Man

Enrique Ignacio Ostria Gallardo

Investigador Principal

Center of Advanced Studies in Arid Zones

La Serena, Chile

Líneas de Investigación


Biological Sciences; Plant Physiology; Molecular Ecophysiology

Educación

  •  Doctorado en Ciencias Biológicas, área botánica, UNIVERSIDAD DE CONCEPCION. Chile, 2015
  •  Plant Physiology, UNIVERSIDAD DE CONCEPCION. Chile, 2015

Experiencia Académica

  •   PhD Full Time

    UNIVERSIDAD DE CONCEPCION

    2012 - 2015

  •   Postdoctoral Researcher Full Time

    UNIVERSIDAD DE LA FRONTERA

    Chile

    2016 - 2019

  •   Associate Lecturer Other

    UNIVERSIDAD DE LA FRONTERA

    Ciencias Agropecuarias y Forestales

    Temuco, Chile

    2017 - 2018

  •   Professor Other

    UNIVERSIDAD DE LA SERENA

    Ciencias

    La Serena, Chile

    2018 - A la fecha

  •   Lecturer Other

    UNIVERSIDAD DE LA SERENA

    Chile

    2019 - A la fecha

Experiencia Profesional

  •   PhD student

    Universidad de Concepción

    Chile

    2010 - 2015

  •   Instructor de Asignatura Fisiología Vegetal

    Universidad de Concepción

    Chile

    2015 - 2016

  •   Profesor Participante Part Time

    Universidad de La Frontera

    Temuco, Chile

    2017 - 2018

  •   Investigador Principal Full Time

    Centro de Estudios Avanzados en Zonas Áridas

    La Serena, Chile

    2018 - A la fecha


 

Article (14)

Metabolic imprint induced by seed halo-priming promotes a differential physiological performance in two contrasting quinoa ecotypes
The role of xerophytic vegetation on fog harvest
Bacterial Modulation of the Plant Ethylene Signaling Pathway Improves Tolerance to Salt Stress in Lettuce (Lactuca sativa L.)
New Insights into Bacillus-Primed Plant Responses to a Necrotrophic Pathogen Derived from the Tomato-Botrytis Pathosystem
Preconditioning to Water Deficit Helps Aloe vera to Overcome Long-Term Drought during the Driest Season of Atacama Desert
Plant Ecophysiolomics to face the challenges of global change
A comparative gene co-expression analysis using self-organizing maps on two congener filmy ferns identifies specific desiccation tolerance mechanisms associated to their microhabitat preference
Decoding Gene Networks Modules That Explain the Recovery of Hymenoglossum cruentum Cav. After Extreme Desiccation
Seed characterization and early nitrogen metabolism performance of seedlings from Altiplano and coastal ecotypes of Quinoa
A comparative gene co-expression analysis using self-organizing maps on two congener filmy ferns identifies specific desiccation tolerance mechanisms associated to their microhabitat preference.
Decoding the gene coexpression network underlying the ability of Gevuina avellana to live in diverse light conditions
Transcriptomic analysis suggests a key role for SQUAMOSA PROMOTER BINDING PROTEIN LIKE, NAC and YUCCA genes in the heteroblastic development of the temperate rainforest tree Gevuina avellana (Proteaceae).
LIGHT ENVIRONMENT HAS LITTLE EFFECT ON HETEROBLASTIC DEVELOPMENT OF THE TEMPERATE RAIN FOREST TREE GEVUINA AVELLANA MOL. (PROTEACEAE)
Resolving distinct genetic regulators of tomato leaf shape within a heteroblastic and ontogenetic context.

Proyecto (7)

Unravelling physiological mechanisms to cope nitrogen stress in contrasting lowland quinoa landraces (Chenopodium quinoa Willd.)
An "ecophysiolomic" approach to study the genetic, metabolic and physiologic responses of photosynthesis under increasing temperature and drought: Towards a comprehensive understanding of C3 and C4 photosynthetic pathways in a changing environment.
Retroalimentación positiva para la recuperación de la vegetación xerofítica de neblina en el semiárido chileno
Formación de la Red de Fisiología en Quinoa=> Bases para el estudio del metabolismo del Nitrógeno y calidad de grano en diferentes genotipos de Chenopodium quinoa bajo condiciones de restricción hídrica.
Gene regulatory networks and gene network modules underlying desiccation tolerance of filmy ferns of hymenophyllaceae family with contrasting vertical niche preferences
EFFECT OF ACCLIMATION TO MODERATE WATER STRESS AND HIGH IRRADIANCE ON CROWN ARCHITECTURE, PHOTOSYNTHESIS, GROWTH, AND SURVIVAL OF SEEDLINGS OF EUCRYPHIA CORDIFOLIA (ULMO) IN OPEN PLANTING SITES
Sistema de integración de objetos de aprendizaje como instrumento para dinamizar el desarrollo de aplicaciones de TIC en una estructura de educación
14
Enrique Ostria

Investigador Principal

Center of Advanced Studies in Arid Zones

La Serena, Chile

1
Ana Fallard

Asistente de investigación

Agroindrustria

Universidad de La Frontera

Temuco, Chile

1
Ricardo Salvatierra

Encargado I+D

Control biológico

AgroNorte

Arica, Chile

1
Leon Bravo

Profesor Titular

Ciencias Agronómicas y Recursos Naturales

UNIVERSIDAD DE LA FRONTERA

Temuco, Chile

1
Giovanni Larama

Asistente de Investigación

Universidad de La Frontera

Temuco, Chile

1
Teodoro Coba

Investigador Titular indefinido

BIOTEC

CORPORACION CENTRO DE ESTUDIOS AVANZADOS EN ZONAS ARIDAS

La Serena, Chile