Your search keyword '"Mediterranean stone pine"' showing total 9 results

1. Molecular and Quantitative Genetics of Stone Pine (Pinus pinea)

Author

Mutke, Sven, Vendramin, Giovanni G., Fady, Bruno, Bagnoli, Francesca, González-Martínez, Santiago C., Ramawat, Kishan Gopal, Series Editor, and Nandwani, Dilip, editor

Published

2019

2. Responses of Pinus pinea seedlings to moderate drought and shade: is the provenance a differential factor?

Author

Pardos, M. and Calama, R.

Subjects

*ITALIAN stone pine, *PHOTOSYNTHESIS, *PHENOTYPIC plasticity in plants, *SEEDLINGS, *BIOLOGICAL adaptation

Abstract

The widespread Mediterranean Pinus pinea showed exceptionally low genetic diversity and low differentiation between traits in the adult phase. We explored the adaptation potential of seedlings from four main Iberian provenances during their regeneration phase. We assessed the variability of shoot growth, allometry, physiological traits, and phenotypic plasticity to the interactive effect of light and water environments during 8-month moderate water-stress cycle and after one-week heat wave. The effect of shade and drought was mainly orthogonal whatever the provenance. The inland La Mancha provenance showed higher shoot growth and biomass compared to the southern coastal Depresión-del-Guadalquivir provenance. Following the heat wave, La Mancha presented higher net photosynthetic rates, a lower decrease in maximal quantum efficiency of PSII, and a higher accumulated relative height growth, thus, showing an adaptive advantage. The observed differences corroborated the ecological grouping of the provenances along latitudinal and inland-coastal gradients. We confirmed the high adaptive plasticity of Pinus pinea to the unpredictable Mediterranean environment. [ABSTRACT FROM AUTHOR]

Published

2018

3. Modelling spatiotemporal dynamics of Pinus pinea cone infestation by Dioryctria mendacella.

Author

Calama, Rafael, Pardos, Marta, Fortin, Mathieu, and Manso, Rubén

Subjects

FOREST management, FOREST ecology, BASAL area (Forestry), ITALIAN stone pine, BINOMIAL distribution, PHYSIOLOGY

Abstract

Insect predation on seeds of forests species during the predispersal phase is a special case of plant-pest interaction in which, while plant survival and growth is not threatened, natural regeneration can be negatively affected. In the case of seeds with a high economic value, as is the case of nuts from the Mediterranean stone pine ( Pinus pinea L.), predispersal predation can also result in severe economic losses. The insect-seed relationship shows complex spatiotemporal dynamics, including patterns of dependency between fruit availability and fluctuations in insect population, occurrence of insect outbreaks, spatial contagion and masting habit. In the present study, we focus on the damage caused by a native pest, the Dioryctria mendacella Stgr. moth, to cones and seeds of P. pinea , a forest species showing a marked masting habit. We firstly identified those environmental and stand-level factors controlling the spatiotemporal pattern of damage by D. mendacella , as well as the self-regulatory effect that interannual variability in seed production could have on the population dynamics of the moth. In a second phase, we constructed a predictive phenomenological model to forecast the probability of cone damage in a given location, as well as the expected patterns of spatiotemporal spread and dispersion. Our results revealed a strong correlation between the probability of damage and crop size in a given year, pointing to a dependency between feeding resources and predator population. Additionally, the probability of damage is affected by the number of damaged cones observed in the previous year, indicating temporal contagion. Cone and seed damage is also affected by the temperature during different phases of the complex life-cycle of D. mendacella , which suggests that breakout processes are synchronized within the territory and linked to the occurrence of bumper crops and favorable climatic conditions. We detected that the level of infestation at a given location is related to site and environmental conditions, with no significant pattern of contagion/spreading from stands with high resource availability to those with low availability. Damage prediction under warmer climate scenarios reveals a counterbalance among favorable/unfavorable conditions for insect expansion and expected decline in cone production, resulting in only slight changes. [ABSTRACT FROM AUTHOR]

