Proyectos
- Abril 2021 - Diciembre 2021
Adjudicado
Primeros pasos humanos en América del Sur: caminando entre Gonfoterios Chile
La Fundación financió las excavaciones arqueológicas y paleontológicas del yacimiento Tagua Tagua 3
Investigador/a Responsable
- Abril 2021 - Enero 1970
En Ejecución
Stochasticity aspects in bilevel games and applications to water resource management
Responsable Alterno
- 3210735
- Abril 2021 - Abril 2024
FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID
Stochasticity aspects in bilevel games and applications to water resource management
Stochasticity in optimization and game theory is a very important aspect to model more accurately real-world problems in many different areas (see for instance [6]). In optimization problems as well as in one-level games, namely, Nash equilibrium problems, stochasticity aspects have received quite a lot of attention for a while and have also been well studied [22]. However, for the branch of bilevel games quite few studies have included in their analysis stochastic aspects in their models.
A bilevel game is basically to split a finite set of players into two levels: the leaders or upper-level players, and the followers or lower-level players. In the model, the followers react in a passive way to the leaders' actions, while the
leaders compete in the upper level trying to actively anticipate the followers' reaction. Moreover, in each level, the interaction is non-cooperative as in Nash equilibrium problems. Bilevel games have been recognized as one of the most complex and at the same time very useful models in the literature [17].
Bilevel games, and more precisely the problem of the leaders in a bilevel game, face an ambiguity/uncertainty whenever the followers' reaction is not necessarily uniquely determined for each leaders' decision. To deal with this ambiguity two main approaches are well-known the optimistic and the pessimistic. The weakness of these two approaches is that both are quite extreme and the optimistic one lacks of real modeling foundations, putting the leaders in a quite naive position.
Recently, in [9] a general stochastic approach has been proposed to solve this ambiguity, which is seen as an uncertainty of the problem, providing also a specific approach that seems to be more reasonable than the optimistic one, from a modeling point of view. The stochasticity in the stochastic approach is an endogenous one since it corresponds to a decision-dependent uncertainty [1, 23].
But, of course, stochasticity might also come from an exogenous side, that is, when some of the parameters defining the game, such as future demand and prices, 1 forecasts of winds and clouds, are uncertain and possibly follow some probability distribution. This has been considered in [34, 12, 13, 16].
In the second part of the project, which is the applied part, we are interested in using the developed theoretical framework of bilevel games with stochastic aspects to a problem of contaminated water resource management, which has high levels of stochasticity.
The scarcity of water resource and its efficient use has been recognized as an extremely important problem in Chile and the whole world, for agricultural, industrial, and human use. Moreover, after any use, there is an outflow of water
which has generally more contaminants than the inflow. Depending on the type and quantity of contaminants the outflow of water could be reused, but sometimes giving less profit to the entity. The general situation is full of uncertainties, since the entities do not share their information. Moreover, the main source of information for us will be
measurements on the quality of water at different strategic points and punctual events of contamination registered by inspection, which is simply a qualitative data.
Therefore, we propose first to apply predictive models and machine learning to do inverse engineering in order to understand the game played by the different actors. Then we want to study the underlying one-level game and study the design of mechanisms (bilevel game) so that we can move the equilibrium to a desired goal. In a somehow similar spirit, in [30, 31, 10] game theory techniques have been used to analyze the behavior of companies sharing contaminated water in the context of eco-industrial parks, while in [36] also a bilevel model is used for a water resource optimal allocation problem.
