Your search keyword '"Climent, José"' showing total 12 results

1. Phenotypic integration and life history strategies among populations of Pinus halepensis: an insight through structural equation modelling.

Author

Santini F, Climent JM, and Voltas J

Subjects

Droughts, Latent Class Analysis, Phenotype, Life History Traits, Pinus

Abstract

Background and Aims: Understanding inter-population variation in the allocation of resources to specific anatomical compartments and physiological processes is crucial to disentangle adaptive patterns in forest species. This work aims to evaluate phenotypic integration and trade-offs among functional traits as determinants of life history strategies in populations of a circum-Mediterranean pine that dwells in environments where water and other resources are in limited supply., Methods: Adult individuals of 51 populations of Pinus halepensis grown in a common garden were characterized for 11 phenotypic traits, including direct and indirect measures of water uptake at different depths, leaf area, stomatal conductance, chlorophyll content, non-structural carbohydrates, stem diameter and tree height, age at first reproduction and cone production. The population differentiation in these traits was tested through analysis of variance (ANOVA). The resulting populations' means were carried forward to a structural equation model evaluating phenotypic integration between six latent variables (summer water uptake depth, summer transpiration, spring photosynthetic capacity, growth, reserve accumulation and reproduction)., Key Results: Water uptake depth and transpiration covaried negatively among populations, as the likely result of a common selective pressure for drought resistance, while spring photosynthetic capacity was lower in populations originating from dry areas. Transpiration positively influenced growth, while growth was negatively related to reproduction and reserves among populations. Water uptake depth negatively influenced reproduction., Conclusions: The observed patterns indicate a differentiation in life cycle features between fast-growing and slow-growing populations, with the latter investing significantly more in reproduction and reserves. We speculate that such contrasting strategies result from different arrays of life history traits underlying the very different ecological conditions that the Aleppo pine must face across its distribution range. These comprise, principally, drought as the main stressor and fire as the main ecological disturbance of the Mediterranean basin., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

2. Maintenance costs of serotiny in a variably serotinous pine: The role of water supply.

Author

Martín-Sanz RC, Callejas-Díaz M, Tonnabel J, and Climent JM

Subjects

Adaptation, Physiological genetics, Adaptation, Physiological physiology, Biological Evolution, Climate Change, Fires, Genotype, Seeds genetics, Seeds physiology, Water Supply, Pinus genetics, Pinus physiology

Abstract

Serotiny is an important adaptation for plants in fire-prone environments. However, different mechanisms also induce the opening of serotinous cones in the absence of fire in variably serotinous species. Xeriscence -cone opening driven by dry and hot conditions- is considered to be mediated only by the external environment, but endogenous factors could also play a significant role. Using the variably serotinous Pinus halepensis as our model species, we determined the effects of cone age and scales density in cone opening, and using in-situ and ex-situ manipulative experiments we investigated the role of water availability in the opening of serotinous cones. We hypothesized that loss of connection between the cones and the branch through the peduncles or the absence of water supply could induce a faster cone opening. Results showed that older cones lost more water and opened at lower temperatures, with no influence of scales density. Both field and chamber manipulative experiments (using paired cones of the same whorl) confirmed that water intake through the peduncles affected significantly the pace of cone opening, such that lack of water supply speeded up cone dehiscence. However, this was true for weakly serotinous provenances-more common in this species-, while highly serotinous provenances were indifferent to this effect in the field test. All our results support that cone serotiny in P. halepensis involves the allocation of water to the cones, which is highly consistent with the previously observed environmental effects. Importantly, the existence of maintenance costs of serotinous cones has strong implications on the effects of climate change in the resilience of natural populations, via modifications of the canopy seed banks and recruitment after stand-replacing fires. Moreover, evolutionary models for serotiny in P. halepensis must take into account the significant contribution of maintenance costs to the complex interaction between genotype and the environment.

