LIA FORESTIA

LIA FORESTIA

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LIA FORESTIA

International Associated Laboratory between INRAE (France), INTA (Argentina), UNAH (Perú) and CP (Mexico)

The LIA FORESTIA is an international associated laboratory between four research laboratories, in Argentina, the “Área de Investigación en Sistemas Forestales” of INTA Bariloche, in France, the UMR INRAE – ONF BioForA (“Biologie intégrée pour la valorisation de la diversité des arbres et de la forêt”) of INRAE Val de Loire, in Perú, the National Autonomous University of Huanta and in Mexico, the "posgrado en ciencias forestales" of the Colegio de Postgraduados, Texcoco.

Other INTA and INRAE units participate to the LIA FORESTIA:

  • In Argentina: INTA Tandil, Buenos Aires; INTA Montecarlo, Misiones; INTA Castelar, Buenos-Aires
  • In France: UMR PIAF (INRAE Clermont-Ferrand); UR FM (INRAE Avignon); UMR BIOGECO (INRAE Bordeaux); UR ZF (INRAE Val de Loire), UE GBFOR (INRAE Val de Loire).

FORESTIA stands for “Integrated study of Adaptation to (a)biotic STress of natural and planted FOREsts”

GENERAL PRESENTATION OF THE LIA FORESTIA

The LIA FORESTIA aims at investigating adaptive mechanisms and their application to forest tree breeding and silviculture. To achieve that goal, we defined specific objectives:

  • To identify relevant adaptive traits by investigating their relation with fitness (3.1)
  • To determine the functional role of these relevant adaptive traits (3.2)
  • To explore the phenotypic, genetic (quantitative and molecular) and environmental variation of the adaptive traits driving the mechanisms of adaptation in different model species submitted to various abiotic or biotic stressors (3.3)
  • To works on the design, test and validation of innovative tools and methods involved in forest tree breeding, forest management and wood quality studies (3.4)

The substance of the project is built around the hypothesis that a part of the relevant adaptive traits is directly or indirectly based on basic wood properties and annual rings. Annual rings provide convenient retrospective access to tree response to biotic and abiotic stressors. The main abiotic stressors studied by the FORESTIA LIA are drought and frost. The significance of the annual ring response can be investigated in association with major wood functions like sap conduction. Recent drought-induced diebacks associated to the climate change are opportunities to study the relationships between basic wood properties and the survival component of fitness. Annual rings offer original opportunities to study inter and intra annual phenotypic plasticity. In the end, wood studies also provide information about wood production, quantity and quality. Wood is a central study-object of the FORESTIA LIA. Consequently, the LIA elaborates technological innovations associated to wood measurement.

With the intensification of international trade and travel, an increasing number of forest pests are exotic. More forest biomass is lost to insects than to forest fires (FAO). The FORESTIA LIA would contribute to improve the knowledge of invasion pathways, adaptive traits of target pests and invasion risks via modelling studies.

Finally yet importantly, the FORESTIA LIA wants to be involved in the mitigation of the unfavourable effects of the climate change. That is why it does not only provide basic scientific knowledge but also works on the design, test and validation of innovative tools and methods involved in forest tree breeding and forest management.

The FORESTIA scientific project is strongly integrative and multi-disciplinary, with the main disciplines being wood sciences, dendro-ecology, physiology and ecophysiology, quantitative, population and molecular genetics and evolutionary biology.

The main forest tree model species are native and introduced, planted and naturally regenerated; in Argentina: Douglas-fir, ponderosa pine, cordillera cypress, four nothofagus species, four eucalyptus species, poplars and hybrid pines; in France: Douglas-fir, European larch, hybrid larch and poplars; in Peru : Haplorhus and in Mexico : Pinus hartwegii and others mountain conifers (Pinus and Abies mainly)

Focus on

ESENCIA-Bariloche_2
article

10 October 2024

By: Philippe Rozenberg

Project ESENCIA

The decentralized cooperation project ESENCIA between the Centre-Val de Loire region and the province of Río Negro in Argentina, funded by the Ministry of Europe and Foreign Affairs and the metropolis of Orléans, and which is also part of the ARD Sycomore funded by the Centre-Val de Loire region, is the latest project of the International Associated Laboratory FORESTIA
article

30 April 2024

By: Philippe Rozenberg

FORESTIA at the French-Argentina international seminar

April 26, 2024
Round-6
article

12 January 2024

By: Gregorio Ángeles-Pérez

Community-based forest management in Mexico and climate change mitigation

Pr Gregorio Ángeles-Pérez - Postgrado en Ciencias Forestales, Colegio de Postgraduados, Mexico
Round-5
article

12 January 2024

By: Véronique Jorge

Drivers of diversity structuration in black poplar (Populus nigra L.)

Dr Véronique Jorge - UMR BioForA, INRAE/ONF Orléans, France
Round-4
article

12 January 2024

By: Armando Gómez Guerrero

How vulnerable are the high mountain forests of Mexico to climate change ?

Dr Armando Gómez Guerrero - Graduate program in Forest Science, Colegio de Postgraduados, Mexico
Round-3
article

12 January 2024

By: Tatiana Boza Espinoza

High Andean Forests: challenges and opportunities

Dr Tatiana Boza Espinoza - Institute for Nature, Earth, and Energy (INTE), Pontificia Universidad Católica del Perú
Round-2
article

12 January 2024

By: Diego López Lauenstein

Drought stress tolerance strategies of Prosopis alba, a key specie from "Gran Chaco Americano"

Dr Diego López Lauenstein - Institute of Plant Physiology and Plant Genetic Resources of INTA Córdoba, Argentina
Round-1
article

12 January 2024

By: Philippe Rozenberg

Adaptation of Forests and Agroforests to Climate Change : A new large-scale, long-term, global international initiative

P. Rozenberg - BIOFORA, INRAE Orléans, France