Patrocinante
- Abril 2021 - Mayo 2022
Finalizado
Generación de capital social entre los productores apícolas de la región y la Universidad de OHiggins
Participación en el rol de académica- Investigadora experta en entomología dentro del Comité de coordinación regional
(no está el rol definido por eso aparece como co-inv))
Objetivo general del proyecto
Diseñar e implementar una estrategia transdisciplinaria de vinculación entre
los apicultores de la región y la Universidad de OHiggins, que permita construir una
Hoja de Ruta para resolver las brechas existentes en el sector y definir las líneas de
invesDgación aplicada a desarrollarse
Investigador/a Responsable
- Abril 2021 - Mayo 2022
Finalizado
Generación de capital social entre los productores apícolas de la región y la Universidad de OHiggins
Participación en el rol de académica- Investigadora experta en entomología dentro del Comité de coordinación regional
(no está el rol definido por eso aparece como co-inv))
Objetivo general del proyecto
Diseñar e implementar una estrategia transdisciplinaria de vinculación entre
los apicultores de la región y la Universidad de OHiggins, que permita construir una
Hoja de Ruta para resolver las brechas existentes en el sector y definir las líneas de
invesDgación aplicada a desarrollarse
Co-Investigador/a
- Abril 2021 - Abril 2024
FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID
Interactive effect of organic-mineral amendments and core microbiome in restoration of abandoned mine tailings: promoting ecological processes and natural resilience
Mining activities have discharged large amounts of wastes or mine tailings to the environment, which represent an important environmental issue. Mine tailings are mainly characterised by poor physicochemical properties that limit the plant establishment and development. The most negative property in these mine wastes is the high content of metals and metalloids [metal(loid)s], which are often highly toxic due to acid pH that increases metal(loid) bioavailability. This negatively affects living organisms and ecological functioning since soil microorganisms are pioneer colonisers that mediate the plant establishment. Also, mine tailings are usually deposited in abandoned locations of large land cover; from where, due to their physical characteristics, they can be transported by air and water, affecting communities and the environment in surrounding areas. There are several industrial strategies focused on the physical and chemical management of mine tailings, but these are highly expensive and occasionally not effective. These strategies have not been suitable techniques to reduce negative impacts of mine tailings on the environment. In this context, biological approaches, such as phytoremediation, have been proposed as more appropriate strategies due to low cost, easy applicability, and promising results. Nevertheless, most of the studies focused on phytoremediation of mine tailings, especially Chilean studies, have been performed in laboratory conditions. Although these studies show promising conclusions, in many cases unsuccessful results are obtained at field conditions, mainly due to laboratory experiments do not consider the dynamic field variability and potential ecological interactions.
Based on the above, the proposed research aims to evaluate the effect of the initial addition of organic-mineral amendments and the bioaugmentation of microbial communities with core microbiome from the root-zone of native herbaceous on the growth and development of native plants and microbial communities at copper mine tailings. We hypothesise that the growth and development of native plants in mine tailings will be promoted by the improvement of physicochemical properties of modified mine tailings (incipient technosols) through the addition of organic-mineral amendments, and the bioaugmentation of microbial communities with core microbiome involved in plant fitness obtained from copper mine tailings and surrounding soils.
To evaluate the mentioned hypothesis, this study will be executed in three phases: 1) Initial field characterisation: this will be done for mine tailings and soils under sclerophyllous forest; 2) Collection and recruitment of core microbiome: this will study the composition, function, and interactions of core microbiome obtained from the root-zone of native herbaceous established on mine tailings and soils under sclerophyllous forest, by which a laboratory-scale assay it is needed to produce inoculum of such ecological units (cores); 3) Restoration field experiment: this consists on the field establishment of native herbaceous species by bioaugmentation with core microbiome from root-zone mine tailings and root-zone soil on incipient technosols produced by the addition of organic-mineral amendments on mine tailings. These phases are designed to be performed in three years.
This study can provide insights of the promotion of ecological process and natural resilience on microbial communities of mine tailings and surroundings, which can allow the initial plant establishment a development for later possible plant recruitment from the native sclerophyllous forest. This would also evaluate whether mine tailings can be in situ managed instead of been totally removed, which implies high costs and workflow to enterprises. Additionally, this study would represent the first approach of the evaluation of the biological functioning and composition of microbial communities from root-zone mine tailings in Chile, from its current state to the subsequent restoration process.
