A Simple Phenological Model of Muskmelon Development

A Simple Phenological Model of Muskmelon Development

Utilizing information gathered in previous growth chamber and field experiments, we developed a simple temperature-driven crop phenology model of muskmelon (Cucumis melo L.) to help commercial growers time crop phenological events and predict harvest dates. The model quantifies vegetative developmen...

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Bibliographic Details
Published in:Annals of botany Vol. 87; no. 5; pp. 615 - 621
Main Authors: Baker, J.T., Leskovar, D.I., Reddy, V.R., Dainello, F.J.
Format: Journal Article
Language:English
Published: Oxford Elsevier Science Ltd 01-05-2001
Oxford University Press
Academic Press
Oxford Publishing Limited (England)
Subjects:
cantaloupe
Crop harvesting
Crops
Cucumis melo L
Cucumis melo L., cantaloupe, temperature, model, thermal time, plastochron interval, growth duration
Datasets
growth duration
Harvest date
Modeling
Musical intervals
Phenology
plastochron interval
Simulations
Temperature
thermal time
Weather
Cucumis melo L., cantaloupe, temperature, model, thermal time, plastochron interval, growth duration
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Summary:Utilizing information gathered in previous growth chamber and field experiments, we developed a simple temperature-driven crop phenology model of muskmelon (Cucumis melo L.) to help commercial growers time crop phenological events and predict harvest dates. The model quantifies vegetative development in terms of main vine node numbers which allows the model to simulate either a direct-seeded or a transplanted crop. The model operates on an hourly time-step but requires only daily weather data and a few cultivar-specific parameters including plastochron interval and thermal time requirements to reach six predefined developmental stages. The model was tested against an independent data set consisting of three muskmelon cultivars grown at five transplanting dates. Tests of the model indicate an average ability to predict main vine node numbers to within one to two nodes of observed values. Estimated harvest date predictions were more variable than those for main vine node number but an average model accuracy of 1 to 3d was obtained in model tests with a data set used to construct the model. Procedures for calibrating the model for different cultivars, cultural practices or environments are outlined.
Bibliography:Received: 11 September 2000 ; Returned for revision: 11 December 2000 . Accepted: 19 January 2001
ark:/67375/HXZ-5KW0HXRR-D
istex:E51343B1117880ADEC1BC4200BF939F4C2417DAD
local:870615
ISSN:0305-7364
1095-8290
DOI:10.1006/anbo.2001.1382