Crop coefficient and evapotranspiration of grain maize modified by planting density in an arid region of northwest China

Crop coefficient and evapotranspiration of grain maize modified by planting density in an arid region of northwest China

•ET and Kc with different plant densities were compared.•The relationship between Kc and LAI was investigated.•A relatively simple and accurate method with density ratio (Kdensity) to calculate Kc and ET was developed.•The performance of four methods calculating Kc was evaluated. In order to investi...

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Bibliographic Details
Published in:Agricultural water management Vol. 142; pp. 135 - 143
Main Authors: Jiang, Xuelian, Kang, Shaozhong, Tong, Ling, Li, Fusheng, Li, Donghao, Ding, Risheng, Qiu, Rangjian
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-08-2014
Elsevier
Subjects:
Agricultural and forest climatology and meteorology. Irrigation. Drainage
Agricultural and forest meteorology
Agronomy. Soil science and plant productions
Arid regions
Biological and medical sciences
Coefficients
Crop coefficient
Density
Density coefficient
Density ratio
Evapotranspiration
Fundamental and applied biological sciences. Psychology
General agronomy. Plant production
Grains
Maize
Mathematical analysis
Planting
Water balance and requirements. Evapotranspiration
Zea mays
Asia
China
Far east
China, People's Rep
Density ratio
Crop coefficient
Evapotranspiration
Density coefficient
Monocotyledones
Vegetals
Zea mays
Grains
Arid environment
C4-Type
Climatic zone
Planting density
Cereal crop
Northwest
Arid region
Gramineae
Angiospermae
Water engineering
Spermatophyta
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Summary:•ET and Kc with different plant densities were compared.•The relationship between Kc and LAI was investigated.•A relatively simple and accurate method with density ratio (Kdensity) to calculate Kc and ET was developed.•The performance of four methods calculating Kc was evaluated. In order to investigate crop coefficient (Kc) and evapotranspiration (ET) of grain maize modified by planting density, a field experiment was conducted from March to October in 2012 and 2013 in an arid region of northwest China. Five planting densities, i.e. 67,500, 82,500, 97,500, 112,500 and 127,500plantsha−1 were conducted in 2012, and a higher planting density of 142,500plantsha−1 was added in 2013. We introduced a density ratio (Kdensity) that is a function of leaf area index (LAI) to account for the effect of planting density on Kc, and the daily Kc can be computed by Kdensity multiplying Kc at the reference planting density (127,500plantsha−1). The Allen method considering an adjustment coefficient (Acm), the single and dual Kc methods considering a density coefficient (Kd), and Kdensity method were used to calculate Kc, and then the ET estimated by reference evapotranspiration and Kc was validated by the measured ET using the eddy covariance system in 2012 and 2013. Results showed that higher planting density increased ET and Kc and lowered soil evaporation and evaporation coefficient within the planting densities of the experiments. Daily ET estimated by the Allen method performed very well after the end of maize development stage, with mean bias error (MBE) of −0.06 and 0.12mmd−1, root mean square error (RMSE) of 0.84 and 0.80mmd−1 in 2012 and 2013 respectively. The single and dual Kc methods can better simulate the daily ET when actual LAI was below the maximum LAI. Compared to the three above-mentioned methods, the Kdensity method had higher accuracy in estimating daily ET over the whole stage, with higher R2 and lower MBE and RMSE, indicating that Kdensity method had better performance in calculating daily ET under different planting densities of grain maize.
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content type line 23
ISSN:0378-3774
1873-2283
DOI:10.1016/j.agwat.2014.05.006