Published

2017

4. Molecular and Quantitative Genetics of Stone Pine (Pinus pinea)

Author

Mutke, Sven [0000-0002-6365-7128], Vendramin, G. G. [0000-0001-9921-7872], Fady, Bruno [0000-0003-2379-7617], Bagnoli, Francesca [0000-0001-6909-0006], González-Martínez, Santiago C. [0000-0002-4534-3766], Mutke, Sven, Vendramin, G. G., Fady, Bruno, Bagnoli, Francesca, González-Martínez, Santiago C., Mutke, Sven [0000-0002-6365-7128], Vendramin, G. G. [0000-0001-9921-7872], Fady, Bruno [0000-0003-2379-7617], Bagnoli, Francesca [0000-0001-6909-0006], González-Martínez, Santiago C. [0000-0002-4534-3766], Mutke, Sven, Vendramin, G. G., Fady, Bruno, Bagnoli, Francesca, and González-Martínez, Santiago C.

Abstract

The Mediterranean stone pine is currently on its way to domestication. Its genuine Mediterranean pine nuts are among the most expensive nuts in the world because they are mainly wild-collected from pine forests and woodlands. Despite the wide current distribution of stone pine over the whole Mediterranean biome, old-growth forests are scarce, often associated locally with dynamics on lose sands, coastal dunes or former estuary marshes. The species has been found to be genetically depauperate, putatively due to a population bottleneck in a local refugium during the Last Glacial Maximum confirmed in southern Iberia, and a possibly anthropic range expansion during Holocene. Only recently, cone harvesting and processing mechanisation have allowed for profitable pine nut production from orchard plantations. In Spain and Portugal, first elite clones have been registered for their use as grafted orchard crop.

Published

2019

5. Molecular and quantitative genetics of stone pine (Pinus pinea)

Author

Francesca Bagnoli, Bruno Fady, Sven Mutke, Giovanni G. Vendramin, Santiago C. González-Martínez, Instituto Nacional de Investigación Agropecuaria (INIA), Sustainable Forest Management Res Inst IuFOR, Universitad de Valladolid, Consiglio Nazionale delle Ricerche (CNR), Ecologie des Forêts Méditerranéennes (URFM), Institut National de la Recherche Agronomique (INRA), Biodiversité, Gènes & Communautés (BioGeCo), Institut National de la Recherche Agronomique (INRA)-Université de Bordeaux (UB), and Nandwani D.

Subjects

0106 biological sciences, Mediterranean climate, Marsh, geography.geographical_feature_category, Pine nuts, Range (biology), Ecology, Woodland, 15. Life on land, 010603 evolutionary biology, 01 natural sciences, Domestication, Population bottleneck, Geography, Mediterranean stone pine, Refugium (population biology), Genetic depletion, [SDE]Environmental Sciences, Orchard, 010606 plant biology & botany

Abstract

The Mediterranean stone pine is currently on its way to domestication. Its genuine Mediterranean pine nuts are among the most expensive nuts in the world because they are mainly wild-collected from pine forests and woodlands. Despite the wide current distribution of stone pine over the whole Mediterranean biome, old-growth forests are scarce, often associated locally with dynamics on lose sands, coastal dunes or former estuary marshes. The species has been found to be genetically depauperate, putatively due to a population bottleneck in a local refugium during the Last Glacial Maximum confirmed in southern Iberia, and a possibly anthropic range expansion during Holocene. Only recently, cone harvesting and processing mechanisation have allowed for profitable pine nut production from orchard plantations. In Spain and Portugal, first elite clones have been registered for their use as grafted orchard crop.