Published

2017

3. Life-history correlations with seasonal cold hardiness in maritime pine.

Author

Prada E, Climent J, Alía R, and Díaz R

Subjects

Acclimatization, Climate, Climate Change, Cold Temperature, Freezing, Gene-Environment Interaction, Geography, Models, Theoretical, Phenotype, Pinus genetics, Pinus growth & development, Reproduction, Seasons, Stress, Physiological, Trees, Genetic Variation, Pinus physiology

Abstract

Premise of the Study: Plants have developed mechanisms to withstand stressful environmental conditions, but the high energetic cost of these mechanisms may involve exchanges with other key functions. While trade-offs between cold hardiness and growth rates are a general assumption, we lack information regarding genetically based trade-offs between cold hardiness and other life-history traits. Such information has strong implications for tree conservation and breeding, especially in the context of ongoing climate change., Methods: We used a common garden progeny test to examine the relationships between seasonal cold hardiness and life-history traits of growth, reproduction, juvenile ontogeny, and phenology in 75 families of six maritime pine (Pinus pinaster Ait.) populations, three of continental and three of coastal origins., Key Results: We found a clear differentiation among populations with regard to cold hardiness and life-history traits. Two continental Iberian populations showed high cold tolerance and slower growth, but faster ontogenetic development in relation to both vegetative heteroblastic change in juveniles and the onset of female reproduction. The coastal populations displayed the opposite behavior, while the continental Moroccan population presented a unique combination of traits. We confirmed trade-offs between cold-hardiness and growth at the population level, but not within populations. There were no trade-offs with other life-history traits at either level., Conclusions: Relevant local adaptation syndromes were identified in the relationship between cold hardiness and life-history traits. These should be considered in developing tree management guidelines aimed at increasing productivity or adaptability under the expected conditions of climate change., (© 2016 Botanical Society of America.)

Published

2016

4. Disentangling plasticity of serotiny, a key adaptive trait in a Mediterranean conifer.

Author

Martín-Sanz RC, Santos-Del-Blanco L, Notivol E, Chambel MR, San-Martín R, and Climent J

Subjects

Environment, Phenotype, Pinus genetics, Reproduction, Fires, Gene-Environment Interaction, Pinus physiology, Seed Dispersal

Abstract

Premise of the Study: Serotiny, the maintenance of ripe seeds in closed fruits or cones until fire causes dehiscence, is a key adaptive trait of plants in fire-prone ecosystems, but knowledge of phenotypic plasticity for cone retention in woody plants is extremely scarce. On the basis of published literature and our field observations, we hypothesized that increased aridity might decrease the aerial seed bank as a plastic response, not necessarily adaptive., Methods: We used a Pinus halepensis common garden replicated in three contrasted sites (mild, cold, and dry) to separate population differentiation from phenotypic plasticity of cone serotiny and canopy cone bank (CCB). Differences in growth among trees of the same provenance allowed us to include size effect as a proxy of ontogenetic age for the same chronological age of the trees., Key Results: Tree size had a strong negative effect on serotiny, but serotiny degree differed among trial sites even after accounting for size effects. As hypothesized, serotiny was lower at the harsh (dry and cold) sites compared with the mild site. Genetic variation for size-dependent cone serotiny and significant population × site interaction were confirmed, the latter implying different plasticity of serotiny among populations. Population differentiation for CCB showed an ecotypic trend, with positive correlation with temperature oscillation (continentality) and negative correlation with summer rainfall., Conclusions: Growth-limiting environments exacerbated the precocious release of seeds, contrary to the ecotypic trend found for the aerial cone bank, suggesting a counter-gradient plasticity. This plastic response is potentially maladaptive under a scenario of frequent wildfires., (© 2016 Botanical Society of America.)

Published

2016

5. Environment-dependent microevolution in a Mediterranean pine (Pinus pinaster Aiton).

Author

Alía R, Chambel R, Notivol E, Climent J, and González-Martínez SC

Subjects

Phenotype, Pinus classification, Pinus physiology, Reproduction, Seeds physiology, Trees genetics, Trees physiology, Water metabolism, Biological Evolution, Gene-Environment Interaction, Pinus genetics

