Seed removal in two coexisting oak species Ecological consequences of seed size, plant cover and seed-drop timing
Seed predation and dispersal can critically influence plant community structure and dynamics. Inter-specific differences arising at these early stages play a crucial role on tree recruitment patterns, which in turn could influence forest dynamics and species segregation in heterogeneous environments such as Mediterranean forests. We investigated removal rates from acorns set onto the ground in two coexisting Mediterranean oak species - Quercus canariensis and Q. suber - in southern Spain. We developed maximum likelihood estimators to investigate the main factors controlling probabilities of seed removal and to describe species-specific functional responses. To account for inter-specific differences in seed-drop timing, two experiments were established a simultaneous exposure of acorns of the two species (synchronous experiments) and a seed exposure following their natural seed-drop phenology (diachronic experiments). A total of 1536 acorns were experimentally distributed along a wide and natural gradient of plant cover, and removal was periodically monitored for three months at two consecutive years (with contrasting differences in seed production and thus seed availability on the ground). The probability of seed removal increased with plant cover (leaf area index, LAI) for the two oak species. Inter-specific differences in acorn removal were higher in open areas and disappeared in closed microhabitats, especially during a non-mast year. Despite later seed-drop, Q. suber acorns were removed faster and at a higher proportion than those of Q. canariensis. The higher probability of seed removal for this species could be attributed to its larger seed size compared to Q. canariensis, as inter-specific differences were less pronounced when similar sized acorns were exposed. Inter-specific differences in seed removal, arising from seed size variability and microsite heterogeneity, could be of paramount importance in oak species niche separation, driving stand dynamics and composition along environmental gradients. © 2008 The Authors.
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dig-inia-es-20.500.12792-34792020-12-15T09:54:30Z Seed removal in two coexisting oak species Ecological consequences of seed size, plant cover and seed-drop timing Pérez-Ramos, I. M. Urbieta, I. R. Marañón, T. Zavala, M. A. Kobe, R. K. Seed predation and dispersal can critically influence plant community structure and dynamics. Inter-specific differences arising at these early stages play a crucial role on tree recruitment patterns, which in turn could influence forest dynamics and species segregation in heterogeneous environments such as Mediterranean forests. We investigated removal rates from acorns set onto the ground in two coexisting Mediterranean oak species - Quercus canariensis and Q. suber - in southern Spain. We developed maximum likelihood estimators to investigate the main factors controlling probabilities of seed removal and to describe species-specific functional responses. To account for inter-specific differences in seed-drop timing, two experiments were established a simultaneous exposure of acorns of the two species (synchronous experiments) and a seed exposure following their natural seed-drop phenology (diachronic experiments). A total of 1536 acorns were experimentally distributed along a wide and natural gradient of plant cover, and removal was periodically monitored for three months at two consecutive years (with contrasting differences in seed production and thus seed availability on the ground). The probability of seed removal increased with plant cover (leaf area index, LAI) for the two oak species. Inter-specific differences in acorn removal were higher in open areas and disappeared in closed microhabitats, especially during a non-mast year. Despite later seed-drop, Q. suber acorns were removed faster and at a higher proportion than those of Q. canariensis. The higher probability of seed removal for this species could be attributed to its larger seed size compared to Q. canariensis, as inter-specific differences were less pronounced when similar sized acorns were exposed. Inter-specific differences in seed removal, arising from seed size variability and microsite heterogeneity, could be of paramount importance in oak species niche separation, driving stand dynamics and composition along environmental gradients. © 2008 The Authors. 2020-10-22T14:46:01Z 2020-10-22T14:46:01Z 2008 journal article http://hdl.handle.net/20.500.12792/3479 10.1111/j.0030-1299.2008.16370.x eng Attribution-NonCommercial-ShareAlike 4.0 International http://creativecommons.org/licenses/by-nc-sa/4.0/ open access |
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Seed predation and dispersal can critically influence plant community structure and dynamics. Inter-specific differences arising at these early stages play a crucial role on tree recruitment patterns, which in turn could influence forest dynamics and species segregation in heterogeneous environments such as Mediterranean forests. We investigated removal rates from acorns set onto the ground in two coexisting Mediterranean oak species - Quercus canariensis and Q. suber - in southern Spain. We developed maximum likelihood estimators to investigate the main factors controlling probabilities of seed removal and to describe species-specific functional responses. To account for inter-specific differences in seed-drop timing, two experiments were established a simultaneous exposure of acorns of the two species (synchronous experiments) and a seed exposure following their natural seed-drop phenology (diachronic experiments). A total of 1536 acorns were experimentally distributed along a wide and natural gradient of plant cover, and removal was periodically monitored for three months at two consecutive years (with contrasting differences in seed production and thus seed availability on the ground). The probability of seed removal increased with plant cover (leaf area index, LAI) for the two oak species. Inter-specific differences in acorn removal were higher in open areas and disappeared in closed microhabitats, especially during a non-mast year. Despite later seed-drop, Q. suber acorns were removed faster and at a higher proportion than those of Q. canariensis. The higher probability of seed removal for this species could be attributed to its larger seed size compared to Q. canariensis, as inter-specific differences were less pronounced when similar sized acorns were exposed. Inter-specific differences in seed removal, arising from seed size variability and microsite heterogeneity, could be of paramount importance in oak species niche separation, driving stand dynamics and composition along environmental gradients. © 2008 The Authors. |
| format |
journal article |
| author |
Pérez-Ramos, I. M. Urbieta, I. R. Marañón, T. Zavala, M. A. Kobe, R. K. |
| spellingShingle |
Pérez-Ramos, I. M. Urbieta, I. R. Marañón, T. Zavala, M. A. Kobe, R. K. Seed removal in two coexisting oak species Ecological consequences of seed size, plant cover and seed-drop timing |
| author_facet |
Pérez-Ramos, I. M. Urbieta, I. R. Marañón, T. Zavala, M. A. Kobe, R. K. |
| author_sort |
Pérez-Ramos, I. M. |
| title |
Seed removal in two coexisting oak species Ecological consequences of seed size, plant cover and seed-drop timing |
| title_short |
Seed removal in two coexisting oak species Ecological consequences of seed size, plant cover and seed-drop timing |
| title_full |
Seed removal in two coexisting oak species Ecological consequences of seed size, plant cover and seed-drop timing |
| title_fullStr |
Seed removal in two coexisting oak species Ecological consequences of seed size, plant cover and seed-drop timing |
| title_full_unstemmed |
Seed removal in two coexisting oak species Ecological consequences of seed size, plant cover and seed-drop timing |
| title_sort |
seed removal in two coexisting oak species ecological consequences of seed size, plant cover and seed-drop timing |
| publishDate |
2008 |
| url |
http://hdl.handle.net/20.500.12792/3479 |
| work_keys_str_mv |
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| _version_ |
1758004581211570176 |