. Great Lakes region states of Michigan,

CGMS/WOFOST model principles

Application of Met&Roll Weather Generator in Climate Change Impact Studies in Czechia Martin Dubrovsky (Institute of Atmospheric Physics ASCR, Prague,

April 28-29, 2015 at Hotel Serena, Islamabad

Chapter 13 – Weather Analysis and Forecasting. The National Weather Service The National Weather Service (NWS) is responsible for forecasts several times.

Application of seasonal climate forecasts to predict regional scale crop yields in South Africa Trevor Lumsden and Roland Schulze School of Bioresources.

LESOTHO Lesotho: Enabling Activities for the Implementation of the United Nations Frame-work Convention on Climate Change S.P. Raboqha.

Wind Energy Forecaster A Web-based Wind Energy Prediction Tool Aditya Trivedi ’16 Advisor: Dr. Eric Larson.

Impact of Climate Change on Flow in the Upper Mississippi River Basin

NCPP – needs, process components, structure of scientific climate impacts study approach, etc.

Vulnerability and Adaptation Assessments Hands-On Training Workshop Impact, Vulnerability and Adaptation Assessment for the Agriculture Sector – Part 2.

Expected Change of the Key Agrometeorological Parameters in Central Europe by 2050 Trnka M. 1,3, Štěpánek P. 2, Dubrovský M. 3, Semerádová D. 1,3, Eitzinger.

PALMS: Precision Agricultural-Landscape Modeling System Precision modeling to provide decision support for farmers PALMS is software designed to provide.

Advances in weather, climate and water forecasting technologies Alasdair Hainsworth Bureau of Meteorology March 2011.

OUCE Oxford University Centre for the Environment “Applying probabilistic climate change information to strategic resource assessment and planning” Funded.

Downscaling in time. Aim is to make a probabilistic description of weather for next season –How often is it likely to rain, when is the rainy season likely.

Much variation but little change Rafael Rosa and Gerald Stanhill Institute of Soil, Water and Environmental research, Agricultural Research Organization,

Projection of uncertainties of the climate change scenarios into the estimates of future agrometeorological conditions and crop yields? M. Trnka (1,2),

1 … Institute for the Protection and Security of the Citizen The grid reference system used for CGMS (MARS-STAT Action) G.Genovese 1st European Workshop.

Zhang Mingwei 1, Deng Hui 2,3, Ren Jianqiang 2,3, Fan Jinlong 1, Li Guicai 1, Chen Zhongxin 2,3 1. National satellite Meteorological Center, Beijing, China.

Agriculture/Forest Fire Management Presentations Summary Determine climate and weather extremes that are crucial in resource management and policy making.

Climate change and the response of phenology of Great Tit, Collared Flycatcher, Summer Oak and herbivorous caterpillars during 1961 – 2007 in the Czech.

Characteristics of Extreme Events in Korea: Observations and Projections Won-Tae Kwon Hee-Jeong Baek, Hyo-Shin Lee and Yu-Kyung Hyun National Institute.

DECISSION SUPPORT SYSTEM PERUN lecture Miroslav Trnka Contributions from: Martin Dubrovský, Joseph Eitzinger, Jan Haberle, Zdeněk Žalud AGRIDEMA – Vienna.

P. Ñurmi / WWRP QPF Verification - Prague 1 Operational QPF Verification of End Products and NWP Pertti Nurmi Finnish Meteorological Institute.

Evaluation of climate change impact on soil and snow processes in small watersheds of European part of Russia using various scenarios of climate Lebedeva.

Quantifying the uncertainty in spatially- explicit land-use model predictions arising from the use of substituted climate data Mike Rivington, Keith Matthews.

Young-Kwon Lim, D.W. Shin, S. Cocke, T. E. LaRow, J. J. O’Brien, and E. P. Chassignet Center for Ocean-Atmospheric Prediction Studies, Florida State University,

INSTYTUT METEOROLOGII I GOSPODARKI WODNEJ INSTITUTE OF METEOROLOGY AND WATER MANAGEMENT TITLE : IMPLEMENTATION OF MOSAIC APPROACH IN COSMO AT IMWM AUTHORS:

Correction of daily values for inhomogeneities P. Štěpánek Czech Hydrometeorological Institute, Regional Office Brno, Czech Republic

Quality control of daily data on example of Central European series of air temperature, relative humidity and precipitation P. Štěpánek (1), P. Zahradníček.