Abstract

Background: A central question for understanding the evolutionary responses of plant species to rapidly changing environments is the assessment of their potential for short-term (in one or a few generations) genetic change. In our study, we consider the case of Pinus pinaster Aiton (maritime pine), a widespread Mediterranean tree, and (i) test, under different experimental conditions (growth chamber and semi-natural), whether higher recruitment in the wild from the most successful mothers is due to better performance of their offspring; and (ii) evaluate genetic change in quantitative traits across generations at two different life stages (mature trees and seedlings) that are known to be under strong selection pressure in forest trees., Results: Genetic control was high for most traits (h2 = 0.137-0.876) under the milder conditions of the growth chamber, but only for ontogenetic change (0.276), total height (0.415) and survival (0.719) under the more stressful semi-natural conditions. Significant phenotypic selection gradients were found in mature trees for traits related to seed quality (germination rate and number of empty seeds). Moreover, female relative reproductive success was significantly correlated with offspring performance for specific leaf area (SLA) in the growth chamber experiment, and stem mass fraction (SMF) in the experiment under semi-natural conditions, two adaptive traits related to abiotic stress-response in pines. Selection gradients based on genetic covariance of seedling traits and responses to selection at this stage involved traits related to biomass allocation (SMF) and growth (as decomposed by a Gompertz model) or delayed ontogenetic change, depending also on the testing environment., Conclusions: Despite the evidence of microevolutionary change in adaptive traits in maritime pine, directional or disruptive changes are difficult to predict due to variable selection at different life stages and environments. At mature-tree stages, higher female effective reproductive success can be explained by differences in their production of offspring (due to seed quality) and, to a lesser extent, by seemingly better adapted seedlings. Selection gradients and responses to selection for seedlings also differed across experimental conditions. The distinct processes involved at the two life stages (mature trees or seedlings) together with environment-specific responses advice caution when predicting likely evolutionary responses to environmental change in Mediterranean forest trees.

Published

2014

6. Heritability and quantitative genetic divergence of serotiny, a fire-persistence plant trait.

Author

Hernández-Serrano A, Verdú M, Santos-Del-Blanco L, Climent J, González-Martínez SC, and Pausas JG

Subjects

Phenotype, Spain, Fires, Genetic Variation, Pinus genetics, Pinus growth & development

Abstract

Background and Aims: Although it is well known that fire acts as a selective pressure shaping plant phenotypes, there are no quantitative estimates of the heritability of any trait related to plant persistence under recurrent fires, such as serotiny. In this study, the heritability of serotiny in Pinus halepensis is calculated, and an evaluation is made as to whether fire has left a selection signature on the level of serotiny among populations by comparing the genetic divergence of serotiny with the expected divergence of neutral molecular markers (QST-FST comparison)., Methods: A common garden of P. halepensis was used, located in inland Spain and composed of 145 open-pollinated families from 29 provenances covering the entire natural range of P. halepensis in the Iberian Peninsula and Balearic Islands. Narrow-sense heritability (h(2)) and quantitative genetic differentiation among populations for serotiny (QST) were estimated by means of an 'animal model' fitted by Bayesian inference. In order to determine whether genetic differentiation for serotiny is the result of differential natural selection, QST estimates for serotiny were compared with FST estimates obtained from allozyme data. Finally, a test was made of whether levels of serotiny in the different provenances were related to different fire regimes, using summer rainfall as a proxy for fire regime in each provenance., Key Results: Serotiny showed a significant narrow-sense heritability (h(2)) of 0·20 (credible interval 0·09-0·40). Quantitative genetic differentiation among provenances for serotiny (QST = 0·44) was significantly higher than expected under a neutral process (FST = 0·12), suggesting adaptive differentiation. A significant negative relationship was found between the serotiny level of trees in the common garden and summer rainfall of their provenance sites., Conclusions: Serotiny is a heritable trait in P. halepensis, and selection acts on it, giving rise to contrasting serotiny levels among populations depending on the fire regime, and supporting the role of fire in generating genetic divergence for adaptive traits., (© The Author 2014. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2014

7. Adaptive evolution of Mediterranean pines.

Author

Grivet D, Climent J, Zabal-Aguirre M, Neale DB, Vendramin GG, and González-Martínez SC

Subjects

Gene Dosage, Genes, Plant, Genome Size, Mediterranean Region, Phenotype, Phylogeny, Pinus classification, Pinus growth & development, Quantitative Trait, Heritable, Reproduction, Selection, Genetic, Adaptation, Biological, Biological Evolution, Pinus genetics

Abstract

Mediterranean pines represent an extremely heterogeneous assembly. Although they have evolved under similar environmental conditions, they diversified long ago, ca. 10 Mya, and present distinct biogeographic and demographic histories. Therefore, it is of special interest to understand whether and to what extent they have developed specific strategies of adaptive evolution through time and space. To explore evolutionary patterns, the Mediterranean pines' phylogeny was first reconstructed analyzing a new set of 21 low-copy nuclear genes with multilocus Bayesian tree reconstruction methods. Secondly, a phylogenetic approach was used to search for footprints of natural selection and to examine the evolution of multiple phenotypic traits. We identified two genes (involved in pines' defense and stress responses) that have likely played a role in the adaptation of Mediterranean pines to their environment. Moreover, few life-history traits showed historical or evolutionary adaptive convergence in Mediterranean lineages, while patterns of character evolution revealed various evolutionary trade-offs linking growth-development, reproduction and fire-related traits. Assessing the evolutionary path of important life-history traits, as well as the genomic basis of adaptive variation is central to understanding the past evolutionary success of Mediterranean pines and their future response to environmental changes., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