Published

2019

6. Molecular and Quantitative Genetics of Stone Pine (Pinus pinea) - cap. 3 in Genetic Diversity in Horticultural Plants

Author

S. Mutke 1, G.G Vendramin2, B. Fady3, F. Bagnoli2, and S. C González-Martínez4

Subjects

pine nuts, domestication, Mediterranean stone pine, genetic depletion

Abstract

The Mediterranean stone pine is currently on its way to domestication. Its genuine Mediterranean pine nuts are among the most expensive nuts in the world because they are mainly wild-collected from pine forests and woodlands. Despite the wide current distribution of stone pine over the whole Mediterranean biome, old-growth forests are scarce, often associated locally with dynamics on lose sands, coastal dunes or former estuary marshes. The species has been found to be genetically depauperate, putatively due to a population bottleneck in a local refugium during the Last Glacial Maximum confirmed in southern Iberia, and a possibly anthropic range expansion during Holocene. Only recently, cone harvesting and processing mechanisation have allowed for profitable pine nut production from orchard plantations. In Spain and Portugal, first elite clones have been registered for their use as grafted orchard crop. The book URL is https://www.springer.com/gp/book/9783319964539

Published

2019

7. Responses of Pinus pinea seedlings to moderate drought and shade is the provenance a differential factor?

Author

M. Pardos and R. Calama

Subjects

0106 biological sciences, Mediterranean climate, Provenance, Biomass (ecology), Phenotypic plasticity, Atitudinal gradient, Physiology, fungi, Adaptive plasticity, Plant Science, Biology, Photosynthesis, 010603 evolutionary biology, 01 natural sciences, Light-response curves, Agronomy, Heat shock, Mediterranean stone pine, Botany, Shoot, Gas exchange, Allometry, Adaptation, 010606 plant biology & botany

Abstract

The widespread Mediterranean Pinus pinea showed exceptionally low genetic diversity and low differentiation between traits in the adult phase. We explored the adaptation potential of seedlings from four main Iberian provenances during their regeneration phase. We assessed the variability of shoot growth, allometry, physiological traits, and phenotypic plasticity to the interactive effect of light and water environments during 8-month moderate water-stress cycle and after one-week heat wave. The effect of shade and drought was mainly orthogonal whatever the provenance. The inland La Mancha provenance showed higher shoot growth and biomass compared to the southern coastal Depresion-del-Guadalquivir provenance. Following the heat wave, La Mancha presented higher net photosynthetic rates, a lower decrease in maximal quantum efficiency of PSII, and a higher accumulated relative height growth, thus, showing an adaptive advantage. The observed differences corroborated the ecological grouping of the provenances along latitudinal and inland–coastal gradients. We confirmed the high adaptive plasticity of Pinus pinea to the unpredictable Mediterranean environment.

Published

2018

8. Modelling spatiotemporal dynamics of Pinus pinea cone infestation by Dioryctria mendacella

Author

Calama Sainz, Rafael Argimiro, Fortin, M., Pardos, Marta, Manso, R., Calama Sainz, Rafael Argimiro, Fortin, M., Pardos, Marta, and Manso, R.

Abstract

Insect predation on seeds of forests species during the predispersal phase is a special case of plant-pest interaction in which, while plant survival and growth is not threatened, natural regeneration can be negatively affected. In the case of seeds with a high economic value, as is the case of nuts from the Mediterranean stone pine (Pinus pinea L.), predispersal predation can also result in severe economic losses. The insect-seed relationship shows complex spatiotemporal dynamics, including patterns of dependency between fruit availability and fluctuations in insect population, occurrence of insect outbreaks, spatial contagion and masting habit. In the present study, we focus on the damage caused by a native pest, the Dioryctria mendacella Stgr. moth, to cones and seeds of P. pinea, a forest species showing a marked masting habit. We firstly identified those environmental and stand-level factors controlling the spatiotemporal pattern of damage by D. mendacella, as well as the self-regulatory effect that interannual variability in seed production could have on the population dynamics of the moth. In a second phase, we constructed a predictive phenomenological model to forecast the probability of cone damage in a given location, as well as the expected patterns of spatiotemporal spread and dispersion. Our results revealed a strong correlation between the probability of damage and crop size in a given year, pointing to a dependency between feeding resources and predator population. Additionally, the probability of damage is affected by the number of damaged cones observed in the previous year, indicating temporal contagion. Cone and seed damage is also affected by the temperature during different phases of the complex life-cycle of D. mendacella, which suggests that breakout processes are synchronized within the territory and linked to the occurrence of bumper crops and favorable climatic conditions. We detected that the level of infestation at a given location is rel

