Post-dispersal predation of Pinus pinaster Aiton seeds: key factors and effects on belowground seed bank

Ruano, Irene; Peso, Carlos del; Bravo, Felipe

doi:10.1007/s10342-014-0853-z

Cited by 17 publications

(17 citation statements)

References 35 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…The lessened seedling recruitment after two fire events in our study site was not fully compensated by the manual spreading of seeds after fire, as most scattered seeds following contour lines were dragged by rainfall towards the bottom of the slopes (personal observation) (see e.g., Espelta et al, 2003). Many additional factors might have also contributed to weaken the effectiveness of direct seeding and to impede seedling establishment, such as post-dispersal seed predation (Ruano et al, 2015), the high percentage of the surface covered by stones and the low coverage of fine woody debris [i.e., downed branches and pieces of dead wood <2 cm diameter, and remaining unburned foliage; 7.95 ± 10.14 and 0.49 ± 0.45 at stands subjected to one and two fires, respectively; unpublished data] (Madrigal et al, 2005;Rodríguez et al, 2008;Rodríguez-García et al, 2010). Yet, in these stands subjected to repeated large fires, average seedling density was either similar or superior to that at the abovementioned experimental plots where burned wood was removed or fully/partly left onsite (Castro et al, 2011), and may be sufficient to ensure post-fire regeneration (Gil et al, 2009).…”

Section: Discussionmentioning

confidence: 87%

Fire recurrence and emergency post-fire management influence seedling recruitment and growth by altering plant interactions in fire-prone ecosystems

Taboada

Tárrega

Marcos

et al. 2017

Forest Ecology and Management

View full text Add to dashboard Cite

Projections of future wildfire regimes forecast an increased frequency of large high-severity fires that create very harsh environmental conditions and constitute a challenge to post-fire ecosystem regeneration. Under these new circumstances, better knowledge of the plant interaction mechanisms underlying post-fire seedling establishment success would aid restoration management to achieve the intended targets. We evaluated the combined effect of recurrent large stand-replacing fires and conventional post-fire restoration activities (salvage logging after a single large fire, and direct seeding and linear subsoiling plus seedling planting after two subsequent large fires) on tree seedling recruitment and performance (development, annual growth, and biomass) in the early stages of succession in fire-prone maritime pine (Pinus pinaster Ait.) ecosystems. We quantified plant facilitative/competitive interactions between naturally recruited pine seedlings, neighbouring seedlings and potential nurse shrubs with different post-fire regeneration strategies (obligate seeders vs resprouters), by computing the relative interaction index (RII). The results evidenced that fire recurrence altered plant species composition and conditioned initial pine seedling recruitment and establishment, prevailing over the expected negative impact of salvage logging and positive impact of seeding. Seedling recruitment was sufficient to ensure natural tree regeneration after a single fire event and undermined by repeated fires. Both delaying burned timber removal during salvage logging operations and retaining immature dead trees without commercial value onsite in subsoiled stands enhanced seedling recruitment via facilitative interactions. Higher seedling growth and height under shrubs than in open ground resulted in lower aerial and root biomass, indicating elongation in response to shade, and net competition for resources. Inter-specific competition between naturally regenerated seedlings and shrubs was aggravated by intra-specific competition with neighbouring seedlings and by mechanical site preparation in subsoiled stands. All in all, post-burn increased soil fertility most likely counterbalanced the environmental stress created by fire, shifting the net outcome of plant interactions from positive (facilitation) to negative (competition). We recommend alternative post-fire management actions that decrease plant competition and take advantage of facilitation by residual burned wood, to ultimately accelerate ecosystem recovery after large stand-replacing fires.

show abstract

Section: Discussionmentioning

confidence: 87%

Fire recurrence and emergency post-fire management influence seedling recruitment and growth by altering plant interactions in fire-prone ecosystems

