Tailoring wheat management to ENSO phases for increased wheat production in Paraguay

Tailoring wheat management to ENSO phases for increased wheat production in Paraguay

Reported regional wheat yields in Paraguay vary from 1 to 3 t/ha from year to year, but appear not to be correlated with El Niño-Southern Oscillation (ENSO) phases. Historical weather data from two locations in representative wheat-growing regions of Paraguay, Encarnación-Itapúa and Ciudad del Este-...

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Main Authors: Melissa A. Ramirez-Rodrigues, Senthold Asseng, Clyde Fraisse, Lydia Stefanova, Alicia Eisenkolbi
Format: Article
Language:English
Published: Elsevier 2014-01-01
Series:Climate Risk Management
Subjects:
Climate variability
ENSO-persistence-based forecast
GCM-based forecast
APSIM-Nwheat
Wheat modeling
Paraguay
Online Access:http://www.sciencedirect.com/science/article/pii/S2212096314000230
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spelling doaj-1c7567874cb24fbbb59be169e6414dd32020-11-25T00:57:20ZengElsevierClimate Risk Management2212-09632014-01-013C243810.1016/j.crm.2014.06.001Tailoring wheat management to ENSO phases for increased wheat production in ParaguayMelissa A. Ramirez-Rodrigues0Senthold Asseng1Clyde Fraisse2Lydia Stefanova3Alicia Eisenkolbi4University of Florida, Department of Agricultural and Biological Engineering, Gainesville, FL, USAUniversity of Florida, Department of Agricultural and Biological Engineering, Gainesville, FL, USAUniversity of Florida, Department of Agricultural and Biological Engineering, Gainesville, FL, USAFlorida State University, Center for Ocean-Atmospheric Prediction Studies, Tallahassee, FL, USAUniversidad Nacional de Itapúa, Departamento de Agronomía, Itapúa, ParaguayReported regional wheat yields in Paraguay vary from 1 to 3 t/ha from year to year, but appear not to be correlated with El Niño-Southern Oscillation (ENSO) phases. Historical weather data from two locations in representative wheat-growing regions of Paraguay, Encarnación-Itapúa and Ciudad del Este-Alto Paraná combined with crop modeling, were analyzed to optimize nitrogen (N) fertilizer application rates according to the ENSO phase of a growing season. The ENSO phase of a growing season was defined based on the average of the sea surface temperature (SST) anomalies in the Eastern Equatorial Pacific region for the period June–October using the El Niño region 3.0 index (Niño 3.0). Simulated average yields in Alto Paraná were higher in the drier and cooler La Niña wheat-growing seasons (average of 3.5 t/ha) compared to the other phases (average of 3.2 t/ha) and in Itapúa, in Neutral seasons (average of 3.8 t/ha) compared to the other phases (average of 3.7 t/ha). Accordingly, optimal N fertilizer applications ranged between 20 and 60 kg N/ha between phases depending on the sowing date, soil type and initial amount of soil water content. Applying an ENSO or General Circulation Model (GCM)-based forecast for ENSO-season-type specific N fertilizer applications resulted in benefits of >100 US$/ha when compared with current farmers’ practice of consistently low N fertilizer applications in Paraguay. When N management based on forecasts was compared with optimized N application without forecast, the benefits of the forecast was only up to 8 US$/ha. The ENSO-persistence-based forecast showed higher values than the GCM-based forecasts with two lead-times but lower skill. Using climate information can significantly increase current wheat yields and gross margins in Paraguay by tailoring N fertilizer applications to the Niño 3.0-defined ENSO phases, which can be forecasted with moderate skill at the beginning of the growing season.http://www.sciencedirect.com/science/article/pii/S2212096314000230Climate variabilityENSO-persistence-based forecastGCM-based forecastAPSIM-NwheatWheat modelingParaguay
collection DOAJ
language English
format Article
sources DOAJ
author Melissa A. Ramirez-Rodrigues
Senthold Asseng
Clyde Fraisse
Lydia Stefanova
Alicia Eisenkolbi
spellingShingle Melissa A. Ramirez-Rodrigues
Senthold Asseng
Clyde Fraisse
Lydia Stefanova
Alicia Eisenkolbi
Tailoring wheat management to ENSO phases for increased wheat production in Paraguay
Climate Risk Management
Climate variability
ENSO-persistence-based forecast
GCM-based forecast
APSIM-Nwheat
Wheat modeling
Paraguay
author_facet Melissa A. Ramirez-Rodrigues
Senthold Asseng
Clyde Fraisse
Lydia Stefanova
Alicia Eisenkolbi
author_sort Melissa A. Ramirez-Rodrigues
title Tailoring wheat management to ENSO phases for increased wheat production in Paraguay
title_short Tailoring wheat management to ENSO phases for increased wheat production in Paraguay
title_full Tailoring wheat management to ENSO phases for increased wheat production in Paraguay
title_fullStr Tailoring wheat management to ENSO phases for increased wheat production in Paraguay
title_full_unstemmed Tailoring wheat management to ENSO phases for increased wheat production in Paraguay
title_sort tailoring wheat management to enso phases for increased wheat production in paraguay
publisher Elsevier
series Climate Risk Management
issn 2212-0963
publishDate 2014-01-01
description Reported regional wheat yields in Paraguay vary from 1 to 3 t/ha from year to year, but appear not to be correlated with El Niño-Southern Oscillation (ENSO) phases. Historical weather data from two locations in representative wheat-growing regions of Paraguay, Encarnación-Itapúa and Ciudad del Este-Alto Paraná combined with crop modeling, were analyzed to optimize nitrogen (N) fertilizer application rates according to the ENSO phase of a growing season. The ENSO phase of a growing season was defined based on the average of the sea surface temperature (SST) anomalies in the Eastern Equatorial Pacific region for the period June–October using the El Niño region 3.0 index (Niño 3.0). Simulated average yields in Alto Paraná were higher in the drier and cooler La Niña wheat-growing seasons (average of 3.5 t/ha) compared to the other phases (average of 3.2 t/ha) and in Itapúa, in Neutral seasons (average of 3.8 t/ha) compared to the other phases (average of 3.7 t/ha). Accordingly, optimal N fertilizer applications ranged between 20 and 60 kg N/ha between phases depending on the sowing date, soil type and initial amount of soil water content. Applying an ENSO or General Circulation Model (GCM)-based forecast for ENSO-season-type specific N fertilizer applications resulted in benefits of >100 US$/ha when compared with current farmers’ practice of consistently low N fertilizer applications in Paraguay. When N management based on forecasts was compared with optimized N application without forecast, the benefits of the forecast was only up to 8 US$/ha. The ENSO-persistence-based forecast showed higher values than the GCM-based forecasts with two lead-times but lower skill. Using climate information can significantly increase current wheat yields and gross margins in Paraguay by tailoring N fertilizer applications to the Niño 3.0-defined ENSO phases, which can be forecasted with moderate skill at the beginning of the growing season.
topic Climate variability
ENSO-persistence-based forecast
GCM-based forecast
APSIM-Nwheat
Wheat modeling
Paraguay
url http://www.sciencedirect.com/science/article/pii/S2212096314000230
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