Fruit pit hardening: Physical measurement during olive fruit growth
In drupe-type fruits, pit hardening, resulting from sclerification of the fruit endocarp, is widely used as a phenological marker for both physiological studies and orchard management. In spite of the importance of pit hardening for understanding fruit development processes and for agricultural practices, however, its quantification has remained obscure and precision has been lost with time and lax usage. In this study, we used a mechanical device to measure the physical pressure required to break the olive pit in order to define the timing of pit hardening more precisely and to permit closer observation of its relationship to fruit and endocarp growth and development. Over 4 years we found that pit-hardening pressure increased following a sigmoid pattern, at first gradually but then with a large and rapid increment of change in a relatively short period of time. The rapid acceleration of hardening began at the time when pit longitudinal and transverse diameters attained their maximum size. That timing is consistent with the anatomical differentiation of the sclerified endocarp cells which can no longer expand nor divide. The results improve our knowledge of pit hardening and provide a more precise context for evaluating the metabolic costs, physiological interactions and genetic controls of stone fruit endocarp development. On a practical level, the association of the intensification of pit-breaking pressure with the cessation of pit expansion indicates that pit diameters can be useful morphological markers to identify the onset of this period. © 2013 Association of Applied Biologists.
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| Format: | artículo biblioteca |
| Language: | English |
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Blackwell Publishing
2013-09
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| Subjects: | Endocarp, Fruit growth and development, Olive, Phenology, Olea europaea L, |
| Online Access: | http://hdl.handle.net/10261/87923 |
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dig-ias-es-10261-879232018-10-25T13:10:25Z Fruit pit hardening: Physical measurement during olive fruit growth Rapoport, Hava F. Pérez-López, D. Hammami, Sofiene B. M. Agüera, Juan Moriana, Alfonso Endocarp Fruit growth and development Olive Phenology Olea europaea L In drupe-type fruits, pit hardening, resulting from sclerification of the fruit endocarp, is widely used as a phenological marker for both physiological studies and orchard management. In spite of the importance of pit hardening for understanding fruit development processes and for agricultural practices, however, its quantification has remained obscure and precision has been lost with time and lax usage. In this study, we used a mechanical device to measure the physical pressure required to break the olive pit in order to define the timing of pit hardening more precisely and to permit closer observation of its relationship to fruit and endocarp growth and development. Over 4 years we found that pit-hardening pressure increased following a sigmoid pattern, at first gradually but then with a large and rapid increment of change in a relatively short period of time. The rapid acceleration of hardening began at the time when pit longitudinal and transverse diameters attained their maximum size. That timing is consistent with the anatomical differentiation of the sclerified endocarp cells which can no longer expand nor divide. The results improve our knowledge of pit hardening and provide a more precise context for evaluating the metabolic costs, physiological interactions and genetic controls of stone fruit endocarp development. On a practical level, the association of the intensification of pit-breaking pressure with the cessation of pit expansion indicates that pit diameters can be useful morphological markers to identify the onset of this period. © 2013 Association of Applied Biologists. This work was supported by Spanish Ministry of Science and Innovation ERDF co-financed grant AGL2009-07248 and Spanish National Institute of Agricultural Research (INIA) grant RTA04-046-C3. Peer Reviewed 2013-11-29T13:55:00Z 2013-11-29T13:55:00Z 2013-09 2013-11-29T13:55:01Z artículo http://purl.org/coar/resource_type/c_6501 doi: 10.1111/aab.12046 issn: 0003-4746 e-issn: 1744-7348 Annals of Applied Biology 163(2): 200-208 (2013) http://hdl.handle.net/10261/87923 10.1111/aab.12046 en none Blackwell Publishing |
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Endocarp Fruit growth and development Olive Phenology Olea europaea L Endocarp Fruit growth and development Olive Phenology Olea europaea L |
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Endocarp Fruit growth and development Olive Phenology Olea europaea L Endocarp Fruit growth and development Olive Phenology Olea europaea L Rapoport, Hava F. Pérez-López, D. Hammami, Sofiene B. M. Agüera, Juan Moriana, Alfonso Fruit pit hardening: Physical measurement during olive fruit growth |
| description |
In drupe-type fruits, pit hardening, resulting from sclerification of the fruit endocarp, is widely used as a phenological marker for both physiological studies and orchard management. In spite of the importance of pit hardening for understanding fruit development processes and for agricultural practices, however, its quantification has remained obscure and precision has been lost with time and lax usage. In this study, we used a mechanical device to measure the physical pressure required to break the olive pit in order to define the timing of pit hardening more precisely and to permit closer observation of its relationship to fruit and endocarp growth and development. Over 4 years we found that pit-hardening pressure increased following a sigmoid pattern, at first gradually but then with a large and rapid increment of change in a relatively short period of time. The rapid acceleration of hardening began at the time when pit longitudinal and transverse diameters attained their maximum size. That timing is consistent with the anatomical differentiation of the sclerified endocarp cells which can no longer expand nor divide. The results improve our knowledge of pit hardening and provide a more precise context for evaluating the metabolic costs, physiological interactions and genetic controls of stone fruit endocarp development. On a practical level, the association of the intensification of pit-breaking pressure with the cessation of pit expansion indicates that pit diameters can be useful morphological markers to identify the onset of this period. © 2013 Association of Applied Biologists. |
| format |
artículo |
| topic_facet |
Endocarp Fruit growth and development Olive Phenology Olea europaea L |
| author |
Rapoport, Hava F. Pérez-López, D. Hammami, Sofiene B. M. Agüera, Juan Moriana, Alfonso |
| author_facet |
Rapoport, Hava F. Pérez-López, D. Hammami, Sofiene B. M. Agüera, Juan Moriana, Alfonso |
| author_sort |
Rapoport, Hava F. |
| title |
Fruit pit hardening: Physical measurement during olive fruit growth |
| title_short |
Fruit pit hardening: Physical measurement during olive fruit growth |
| title_full |
Fruit pit hardening: Physical measurement during olive fruit growth |
| title_fullStr |
Fruit pit hardening: Physical measurement during olive fruit growth |
| title_full_unstemmed |
Fruit pit hardening: Physical measurement during olive fruit growth |
| title_sort |
fruit pit hardening: physical measurement during olive fruit growth |
| publisher |
Blackwell Publishing |
| publishDate |
2013-09 |
| url |
http://hdl.handle.net/10261/87923 |
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