1. Inicio
  2. Instituto de Ciencias Agroalimentarias, Animales y Ambientales
  3. Proyectos

Proyectos

Ordenar Resultados
Filtrar por autor
    • Filtrar por Categoría
    Filtrar por tema de intéres
    • Enero 2021 - Marzo 2024
    FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID

    TRANSPORT -Experimental and Modeling- of antimicrobials in soils

    [vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""].[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]
    Co-Investigador/a
    • Enero 2021 - Marzo 2024
    FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID

    TRANSPORT -Experimental and Modeling- of antimicrobials in soils

    [vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""].[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]
    Co-Investigador/a
    • Diciembre 2020 - Marzo 2022
    FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID

    Generación de capital social entre los productores apícolas y la universidad de O’Higgins, para mejorar el estatus sanitario y epidemiológico de las colmenas de la región de O’Higgins

    [vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""]El objetivo es diseñar e implementar una estrategia transdisciplinaria de vinculación entre los apicultores de la región y la Universidad de O'Higgins, que permita construir una “Hoja de Ruta” para resolver las brechas existentes en el sector y definir las líneas de investigación aplicada a desarrollarse. Esto permitirá mejorar la asociatividad de los apicultores, mejorar la salud de las colmenas, los servicios de polinización y por ende la productividad apícola regional.[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]
    Co-Investigador/a
    • Diciembre 2020 - Marzo 2022
    FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID

    Generación de capital social entre los productores apícolas y la universidad de O’Higgins, para mejorar el estatus sanitario y epidemiológico de las colmenas de la región de O’Higgins

    [vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""]El objetivo es diseñar e implementar una estrategia transdisciplinaria de vinculación entre los apicultores de la región y la Universidad de O'Higgins, que permita construir una “Hoja de Ruta” para resolver las brechas existentes en el sector y definir las líneas de investigación aplicada a desarrollarse. Esto permitirá mejorar la asociatividad de los apicultores, mejorar la salud de las colmenas, los servicios de polinización y por ende la productividad apícola regional.[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]
    Co-Investigador/a
    • Diciembre 2020 - Marzo 2022
    FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID

    Generación de capital social entre los productores apícolas y la universidad de O’Higgins, para mejorar el estatus sanitario y epidemiológico de las colmenas de la región de O’Higgins

    [vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""]El objetivo es diseñar e implementar una estrategia transdisciplinaria de vinculación entre los apicultores de la región y la Universidad de O'Higgins, que permita construir una “Hoja de Ruta” para resolver las brechas existentes en el sector y definir las líneas de investigación aplicada a desarrollarse. Esto permitirá mejorar la asociatividad de los apicultores, mejorar la salud de las colmenas, los servicios de polinización y por ende la productividad apícola regional.[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]
    Investigador/a Responsable
    • Diciembre 2020 - Marzo 2022
    FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID

    Generación de capital social entre los productores apícolas y la universidad de O’Higgins, para mejorar el estatus sanitario y epidemiológico de las colmenas de la región de O’Higgins

    [vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""]El objetivo es diseñar e implementar una estrategia transdisciplinaria de vinculación entre los apicultores de la región y la Universidad de O'Higgins, que permita construir una “Hoja de Ruta” para resolver las brechas existentes en el sector y definir las líneas de investigación aplicada a desarrollarse. Esto permitirá mejorar la asociatividad de los apicultores, mejorar la salud de las colmenas, los servicios de polinización y por ende la productividad apícola regional.[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]
    Investigador/a Responsable
    • Diciembre 2020
    En Ejecución

    Liofilizador Labconco para el procesamiento de muestras de origen animal y vegetal

    [vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""][/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]
    Co-Investigador/a
    • Diciembre 2020
    En Ejecución

    Liofilizador Labconco para el procesamiento de muestras de origen animal y vegetal

    [vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""][/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]
    Co-Investigador/a
    • Noviembre 2020 - Octubre 2023
    FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID

    Peach (Prunus persica) Pathogen Recognizing Receptors (PRR) and their role in pathogen resistance

