JRV – Adapting cropping systems climate variability APEC Piura 2016

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Using crop-climate models for adapting cropping systems to climate variability Julian Ramirez-Villegas, et al. Scientist, International Center for Tropical Agriculture, CIAT, Cali, Colombia Research Fellow, University of Leeds, UK

Transcript of JRV – Adapting cropping systems climate variability APEC Piura 2016

Page 1: JRV – Adapting cropping systems climate variability APEC Piura 2016

Using crop-climate models for adapting cropping systems to climate variabilityJulian Ramirez-Villegas, et al.Scientist, International Center for Tropical Agriculture, CIAT, Cali, ColombiaResearch Fellow, University of Leeds, UK

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Adaptation across timescales

Ramirez-Villegas and Khoury (2013) Climatic Change

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Agriculture depends on climate

Climate drives ~32-39% yield variation: our systems are sensitive to climate, not resilient to it

Ray et al. 2015

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Source: Agronet & CRU (http://badc.nerc.ac.uk/data/cru/)

At a more local scale…

T-Max

T-Max

YieldYield

Rice crop

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For maize…

Tiempo térmico=2627°CicloT. Max=31°CT. Min=19.3°CEvapotranspiración=712Precipitación total=532mm + riego

Tiempo térmico=2596°CicloT. Max=32°CT. Min=19.3°CEvapotranspiración=714Precipitación total=635mm + riego

DK7088

P30F32

P30K73

FNC3056

FNC3059

FNC514

02468

10

Genotipo

Ren

dim

ient

o To

n/H

a

DK7088

P30F32

P30K73

FNC3056

FNC3059

FNC514

02468

10

Genotipo

Ren

dim

ient

o To

n/H

a

Maize – Buga(Valle del Cauca)

Location

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CIAT/CCAFS-MADR Agreement

1.Close yield gaps through appropriate management of the climate

2.Avoid crop losses due to climate variability3.Produce food sustainably, synergistically with the

environment

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How to achieve these objectives?

Local Agroclimatic CommitteesImproved

crop varieties & better agronomy

Agroclimatic forecasts

Policies& NAMAs

Adaptation Plan for the Agricultural Sector

Farmers

Government Private sector

Producers’associations

Socioeconomic Scenarios

Climate-Site-Specific Management (CSMS)

GHG measurements methods for smallholders

Scaling up activities

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Component Department Municipality

RICE

Tolima Saldaña, Ibagué y EspinalHuila Palermo, AipeNorte Santander CucutaCésar ValleduparCordoba Montería, ceretéCasanare Yopal, Aguazul

Meta Villavicencio, Santa Rosa

Antioquia NechíSucre Majagual, San MarcosValle PalmiraGuajira Fonseca

BEANS

Santander VillanuevaAntioquia San VicenteNariño PastoCauca PopayánHuila El Pital

MAIZE

Córdoba Ciénaga de OroTolima EspinalValle del Cauca BugaQuindío BuenavistaSantander Sabana de TorresMeta Fuente de oro

BANANA

Magdalena Santa Marta, Rio Frio y Zona Bananera

Guajira Riohacha y Dibulla

LIVESTOCK

Boyacá San Miguel de Sema, Caldas y Chiquinquirá

Cundinamarca Simijaca

AtlánticoTubará, Piojó, Baranoa,

Manatí y Suán

Casanare Aguazul, Monterey, Pore, El Picón y Maní

Activities map CIAT/CCAFS-MADR Agreement Phase II

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Climate-smart management to close yield gaps

• Mining Big Data from rice farms provides a bottom-up approach to improve rice crop management, and increase yields

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Big data often means noise… so we deal with the noise

Delerce et al. (2016) PLoS ONE

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We cannot generalise a site-specific response, but a site-by-variety response

Saldaña (irrigated)

Villavicencio (rainfed)

Delerce et al. (2016) PLoS ONE

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GxE response –but at farm level

• We now understand what climate variability can cause to rice across the country

