AquaCrop-The FAO Crop Model to Simulate Yield Response to Water: I. Concepts and Underlying Principles

@article{Steduto2009AquaCropTheFC,
  title={AquaCrop-The FAO Crop Model to Simulate Yield Response to Water: I. Concepts and Underlying Principles},
  author={Pasquale Steduto and Theodore C. Hsiao and Dirk Raes and El{\'i}as Fereres},
  journal={Agronomy Journal},
  year={2009},
  volume={101},
  pages={426-437}
}
This article introduces the FAO crop model AquaCrop. It simulates attainable yields of major herbaceous crops as a function of water consumption under rainfed, supplemental, deficit, and full irrigation conditions. The growth engine of AquaCrop is water-driven, in that transpiration is calculated first and translated into biomass using a conservative, crop-specific parameter: the biomass water productivity, normalized for atmospheric evaporative demand and air CO 2 concentration. The… 
View via Publisher
nhjy.hzau.edu.cn
1,295 Citations
Highly Influential Citations
113
Background Citations
269
Methods Citations
263
Results Citations
7

Figures from this paper

1,295 Citations

Concepts and Applications of AquaCrop: The FAO Crop Water Productivity Model

Predicting attainable yield under water-limiting conditions is an important goal in arid, semi-arid and drought-prone environments. To address this task, FAO has developed a model, AquaCrop, which

Performance review of aquacroP - The fao croP-waTer ProducTiviTy model EXAMEN CRITIQUE DE L'AQUACROP - MODELE DE LA FAO SUR LA PRODUCTIVITE EN EAU DES CULTURES

This article introduces the FAO crop model AquaCrop and its performance as reported from most of the users around the world from its launch in January 2009. The model simulates yields of herbaceous

AquaCrop: FAO's crop water productivity and yield response model

AquaCrop — The FAO Crop Model to Simulate Yield Response to Water: II. Main Algorithms and Software Description

The AquaCrop model was developed to replace the former FAO I&D Paper 33 procedures for the estimation of crop productivity in relation to water supply and agronomic management in a framework based on

Simulating yield response to water of Teff (Eragrostis tef) with FAO's AquaCrop model.

alidation and testing of the AquaCrop model under full and deficit irrigated heat production in Iran

Accurate crop development models are important tools in evaluating the effects of water deficits on crop yield or productivity and predicting yields to optimize irrigation under limited available

Simulating Yield Response of Quinoa to Water Availability with AquaCrop

The modeling of yield response to water is expected to play an increasingly important role in the optimization of crop water productivity (WP) in agriculture. During 3 yr (2004―2007), field

AquaCrop—The FAO Crop Model to Simulate Yield Response to Water: III. Parameterization and Testing for Maize

The first crop chosen to parameterize and test the new FAO AquaCrop model is maize (Zea mays L.). Working mainly with data sets from 6 yr of maize field experiments at Davis, CA, plus another 4 yr of

Validation of the AquaCrop Model for Fulland Deficit Irrigated Potato Production inEnvironmental Condition of Korça Zone,South-eastern Albania

Simulation models that quantify the effects of water on yield at the farm level are valuable tools in water and irrigation management. To address this need, FAO has developed a yield-response to

Modelling of Response of the Growth and Yield of Soybean to Full and Deficit Irrigation by Using Aquacrop

The use of crop yield models is important in simulating and predicting yield of crops and in making decisions under changing climate conditions, in order to optimize production. In this study the
...

References

SHOWING 1-10 OF 86 REFERENCES

AquaCrop — The FAO Crop Model to Simulate Yield Response to Water: II. Main Algorithms and Software Description

The AquaCrop model was developed to replace the former FAO I&D Paper 33 procedures for the estimation of crop productivity in relation to water supply and agronomic management in a framework based on

Simulating Yield Response of Quinoa to Water Availability with AquaCrop

The modeling of yield response to water is expected to play an increasingly important role in the optimization of crop water productivity (WP) in agriculture. During 3 yr (2004―2007), field

AquaCrop—The FAO Crop Model to Simulate Yield Response to Water: III. Parameterization and Testing for Maize

The first crop chosen to parameterize and test the new FAO AquaCrop model is maize (Zea mays L.). Working mainly with data sets from 6 yr of maize field experiments at Davis, CA, plus another 4 yr of

Parameterization and Evaluation of the AquaCrop Model for Full and Deficit Irrigated Cotton

Predicting yield is increasingly important to optimize irrigation under limited available water for enhanced sustainability and profi table production. Food and Agriculture Organization (FAO) of the

Deficit irrigation optimization of cotton with AquaCrop.

Given the current pressures to reduce irrigation water use, it is important to optimize the use of water in irrigated agriculture. This work was aimed at determining the optimum level of applied

Validating the FAO AquaCrop Model for Irrigated and Water Deficient Field Maize

Accurate crop development models are important tools in evaluating the effects of water deficits on crop yield or productivity. The FAO AquaCrop model predicts crop productivity, water requirement,

On the conservative behavior of biomass water productivity

The ever-increasing demand and competition for the finite water resource worldwide call for more efficient use of water in all sectors, including firstly agricultural food production. One important

Assessing climatic risk to sorghum production in water-limited subtropical environments. I.Development and testing of a simulation model

CropSyst, a cropping systems simulation model

Model for predicting evaporation from a row crop with incomplete cover

A model is presented for calculating the daily evaporation rate from a crop surface. It applies to a row crop canopy situation in which the soil water supply to the plant roots is not limited and the
...