Understanding hydrologic changes: application of the VIC model Vimal Mishra Assistant Professor Indian Institute of Technology (IIT), Gandhinagar

WFM 6311: Climate Risk Management © Dr. Akm Saiful Islam WFM 6311: Climate Change Risk Management Akm Saiful Islam Lecture-7:Extereme Climate Indicators.

July 5-9, 2009, Univ. of Bologna, Italy HARP - A Software Tool for Fast Assessment of Radiation Accident Consequences and their Variability Petr Pecha.

The length of apricot phenophases is most significantly influenced by average and maximum temperature. Further statistical analyses show that minimum temperature.

APPLICATION OF THE WEATHER GENERATOR IN PROBABILISTIC CROP YIELD FORECASTING Martin Dubrovský (1), Zdeněk Žalud (2), Mirek Trnka (2), Jan Haberle (3) Petr.

The Centre for Australian Weather and Climate Research A partnership between CSIRO and the Bureau of Meteorology Verification and Metrics (CAWCR)

Research & Systematic Observations (IX) Vulnerability Assessment, Impacts and Adaptation Measures (VII) Research & Systematic Observations (IX) Vulnerability.

Process Asad Ur Rehman Chief Technology Officer Feditec Enterprise.

ESTIMATING THE CROP YIELD POTENTIAL OF THE CZECH REPUBLIC IN PRESENT AND CHANGED CLIMATES Martin Dubrovsky (1) Mirek Trnka (2), Zdenek Zalud (2), Daniela.

MIIDAPS Application to GSI for QC and Dynamic Emissivity in Passive Microwave Data Assimilation.

Copernicus Observations Requirements Workshop, Reading Requirements from agriculture applications Nadine Gobron On behalf Andrea Toreti & MARS colleagues.

Economics 173 Business Statistics Lecture 25 © Fall 2001, Professor J. Petry

DOWNSCALING GLOBAL MEDIUM RANGE METEOROLOGICAL PREDICTIONS FOR FLOOD PREDICTION Nathalie Voisin, Andy W. Wood, Dennis P. Lettenmaier University of Washington,

VERIFICATION OF A DOWNSCALING SEQUENCE APPLIED TO MEDIUM RANGE METEOROLOGICAL PREDICTIONS FOR GLOBAL FLOOD PREDICTION Nathalie Voisin, Andy W. Wood and.

Corn Yield Comparison Between EPIC-View Simulated Yield And Observed Yield Monitor Data by Chad M. Boshart Oklahoma State University.

Long-lead streamflow forecasts: 2. An approach based on ensemble climate forecasts Andrew W. Wood, Dennis P. Lettenmaier, Alan.F. Hamlet University of.

The evaluation of phenological phases of plants in a flood-plain forest of southern Moravia in 1961 – 2007 Lenka Bartošová (1), Zdeněk Bauer (1), Miroslav.

UERRA User WS Per Undén, Laurent Dubus,,,,, participants.

Actions & Activities Report PP8 – Potsdam Institute for Climate Impact Research, Germany 2.1Compilation of Meteorological Observations, 2.2Analysis of.

1 CL2.16 Urban climate, urban heat island and urban biometeorology H How to obtain atmospheric forcing fields for Surface Energy Balance models in climatic.

Hydrologic response of Pacific Northwest Rivers to climate change

Introduction to Meteorology

An Analysis of Possibilities of Forecasting the AVISO Agrometeorological Model Input Münster P. Chuchma F.