Published

2017

9. Modelling spatiotemporal dynamics of Pinus pinea cone infestation by Dioryctria mendacella

Author

Mathieu Fortin, Rubén Manso, Rafael Calama, Marta Pardos, Center for International Forestry Research (CIFOR), Sustainable Forest Management Res Inst IuFOR, Universitad de Valladolid, Laboratoire d'Etudes des Ressources Forêt-Bois (LERFoB), Ecole Nationale du Génie Rural, des Eaux et des Forêts (ENGREF)-Institut National de la Recherche Agronomique (INRA), AgroParisTech-Institut National de la Recherche Agronomique (INRA), European project FP7-KBBE-2012-311.919-STARTREE, French National Research Agency (ANR) ANR-11-LABX-0002-01 , RTA-2013-00011-C2.1 , AGL2010-15521 , AT-2013-004, and Consultative Group on International Agricultural Research [CGIAR] (CGIAR)

Subjects

0106 biological sciences, PREDICTION, [SDV]Life Sciences [q-bio], Population, INSECTS, Introduced species, Binomial mixed model, plante méditerranéenne, PREDATOR SATIATION, Management, Monitoring, Policy and Law, Biology, 010603 evolutionary biology, 01 natural sciences, Forest pest, BEETLE OUTBREAKS, cone de résineux, Predation, Mediterranean stone pine, Predator satiation, TEMPERATURES, dynamique spatiotemporelle, REGRESSION, MANAGEMENT, dioryctria, education, TEPHRITIDAE, réchauffement climatique, Nature and Landscape Conservation, Spatiotemporal correlation, education.field_of_study, CLIMATE-CHANGE, espèce indigène, Ecology, native species, Masting, fungi, Spatiotemporal pattern, food and beverages, Forestry, 15. Life on land, Seed predation, VARIABILITY, Threatened species, Pinus pinea, semence, 010606 plant biology & botany, Woody plant

Abstract

Insect predation on seeds of forests species during the predispersal phase is a special case of plant-pest interaction in which, while plant survival and growth is not threatened, natural regeneration can be negatively affected. In the case of seeds with a high economic value, as is the case of nuts from the Mediterranean stone pine (Pinus pinea L.), predispersal predation can also result in severe economic losses. The insect-seed relationship shows complex spatiotemporal dynamics, including patterns of dependency between fruit availability and fluctuations in insect population, occurrence of insect outbreaks, spatial contagion and masting habit. In the present study, we focus on the damage caused by a native pest, the Dioryctria mendacella Stgr. moth, to cones and seeds of P. pinea, a forest species showing a marked masting habit. We firstly identified those environmental and stand-level factors controlling the spatiotemporal pattern of damage by D. mendacella, as well as the self-regulatory effect that interannual variability in seed production could have on the population dynamics of the moth. In a second phase, we constructed a predictive phenomenological model to forecast the probability of cone damage in a given location, as well as the expected patterns of spatiotemporal spread and dispersion. Our results revealed a strong correlation between the probability of damage and crop size in a given year, pointing to a dependency between feeding resources and predator population. Additionally, the probability of damage is affected by the number of damaged cones observed in the previous year, indicating temporal contagion. Cone and seed damage is also affected by the temperature during different phases of the complex life-cycle of D. mendacella, which suggests that breakout processes are synchronized within the territory and linked to the occurrence of bumper crops and favorable climatic conditions. We detected that the level of infestation at a given location is related to site and environmental conditions, with no significant pattern of contagion/spreading from stands with high resource availability to those with low availability. Damage prediction under warmer climate scenarios reveals a counterbalance among favorable/unfavorable conditions for insect expansion and expected decline in cone production, resulting in only slight changes. © 2016 Elsevier B.V.

Published

2017