    [vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""]Crop pests and diseases lead to massive production loss, creating a global food supply and economic loss. Modern agriculture controls diseases by extensive application of chemicals, however this strategy brings undesired effects, such as human health problems by exposure to these chemicals, environmental contamination and development of pesticide resistant pathogens. Agricultural industry is an economically important activity in Chile, compromising close to 10% of the labor force. The fruit industry (excluding table grapes) corresponds to 8.5% of the arable lands (342,654.2 hectares), where Prunus persica (peach and nectarines, called hereinafter as Peach) has an important place. Peach orchards are affected by several diseases such as, bacterial canker caused by the bacteria Pseudomonas syringae and brown rot blossom blight caused by the fungi Monilinia fructicola and M. laxa, which are controlled mainly by using pesticides. In this context, the need to better understand peach immunity has arisen for developing alternative or supplementary strategies to control crop diseases. Plant immunity relies on the capacity of each individual cell to recognize pathogen threat, through cell surface and intracellular receptors, initiating immune responses to defend themselves. Cell surface receptors are called Pattern Recognition Receptors (PRRs) by their ability of recognizing characteristic microbial-derived molecules called microbe-associated molecular patterns (MAMPs). Upon MAMP recognition Pattern Triggered Immunity (PTI) is activated, defense responses are elicited enabling the plant to ward off pathogen colonization. MAMPs are distinctive molecules present in bacteria or fungi, non-strain specific, such as bacterial flagellin and fungal endoxylanases, which are recognized by specific PRRs, forming the MAMP/PRR recognition system that triggers the defense. The presence of PRRs is tightly correlated with higher broad pathogen resistance. In fact, transgenic Citrus sinensis, Medicago truncatula, Triticum avium, Nicotiana benthamiana, and Solanum lycopersicum carrying exogenous PRR present higher pathogen resistance. Moreover, Quantitative Trait Loci (QTL) linking resistance to pathogens with PRRs in Phaseolus vulgaris and Hordeum vulgare. These evidences highlight the potential of exploiting MAMP/PRR recognition system in modern agriculture. We are focused to study in Peach two well described MAMP/PRR recognition model systems: flg22/FLS2 and xyn11/LeEIX2 recognition system. In the case of Flg22/FLS2 recognition system a conserved flagellin peptide, named flg22, is recognized by the PRR FLS2, activating oxidative burst, hormone production and transcriptional activation of Pathogen related (PR) genes. In xyn11/LeEIX2 recognition system a conserved peptide of endoxylanases type 11, named hereinafter xyn11, is recognized by the PRR EIX2, activating oxidative burst, ethylene production, expression of PR proteins and hypersensitive response. These recognition systems are agriculturally important because they can recognize the bacteria Bacillus sp, Pseudomonas sp and Xanthomonas sp and the fungi Trichoderma viridea and Botrytis cinerea. Remarkably, Bacterial Canker caused by Pseudomonas syringae is a current problem for Peach crops in Chile, as well, grey mold caused by Botrytis cinerea infection is a common post-harvesting disease for fruits. Peach immunity is poorly described, however transcriptomic analysis showed more than 20 PRR like proteins induced by Xanthomonas arboricola infection and QTL analysis have identified two RLK genes associated to peach resistance against Monilinia spp, the causal agent of brown rot blossom blight, one of the most economically important peach diseases. However, no functional analyses have described MAMP/PRR recognition systems in peach to date. We expect to generate novel and valuable information regarding Peach immunity, characterizing peach flg22/FLS2 and xyn11/LeEIX2 recognition systems, as well as the defense responses triggered by them and their involvement in resistance to Pseudomonas syringae and Botrytis ciniera. In addition, we will explore whether these recognition systems, particularly xyn11/LeEIX2 participate in Monilinia spp recognition.[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]
    Investigador/a Responsable
    • Noviembre 2020 - Octubre 2023
    FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID

    Peach (Prunus persica) Pathogen Recognizing Receptors (PRR) and their role in pathogen resistance