• And what aspects of climate are important

• For a given condition we develop management recommendations…

Delerce et al. (2016) PLoS ONE

Saldaña – F73330 % variance

Saldaña – F6047 % variance

Villavicencio– F17428 % variance

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For example… we look into which varieties perform best in particular climatic conditions

Delerce et al. (2016) PLoS ONE

Highest yielding environment Moderately high yielding environment

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Córdoba: 56% (irrigated)Temperature in grain filling phase

Meta: 29% (rainfed)Rainfall distribution during vegetative phase

Casanare: 32% (irrigated)Radiation during reproductive phase

Tolima: 41% (irrigated)Radiation during grain filling

Huila: 28% (irrigated)Temperature during flowering

And… results cover a large portion of the country

Meta: 61% (irrigated)Temperature during reproductive phase

Currently implemented with 5,000+ farmers, 50,000 observations (not only for rice), and for 6 countries in LAC (CO, PE, NI, AR, UR and MX)

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Years

Yiel

d (t

/ha)

201519XX

Imported technology

Regionally adapted agronomy

Big Data Methods + Data-driven Agronomy

Broadly adapted technology

Towards a data-driven agronomy

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Agroclimatic Forecasting

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Generating agroclimatic seasonal forecast for rice productive regions in Colombia

How do we do it? Establish agro-climatic forecasts using seasonal climate prediction models and crop models (mechanistic models) to inform when and what to plant?

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1. Understand seasonal climate predictability across Colombia

• Understanding predictability limits helps to know how much information we can really provide

• First predictability study across regions, with focus on agriculture

• Four departments that grow rice and maize

• Used statistical forecast models with SST as predictor

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Key findings• Inter-Andean valleys (Valle and Tolima) show the greatest

predictability on average• Average hides seasonal variability, with lowest predictability around

the rainy season for these departments• Clearest teleconnections typically in the Pacific basin, but

sometimes also in the Atlantic.• Statistical model skill was not affected significantly by model

configuration (i.e. selected predictor region) or lead time

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2. Calibrate and test crop model (ORYZA2000)

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What do farmers need to know?

Agroclimatic forecast: Cordoba and Tolima case studies

Identify the most appropriate planting date (with best

environmental supply) for rice crop in the period May - Dec

2014.

Actions to implement

Implement seasonal weather forecasts + mechanistic crop

models 115 135 155 175 195 215 235 2550

5000

10000

15000

Day in year

Biom

ass (

kg/h

a)

Projected crop performance to future climate conditions

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Monteria (May – Dec)

Pronóstico de precipitaciónMayo – Diciembre de 2014

Pre

cipi

taci

ón (m

m)

Decreased monthly rainfall

Increased monthly temperatures and solar radiation

Fecha de siembra

5 May 25 May 19 Jun 14 Jul 08 Aug

Ren

dim

ient

o (k

g/ha

)

3500

4000

4500

Select the best planting date, as a preventive measure.

If farmers make the decision to plant by June 20, the yield obtained can be around

4500 kg/ha.

If the crop sowings are delayed, yields will decrease.

With this measure:

Great economic losses to 170 rice farmers were avoided.

1,800 hectares of rice were saved from being destroyed by the intense drought.

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Turning research into a service for farmers…. National Agroclimatic Bulletin

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Climate forecasts

Crop modelling

Local knowledge

Recomendaciones para los agricultores de medidas adaptativas a partir de la combinación del conocimiento local y científico

Local Technical Agroclimatic Committees

¿Cómo se afectarían los cultivos?

¿Qué variedades sembrar?

¿Qué habría que hacer?

¿Cuándo sembrar?

Local Agroclimatic Bulletins

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Automated web interface to generate and communicate forecasts at local scales

• Funded by USAID, under the Climate Services for Resilient Development (CSRD) programme.

• Farmer focus groups to understand information and format requirements.

• Intense web development and automation of crop-climate model runs

• Beta version in Dec (!), and official release in April 2017

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[email protected]

Thank you