Simple Model for Rapid and Nondestructive Estimation of Bell Pepper Fruit Volume
Nondestructive estimates of fruit volume are used for yield prediction. They are also used to study the relationship between fruit expansion rate and susceptibility to diseases or physiological disorders such as fruit cracking. A model relating bell pepper (Capsicum annuum) fruit diameter and length...
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| Published in | HortScience Vol. 38; no. 4; pp. 509 - 511 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Alexandria, VA
American Society for Horticultural Science
01.07.2003
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Nondestructive estimates of fruit volume are used for yield prediction. They are also used to study the relationship between fruit expansion rate and susceptibility to diseases or physiological disorders such as fruit cracking. A model relating bell pepper (Capsicum annuum) fruit diameter and length to its volume was derived using the equation of the volume of a sphere as the starting point. The model has the following formula: V(F) = KD2 Lπ/6, where V(F) is fruit volume, K is the shape factor that varies with fruit type, D is fruit diameter, and L is fruit length. The model is simple, easy to use in the field, and may account for variations in fruit shape. Regression analyses using actual fruit volume of bell pepper measured with the water displacement method and the volume estimated using different equations showed that accuracy of the new model is comparable to that of one of the best models previously proposed. However, because the model is less complex than previous models, it is easier to use in the field. |
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| AbstractList | Nondestructive estimates of fruit volume are used for yield prediction. They are also used to study the relationship between fruit expansion rate and susceptibility to diseases or physiological disorders such as fruit cracking. A model relating bell pepper (Capsicum annuum) fruit diameter and length to its volume was derived using the equation of the volume of a sphere as the starting point. The model has the following formula: V(F) = KD2 Lπ/6, where V(F) is fruit volume, K is the shape factor that varies with fruit type, D is fruit diameter, and L is fruit length. The model is simple, easy to use in the field, and may account for variations in fruit shape. Regression analyses using actual fruit volume of bell pepper measured with the water displacement method and the volume estimated using different equations showed that accuracy of the new model is comparable to that of one of the best models previously proposed. However, because the model is less complex than previous models, it is easier to use in the field. Nondestructive estimates of fruit volume are used for yield prediction. They are also used to study the relationship between fruit expansion rate and susceptibility to diseases or physiological disorders such as fruit cracking. A model relating bell pepper ( Capsicum annuum ) fruit diameter and length to its volume was derived using the equation of the volume of a sphere as the starting point. The model has the following formula: V F = KD 2 Lπ/6, where V F is fruit volume, K is the shape factor that varies with fruit type, D is fruit diameter, and L is fruit length. The model is simple, easy to use in the field, and may account for variations in fruit shape. Regression analyses using actual fruit volume of bell pepper measured with the water displacement method and the volume estimated using different equations showed that accuracy of the new model is comparable to that of one of the best models previously proposed. However, because the model is less complex than previous models, it is easier to use in the field. |
| Author | Goldy, Ronald Kirk, William Ngouajio, Mathieu |
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| Keywords | Water Shape Fruit Horticulture Prediction equation water displacement yield prediction Dicotyledones Angiospermae Capsicum annuum Spermatophyta Solanaceae fruit shape |
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| SubjectTerms | Agronomy. Soil science and plant productions Biological and medical sciences Capsicum annuum disease resistance equations fruit cracking Fundamental and applied biological sciences. Psychology prediction regression analysis sweet peppers |
| Title | Simple Model for Rapid and Nondestructive Estimation of Bell Pepper Fruit Volume |
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