A silviculture-oriented spatio-temporal model for germination in Pinus pinea L. in the Spanish Northern Plateau based on a direct seeding experiment

Manso, Rubén; Calama, Rafael; Madrigal, Guillermo; Pardos, Marta

doi:10.1007/s10342-013-0724-z

Cited by 16 publications

(8 citation statements)

References 42 publications

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“…In the case of P. pinea, the 'safe' period resulting from this strategy and the time where germination is possible (early fall) overlap (Manso et al 2013a, b). However, germination conditions are highly strict and their timing may vary every year (Manso et al 2013b). As a result, predation may seriously limit subsequent establishment in years of late germination.…”

Section: Seed Removal Patternsmentioning

confidence: 99%

“…However, although seed harvesting restrictions are imposed to favour seed rain, natural regeneration rarely succeeds (Calama and Montero 2006). This failure may be explained by the following: masting habit and lack of synchrony with regeneration fellings (Calama et al 2011;Manso et al 2012); the species' gravity-based seed dispersal strategy, resulting in patchy seed distribution in managed, open stands ; and a narrow range of adequate climatic conditions for germination, which determines a low probability for seedling establishment in the long term (Manso et al 2013b). However, the impact of plant-animal interactions on regeneration remains unknown.…”

Section: Introductionmentioning

confidence: 99%

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‘Climatic factors control rodent seed predation in Pinus pinea L. stands in Central Spain’

Manso¹,

Pardos²,

Calama³

2014

Annals of Forest Science

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& Context Pinus pinea L. presents serious problems of natural regeneration in managed forest of Central Spain. The species exhibits specific traits linked to frugivore activity. Therefore, information on plant-animal interactions may be crucial to understand regeneration failure. & Aims Determining the spatio-temporal pattern of P. pinea seed predation by Apodemus sylvaticus L. and the factors involved. Exploring the importance of A. sylvaticus L. as a disperser of P. pinea. Identifying other frugivores and their seasonal patterns. & Methods An intensive 24-month seed predation trial was carried out. The probability of seeds escaping predation was modelled through a zero-inflated binomial mixed model. Experiments on seed dispersal by A. sylvaticus were conducted. Cameras were set up to identify other potential frugivores. & Results Decreasing rodent population in summer and masting enhances seed survival. Seeds were exploited more rapidly nearby parent trees and shelters. A. sylvaticus dispersal activity was found to be scarce. Corvids marginally preyed upon P. pinea seeds. & Conclusions Survival of P. pinea seeds is climate-controlled through the timing of the dry period together with masting occurrence. Should germination not take place during the survival period, establishment may be limited. A. sylvaticusmediated dispersal does not modify the seed shadow. Seasonality of corvid activity points to a role of corvids in dispersal.

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Section: Seed Removal Patternsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

‘Climatic factors control rodent seed predation in Pinus pinea L. stands in Central Spain’

Manso¹,

Pardos²,

Calama³

2014

Annals of Forest Science

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“…Large interannual variability in germination rates, conditioned to the occurrence of this optimal conditions, is observed. Over a 4 years study, germination rates varied between 9% and 90%, with two years showing autumn germination Ruano et al (2009) events, one year with spring germination events, and one year with almost no germination at all (Manso et al, 2013a). Moreover, extremely poor overstory cover leads to low probabilities of germination.…”

Section: Germination Emergence and Early Survivalmentioning

confidence: 99%

Natural regeneration in Iberian pines: A review of dynamic processes and proposals for management

et al. 2017

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Aim of study: Designing adequate silvicultural systems for natural regeneration of a forest species requires sound knowledge of the underlying ecological subprocesses: flowering and fruiting, seed dispersal and predation, seed germination, seedling emergence and seedling survival. The main objective of the present work is to carry out a review on the current knowledge about the different subprocesses governing the regeneration process for the main Iberian Pinus species, in order to propose scientifically based management schedules.Area of study: The review focuses on the five main native Pinus species within their most representative areas in the Iberian Peninsula: Pinus nigra in Cuenca mountains, Pinus sylvestris in Sierra de Guadarrama, Pinus pinaster and Pinus pinea in the Northern Plateau and Pinus halepensis in Catalonia.Material and methods: Firstly, currently available information on spatiotemporal dynamics and influential factors is introduced for each subprocess and species. Secondly, current regeneration strategies are characterized and the main bottlenecks are identified. Finally, alternative silvicultural practices proposed on the light of the previous information are presented.Main results: Different climate-mediated bottlenecks have been identified to limit natural regeneration of the Iberian pine species, with seed predation and initial seedling survival among the most influential. New approaches focusing on more gradual regeneration fellings, extended rotation periods, prevent big gaps and program fellings on mast years are presented.Research highlights: Natural regeneration of the studied species exhibit an intermittent temporal pattern, which should be aggravated under drier scenarios. More flexible management schedules should fulfil these limitations.Additional keywords: seed production; seed dispersal; seed predation; germination; regeneration fellings.Correspondence should be addressed to Rafael Calama: rcalama@inia.es

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“…Natural forest regeneration is a key process in ensuring forest sustainability (Lucas-Borja 2014). However, in the Mediterranean basin, natural regeneration is hampered by the summer drought, high summer temperatures, long intervals between good seed crops, the presence of livestock and the existence of a too dense herb and litter layer (Barbeito et al 2011;Calama and Montero 2007;Manso et al 2013;Pardos et al 2007). Therefore, understanding the dynamics, patterns and factors involved in the success or failure of regeneration and interactions at the seedling level can provide foresters with the fundamental knowledge required for decisionmaking in forest management (Lucas-Borja 2014).…”

Section: Introductionmentioning

confidence: 99%

“…Explanatory spatial covariates that influence recruitment patterns have also been incorporated into different types of recruitment models, as explanatory variables. The covariates most used are soil nutrients and/or soil moisture (Barbeito et al 2009), light availability (Adili et al 2013;Fyllas et al 2008), environmental conditions (Rathbun and Fei 2006) and stand structure (Manso et al 2013). Vertical and horizontal forest structures determine light availability and, therefore, regeneration dynamics (Catovsky and Bazzaz 2002;Montgomery 2004) and the development of the stand (Boyden et al 2005;.…”

Section: Introductionmentioning

confidence: 99%

Alternative approaches to assessing the natural regeneration of Scots pine in a Mediterranean forest

Moreno-Fernández¹,

Cañellas²,

Barbeito³

et al. 2015

Annals of Forest Science

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A silviculture-oriented spatio-temporal model for germination in Pinus pinea L. in the Spanish Northern Plateau based on a direct seeding experiment

Cited by 16 publications

References 42 publications

‘Climatic factors control rodent seed predation in Pinus pinea L. stands in Central Spain’

‘Climatic factors control rodent seed predation in Pinus pinea L. stands in Central Spain’

Natural regeneration in Iberian pines: A review of dynamic processes and proposals for management

Alternative approaches to assessing the natural regeneration of Scots pine in a Mediterranean forest

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