SIMULATING THE EFFECT OF CLIMATE CHANGE ON WINTER WHEAT PRODUCTION AND WATER / NITROGEN USE EFFICIENCY IN IRAQ: CASE STUDY

SIMULATING THE EFFECT OF CLIMATE CHANGE ON WINTER WHEAT PRODUCTION AND WATER / NITROGEN USE EFFICIENCY IN IRAQ: CASE STUDY

The objective of this study was to investigate the capability of modifying the irrigation and nitrogen application rates as an adaptation to climate change, especially, increasing air temperature, using the Root Zone Water Quality Model (RZWQM2). Field experiments were conducted in the winter wheat...

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Bibliographic Details
Published in:Iraqi journal of agricultural science Vol. 52; no. 4; pp. 999 - 1007
Main Authors: Masood, T K, Shahadha, S S
Format: Journal Article
Language:English
Published: Baghdad Jami'at Baghdad 01-01-2021
Baghdad University
Subjects:
Adaptation
Agricultural production
Air temperature
Climate change
Climate effects
Crop production
Crop yield
Depletion
Efficiency
Fertilizers
Field tests
Global warming
Irrigation
Irrigation requirements
Nitrogen
Precipitation
Root zone
RZWQM2, water/nitrogen use efficiency, wheat production, climate change
Temperature requirements
Triticum aestivum
Water quality
Water use
Water use efficiency
Wheat
Winter
Winter wheat
Baghdad Iraq
Iraq
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Summary:The objective of this study was to investigate the capability of modifying the irrigation and nitrogen application rates as an adaptation to climate change, especially, increasing air temperature, using the Root Zone Water Quality Model (RZWQM2). Field experiments were conducted in the winter wheat season of 2015-2016 and 2019-2020 at the Rasheed County, south of Baghdad, Iraq. The effect of increasing air temperature on the water use efficiency, nitrogen use efficiency, and grain yield of wheat was assessed under different irrigation deficits and nitrogen application rates. Three levels of water depletion: 30, 50, and 70 of available water and four N application rates (0, 140, 200, and 260 kg N ha−1) were applied for winter wheat. Two temperature scenarios in the RZWQM2 were created for the study purpose. The first scenario was to add 2Co to the normal temperature, and the second scenario was to add 4Co to the normal temperature. Results showed that high irrigation levels presented better results than the low levels under projected temperature scenarios. However, all applied nitrogen rates presented similar results under projected temperature (2Co and 4Co scenarios). Therefore, modifying irrigation requirements is a workable adaption strategy to the increased temperature.
ISSN:0075-0530
2410-0862
DOI:10.36103/ijas.v52i4.1411