Patrocinante
- Abril 2021 - Abril 2024
FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID
Interactive effect of organic-mineral amendments and core microbiome in restoration of abandoned mine tailings: promoting ecological processes and natural resilience
Mining activities have discharged large amounts of wastes or mine tailings to the environment, which represent an important environmental issue. Mine tailings are mainly characterised by poor physicochemical properties that limit the plant establishment and development. The most negative property in these mine wastes is the high content of metals and metalloids [metal(loid)s], which are often highly toxic due to acid pH that increases metal(loid) bioavailability. This negatively affects living organisms and ecological functioning since soil microorganisms are pioneer colonisers that mediate the plant establishment. Also, mine tailings are usually deposited in abandoned locations of large land cover; from where, due to their physical characteristics, they can be transported by air and water, affecting communities and the environment in surrounding areas. There are several industrial strategies focused on the physical and chemical management of mine tailings, but these are highly expensive and occasionally not effective. These strategies have not been suitable techniques to reduce negative impacts of mine tailings on the environment. In this context, biological approaches, such as phytoremediation, have been proposed as more appropriate strategies due to low cost, easy applicability, and promising results. Nevertheless, most of the studies focused on phytoremediation of mine tailings, especially Chilean studies, have been performed in laboratory conditions. Although these studies show promising conclusions, in many cases unsuccessful results are obtained at field conditions, mainly due to laboratory experiments do not consider the dynamic field variability and potential ecological interactions.
Based on the above, the proposed research aims to evaluate the effect of the initial addition of organic-mineral amendments and the bioaugmentation of microbial communities with core microbiome from the root-zone of native herbaceous on the growth and development of native plants and microbial communities at copper mine tailings. We hypothesise that the growth and development of native plants in mine tailings will be promoted by the improvement of physicochemical properties of modified mine tailings (incipient technosols) through the addition of organic-mineral amendments, and the bioaugmentation of microbial communities with core microbiome involved in plant fitness obtained from copper mine tailings and surrounding soils.
To evaluate the mentioned hypothesis, this study will be executed in three phases: 1) Initial field characterisation: this will be done for mine tailings and soils under sclerophyllous forest; 2) Collection and recruitment of core microbiome: this will study the composition, function, and interactions of core microbiome obtained from the root-zone of native herbaceous established on mine tailings and soils under sclerophyllous forest, by which a laboratory-scale assay it is needed to produce inoculum of such ecological units (cores); 3) Restoration field experiment: this consists on the field establishment of native herbaceous species by bioaugmentation with core microbiome from root-zone mine tailings and root-zone soil on incipient technosols produced by the addition of organic-mineral amendments on mine tailings. These phases are designed to be performed in three years.
This study can provide insights of the promotion of ecological process and natural resilience on microbial communities of mine tailings and surroundings, which can allow the initial plant establishment a development for later possible plant recruitment from the native sclerophyllous forest. This would also evaluate whether mine tailings can be in situ managed instead of been totally removed, which implies high costs and workflow to enterprises. Additionally, this study would represent the first approach of the evaluation of the biological functioning and composition of microbial communities from root-zone mine tailings in Chile, from its current state to the subsequent restoration process.
Investigador/a Responsable
- 1210841
- Abril 2021 - Marzo 2025
FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID
UTILIZATION OF PHOTO-FENTON AND ULTRASOUND PROCESSES IN THE DEPURATION OF LANDFILL LEACHATE
The importance of water for life is indisputable. Nevertheless, water quality and availability are affected by
increases in consumption and climate change. Indeed, several areas of Chile are suffering acute water
scarcity. Consequently, there is a critical need to develop efficient technologies for wastewater recovery.
However, considerations must be given to the fact that some wastewaters have toxic recalcitrant pollutants
requiring complex treatments, such as landfill leachate (LL). The general goal of the project is to evaluate
the viability of experimentally improving LL quality by conjointly using the solar photo-Fenton process and
ultrasound (US), thereby enhancing photocatalysis, ultimately reducing wastewater toxicity.
The specific goals are to (i) measure the H2O2 and UV irradiation produced by US in LL (laboratory scale);
(ii) evaluate the hydroxyl radicals generated during treatment processes (laboratory scale); (iii) maximize
organic-pollutant removal in LL by defining the optimal operating conditions for the photo-Fenton/US process
(laboratory scale); (iv) maximize organic-pollutant removal in LL by defining optimal US power/frequency in
the sonolytic process (pilot-plant scale); and (v) evaluate toxicity elimination and energy consumption in LL
treatments with solar-photocatalytic and US processes (laboratory and pilot-plant scales). The proposed
investigation will use a scientific methodology, developing reproducible methods to observe the effects of
diverse parameters, all with a focus on maximizing contaminants removal. To characterize LL, several
parameters will be evaluated, including chemical oxygen demand, biological oxygen demand, total organic
carbon, total dissolved nitrogen, pH, metals, ammonia, colour, biodegradability, toxicity, total suspended
solids, conductivity and humic acid.