Taboada

Tárrega

Marcos

et al. 2017

Forest Ecology and Management

View full text Add to dashboard Cite

show abstract

“…the percentage of serotinous cones varies among individuals of the same population and among different populations) (Tapias et al 2001(Tapias et al , 2004, which is a heritable character (Hernández-Serrano et al 2014) closely related to the type of fire regime affecting each population (Hernández-Serrano et al 2013;Tapias et al 2004). Serotiny acts as an advantageous reproductive adaptation of P. pinaster populations in fire-prone environments, because (1) the canopy seed bank of the species is relatively small in non-serotinous populations (Tapias et al 2001), and (2) the soil seed bank is insufficient and temporary and ends up irreversibly damaged either by fire-induced temperatures or by post-dispersal predation (De las Heras et al 2012;Ruano et al 2015;Torres et al 2006). Populations with high levels of serotiny can retain closed cones up to 40 years and preserve seed viability for 30 years (Tapias et al 2004) and are, therefore, more likely to survive frequent crown fires and achieve successful post-fire recruitment (i.e.…”

Section: Introductionmentioning

confidence: 99%

Provenance and seed mass determine seed tolerance to high temperatures associated to forest fires in Pinus pinaster

Calvo

Hernández

Valbuena

et al. 2015

Annals of Forest Science

View full text Add to dashboard Cite

Abstract& Key message We show that Pinus pinaster provenance affects both seed germination and seedling recruitment after fire. This information is crucial for managers to select the best seed-provisioning populations when implementing reforestation programs to assist the natural post-fire regeneration of the species. & Context Reforestation programs to assist natural regeneration of maritime pine (Pinus pinaster Aiton) forests after wildfires very often neglect the fire-adaptive traits of the selected seed-source populations, threatening future stand resilience to fire. & Aim We investigate the influence of seed provenance and weight on the rate and timing of seed germination, and on early seedling growth of P. pinaster after fire. & Methods We simulated conditions during fire by experimentally submitting free seeds from three P. pinaster provenances with contrasting levels of serotiny (from <6 to >58 % of trees bearing serotinous cones within the population) to six combinations of temperature and exposure time. We fitted GLMs and LMs to test for differences among provenances in reproductive performance after the thermal shock treatments. & Results Heavy seeds derived from the very low serotinous population exhibited greater tolerance to heat (higher germination rate, lower germination time, and higher seedling length) than the lighter ones from the highly serotinous population. & Conclusion The seeds enclosed in serotinous cones are, however, the only ones protected from high fire-induced temperatures, delaying release until favourable post-burn conditions for germination and seedling establishment. Therefore, selecting the best fire-adapted populations with the optimal serotiny level as seed-provisioning sources should be encouraged to ensure forest regrowth in fire-prone areas.

show abstract

“…Additionally, climate variability influences predator populations, showing larger rates in autumn-winter and almost no predation in summer. As for P. pinea, predation is favoured in the vicinity of stumps and in denser areas (potential sheltered locations), while the presence of grasses and needles on the floor hide seeds and therefore prevents predation (Ruano et al, 2014).…”

Section: Pre and Post-dispersal Seed Predationmentioning

confidence: 99%

“…Ruano et al (2014) showed that predation can reduce seed density up to values below 1 seed/m 2 , even in locations where seed rain reached values over 40-50 seeds/m 2 . Although no specific experiment for detecting potential predators' species was carried out, the authors indicate that together with A. sylvaticus, C. ciyanus and C. corax, ants should be considered a potential predator for the seed of P. pinaster.…”

Section: Pre and Post-dispersal Seed Predationmentioning

confidence: 99%

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

et al. 2017

Self Cite

View full text Add to dashboard Cite

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

show abstract

Post-dispersal predation of Pinus pinaster Aiton seeds: key factors and effects on belowground seed bank

Cited by 17 publications

References 35 publications

Fire recurrence and emergency post-fire management influence seedling recruitment and growth by altering plant interactions in fire-prone ecosystems

Fire recurrence and emergency post-fire management influence seedling recruitment and growth by altering plant interactions in fire-prone ecosystems

Provenance and seed mass determine seed tolerance to high temperatures associated to forest fires in Pinus pinaster

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

Contact Info

Product

Resources

About