8. Chloroplast microsatellites reveal colonization and metapopulation dynamics in the Canary Island pine.

Author

Navascués M, Vaxevanidou Z, González-Martínez SC, Climent J, Gil L, and Emerson BC

Subjects

Models, Biological, Pinus growth & development, Population Dynamics, DNA, Chloroplast genetics, Geography, Microsatellite Repeats genetics, Pinus genetics, Pinus physiology

Abstract

Chloroplast microsatellites are becoming increasingly popular markers for population genetic studies in plants, but there has been little focus on their potential for demographic inference. In this work the utility of chloroplast microsatellites for the study of population expansions was explored. First, we investigated the power of mismatch distribution analysis and the F(S) test with coalescent simulations of different demographic scenarios. We then applied these methods to empirical data obtained for the Canary Island pine (Pinus canariensis). The results of the simulations showed that chloroplast microsatellites are sensitive to sudden population growth. The power of the F(S) test and accuracy of demographic parameter estimates, such as the time of expansion, were reduced proportionally to the level of homoplasy within the data. The analysis of Canary Island pine chloroplast microsatellite data indicated population expansions for almost all sample localities. Demographic expansions at the island level can be explained by the colonization of the archipelago by the pine, while population expansions of different ages in different localities within an island could be the result of local extinctions and recolonization dynamics. Comparable mitochondrial DNA sequence data from a parasite of P. canariensis, the weevil Brachyderes rugatus, supports this scenario, suggesting a key role for volcanism in the evolution of pine forest communities in the Canary Islands.

Published

2006

9. Biomass allocation and foliage heteroblasty in hard pine species respond differentially to reduction in rooting volume

Author

Climent, José, Chambel, Maria Regina, Pardos, Marta, Lario, Francisco, and Villar-Salvador, Pedro

Published

2011

10. Difference in cuticular transpiration and sclerophylly in juvenile and adult pine needles relates to the species-specific rates of development

Author

Pardos, Marta, Calama, Rafael, and Climent, José

Published

2009

11. Ecología evolutiva de la reproducción en dos pinos mediterráneos: Pinus pinaster y Pinus Halepensis

Author

Santos del Blanco, Luis, Chambel, María Regina, Notivol Paíno, Eduardo, Alía Miranda, Ricardo, and Climent, José

Subjects

recursos forestales, Adaptación, Reproducción, Pinus, Genética, Biodiversidad

Abstract

La adaptación de los árboles a su entorno está ligada a una adecuada programación de la reproducción, que a su vez está interrelacionada con el crecimiento y mantenimiento. Los ensayos genéticos forestales permiten testar las hipótesis de diferenciación y plasticidad para caracteres adaptativos tan relevantes como el tamaño umbral de reproducción y la alometría de la reproducción. Los resultados de varios ensayos de Pinus pinaster y P. halepensis en condiciones ambientales contrastadas corroboran una diferenciación entre procedencias y la existencia de variabilidad genética para caracteres reproductivos en ambas especies. En general, los ambientes de origen con un alto grado de continentalidad se relacionaron con una reproducción femenina precoz y más intensa en relación al tamaño. A su vez, unas condiciones más limitantes del ambiente de ensayo también tendieron a acelerar la reproducción. En P. pinaster, además, encontramos marcadas diferencias en la asignación sexual entre procedencias. Estos resultados demuestran compromisos entre crecimiento y reproducción, constatados a nivel genético mediante correlaciones genéticas negativas y a nivel fisiológico mediante experimentos de retirada de conos. Esta información es clave para entender la adaptación local y orientar el uso y conservación de los recursos genéticos de ambas especies. genética forestal diversidad genética asignación reproductiva adaptación local caracteres de historia vital Published Póster

Published

2013

12. Potencialidad del uso de la diferenciación genética en la fijación de C en pinos ibéricos: abstract

Author

Notivol Paíno, Eduardo, Climent, José, Chambel, María Regina, Santos del Blanco, Luis, and Alía Miranda, Ricardo

Subjects

Ensayos de variedades, recursos forestales, Cambio climático, Pinus

Abstract

ecuaciones alométricas ensayos de procedencias Published Poster

Published

2013