    [vc_section el_class="container mx-auto align-items-center circle--pattern" css=".vc_custom_1648956589196{padding-top: 3rem !important;}"][vc_row el_class="pb-5"][vc_column][vc_wp_custommenu nav_menu="6"][uoh_breadcrumb_component automatic_breadcrumb="true"][uoh_title_component title_dropdown="big" title_decorator="true"]{{title}}[/uoh_title_component][vc_column_text css=""]Crop pests and diseases lead to massive production loss, creating a global food supply and economic loss. Modern agriculture controls diseases by extensive application of chemicals, however this strategy brings undesired effects, such as human health problems by exposure to these chemicals, environmental contamination and development of pesticide resistant pathogens. Agricultural industry is an economically important activity in Chile, compromising close to 10% of the labor force. The fruit industry (excluding table grapes) corresponds to 8.5% of the arable lands (342,654.2 hectares), where Prunus persica (peach and nectarines, called hereinafter as Peach) has an important place. Peach orchards are affected by several diseases such as, bacterial canker caused by the bacteria Pseudomonas syringae and brown rot blossom blight caused by the fungi Monilinia fructicola and M. laxa, which are controlled mainly by using pesticides. In this context, the need to better understand peach immunity has arisen for developing alternative or supplementary strategies to control crop diseases. Plant immunity relies on the capacity of each individual cell to recognize pathogen threat, through cell surface and intracellular receptors, initiating immune responses to defend themselves. Cell surface receptors are called Pattern Recognition Receptors (PRRs) by their ability of recognizing characteristic microbial-derived molecules called microbe-associated molecular patterns (MAMPs). Upon MAMP recognition Pattern Triggered Immunity (PTI) is activated, defense responses are elicited enabling the plant to ward off pathogen colonization. MAMPs are distinctive molecules present in bacteria or fungi, non-strain specific, such as bacterial flagellin and fungal endoxylanases, which are recognized by specific PRRs, forming the MAMP/PRR recognition system that triggers the defense. The presence of PRRs is tightly correlated with higher broad pathogen resistance. In fact, transgenic Citrus sinensis, Medicago truncatula, Triticum avium, Nicotiana benthamiana, and Solanum lycopersicum carrying exogenous PRR present higher pathogen resistance. Moreover, Quantitative Trait Loci (QTL) linking resistance to pathogens with PRRs in Phaseolus vulgaris and Hordeum vulgare. These evidences highlight the potential of exploiting MAMP/PRR recognition system in modern agriculture. We are focused to study in Peach two well described MAMP/PRR recognition model systems: flg22/FLS2 and xyn11/LeEIX2 recognition system. In the case of Flg22/FLS2 recognition system a conserved flagellin peptide, named flg22, is recognized by the PRR FLS2, activating oxidative burst, hormone production and transcriptional activation of Pathogen related (PR) genes. In xyn11/LeEIX2 recognition system a conserved peptide of endoxylanases type 11, named hereinafter xyn11, is recognized by the PRR EIX2, activating oxidative burst, ethylene production, expression of PR proteins and hypersensitive response. These recognition systems are agriculturally important because they can recognize the bacteria Bacillus sp, Pseudomonas sp and Xanthomonas sp and the fungi Trichoderma viridea and Botrytis cinerea. Remarkably, Bacterial Canker caused by Pseudomonas syringae is a current problem for Peach crops in Chile, as well, grey mold caused by Botrytis cinerea infection is a common post-harvesting disease for fruits. Peach immunity is poorly described, however transcriptomic analysis showed more than 20 PRR like proteins induced by Xanthomonas arboricola infection and QTL analysis have identified two RLK genes associated to peach resistance against Monilinia spp, the causal agent of brown rot blossom blight, one of the most economically important peach diseases. However, no functional analyses have described MAMP/PRR recognition systems in peach to date. We expect to generate novel and valuable information regarding Peach immunity, characterizing peach flg22/FLS2 and xyn11/LeEIX2 recognition systems, as well as the defense responses triggered by them and their involvement in resistance to Pseudomonas syringae and Botrytis ciniera. In addition, we will explore whether these recognition systems, particularly xyn11/LeEIX2 participate in Monilinia spp recognition.[/vc_column_text][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649209804184{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5"][vc_row el_class="container mx-auto align-items-center p-md-0 pt-5"][vc_column el_class="p-0"][/vc_column][/vc_row][/vc_section][vc_section css=".vc_custom_1649210787516{background-color: #f6faff !important;}" el_class="p-md-0 pt-md-5 pb-md-5"][vc_row el_class="container mx-auto align-items-center"][vc_column][/vc_column][/vc_row][/vc_section]
    Investigador/a Responsable