Presentation transcript:

PERUN: THE SYSTEM FOR SEASONAL CROP YIELD FORECASTING BASED ON THE CROP MODEL AND WEATHER GENERATOR Martin Dubrovský (1), Zdeněk Žalud (2), Mirek Trnka (2), Jan Haberle (3) Petr Pešice (1) ( 1) Institute of Atmospheric Physics, Prague, Czech Republic (2) Mendel University of Agriculture and Forestry, Brno, Czech Republic (3) Research Institute of Crop Production, Prague, Czech Republic project QC1316 of NAZV (National Agency for Agricultural Research, Czech Republic)

PERUN = system for crop model simulations under various meteorological conditions NAZV project: tasks solved by PERUN:  crop yield forecasting  climate change/sensitivity impact analysis

PERUN - components: 1) WOFOST crop model (v ; provided by Alterra Wageningen) new: Makkink formula for evapotranspiration was implemented (motivation: Makkink does not need WIND and HUMIDITY data) 2) Met&Roll weather generator (Dubrovský, 1997) some modifications had to be made (will be discussed later) 3) user interface - input for WOFOST ( crop, soil and water, weather & climate, start/end of simulation, production levels, fertilisers,...) - launching the process (weather generation, crop model simulation) - statistical and graphical processing of the simulation output

seasonal crop yield forecasting 1. construction of weather series

seasonal crop yield forecasting 2. running the crop model

Modifications of previous version of the 4-variate Met&Roll generator (1) 4-variate  6-variate: To generate all six daily weather characteristics required by WOFOST (PREC, SRAD, TMAX, TMIN, VAP, WIND), the separate module adds values of VAP and WIND to the previously generated four weather characteristics (SRAD, TMAX, TMIN, PREC) using the nearest neighbours resampling from the observed data. (2) The generator may produce series which consistently follow with the observed data at any day of the year. (3) The second additional module allows to modify the synthetic weather series so that it fits the weather forecast

A) 4-variate  6-variate: 4-variate SRAD TMAX TMIN RAIN learning SRAD TMAX TMIN RAIN VAPO WIND... xx xx xx xx xx xx xx xx xx xx xx xx xx xx xx variate SRAD TMAX TMIN RAIN VAPO WIND

B) series which consistently follow with the observed data (1) generator working in normal-mode (1 st -order generator assumed): X(0) ~ PDF(X) X(t) = f [X(t-1), e][e = vector of random numbers] (2) series which follows with the observed data at day D 0 : (observed weather data are available till D 0 -1) X(D 0 ) = f [X OBS (D 0 -1), e] X(t) = f [X(t-1), e]for t > D 0

B) series which consistently follow with the observed data

C) modification of the synthetic weather series so that it fits the weather forecast:

weather forecast is given in terms of - expected values valid for the forthcoming days (e.g., first week: 12±2 °C, second week: 7±3 °C, …) alternative formats of the weather forecasts: (useful in climate change/sensitivity analysis) - increments with respect to long-term means (first week:temperature = + 2 C above normal; precipitation = 80% of normal; second week: ….., …. - increments to existing series

a) weather forecast is given in terms of the absolute values * weather forecast random component METHOD = 1...averages.....std. JD-to TMAX TMIN PREC TMAX TMIN PREC

c) increments with respect to the long- term means * weather forecast random component METHOD = 3...averages.....std. JD-to TMAX TMIN PREC TMAX TMIN PREC

time for software demostration (egs03~wh.exp !!!)

crop yield forecasting at various days of the year probabilistic forecast is based on 30 simulations input weather data for each simulation = [obs. weather till D−1] + [synt. weather since D; without forecast!] (better to say: forecast = mean climatology) a) the case of good fit between model and observation site =Domanínek, Czech Rep. crop=spring barley year=1999 emergency day=122 maturity day=225 observed yield=4739kg/ha model yield=4580kg/ha (simulated with obs. weather series) enlarge >>>

crop yield forecasting at various days of the year a) the case of good fit between model and observation

Crop yield forecasting at various days of the year b) the case of poor fit between model and observation site = Domanínek, Czech Republic crop= spring barley year=1996 emergency day=124 maturity day=232 observed yield=3956kg/ha model yield=5739kg/ha (simulated with obs. weather series) enlarge >>>

crop yield forecasting at various days of the year b) the case of poor fit between model and observation

crop yield forecasting at various days of the year b) the case of poor fit between model and observation task for future research: find indicators of the crop growth/development (measurable during the growing period) which could be used to correct the simulated characteristics, thereby allowing more precise crop yield forecast indicators

E N D Thank you for your attention!