To determine the amount of H2O2 generated by US in a simulated LL, a set of experiments will be run
to produce the sonochemical process, applying different US frequencies (100 kHz, 200 kHz and 300 kHz)
and powers (100 W, 170 W and 250 W), thus obtaining the kinetic reaction to H2O2 production. The
amount of UV irradiation formed due to sonoluminescence will be quantified in the same beaker in
the simulated LL. Sonoluminescence intensity during the runs will be measured using a spectro-radiometer.
To evaluate the hydroxyl radicals (·OH) generated in the simulated LL during treatment processes,
a method based on the oxidation of 2-proponol will be used. To determine the optimal operating
conditions for the photo-Fenton/US process to maximize the removal of organic pollutants
present in the simulated LL, a set of experiments will be carried out in the same photoreactor (1 L),
applying different reagent concentrations, treatment times, and pH levels. To establish optimal US power
and frequency in the sonolytic process to maximize the removal of organic pollutants present in
a real LL (after its pretreatment), a set of runs will be carried out at pilot-plant scale in a solar
photoreactor compound parabolic concentrator (CPC; 12 L useful volume). To evaluate toxicity
elimination from the real LL an Aliivibrio fischeri test, respirometer assay, and phytotoxicity assay will be
used, followed by determining median effective concentrations (EC50) according to the Probit model. Since a
main disadvantage of the proposed treatments is high-energy consumption, specific energy consumption
(SEC) and electrical energy per order (EEO) will be determined for all processes. All experiments will be done
in triplicate, and filtration and coagulation/flocculation processes as a pretreatment will be used prior to all
runs. The expected results of the proposed project are to (i) obtain new knowledge related to joint photo-
Fenton and ultrasound wastewater treatments, (ii) demonstrate treatment synergies, and (iii) validate the
use of advanced oxidation processes for improving LL. Project results will be reported in papers, through
thesis work, and at scientific congresses, strengthening national and international research networks.
Co-Investigador/a
- ANID/FONDECYT/1210331
- Abril 2021 - Marzo 2024
FinalizadoAgencia Nacional de Investigación y Desarrollo - ANID
¿Ciudadanías extractivas? Prácticas ciudadanas en territorios rurales
Esta investigación se propone explorar el concepto de ciudadanía extractiva para comprender cómo la
reconfiguración de los espacios políticos y nuevas formas de ciudadanía desde lo rural incide en las
dinámicas entre empresas, Estado y comunidades rurales. Nuestra pregunta de investigación es ¿cómo
incide la frontera de recursos en la ciudadanía extractiva observable en territorios rurales de Chile? En ese
sentido, se sitúa en la intersección en la geografía crítica y los estudios agrarios críticos para analizar la
agencia de habitantes rurales en la reconfiguración espacio-temporal de los regímenes de control de
recursos naturales en espacios rurales a partir de la localización de cadenas globales de valor. Así, busca
contribuir a la geografía chilena con sustento empírico a nuevas entradas conceptuales, para revitalizar
el debate sobre ruralidad en territorios globalizados. La hipótesis que exploraremos en el trabajo de
campo postula que las fronteras de recursos inciden en tres dimensiones de la experiencia territorial rural
gobernanza, anclaje y simbólica, lo que lleva a los habitantes sujetos rurales a reformular sus prácticas
políticas en términos de argumentación, participación, movilización y legitimación, y que desde ellas y en
conjunto configuran ciudadanías extractivas.
2. OBJETIVOS. Esta investigación se propone, como objetivo general, caracterizar el vínculo entre
fronteras de recursos y ciudadanía extractiva observables en las fronteras de recursos en territorios rurales
en Chile, y como objetivos específicos: (1) Caracterizar la configuración espacial de fronteras de
recursos de los casos elegidos y el modo en que modifican los mecanismos de acceso y control de la
naturaleza entre distintos actores; (2) Identificar los espacios y mecanismos de articulación donde
habitantes rurales ejercen formas de ciudadanía extractiva; y (3) Comprender los efectos simbólicos de la
interacción entre las cadenas de valor y los habitantes rurales sobre prácticas de ciudadanía extractiva.
3. METODOLOGÍA. El proyecto se posiciona epistemológicamente desde la geografía crítica y la ecología
política, lo que implica el uso de técnicas mixtas cuantitativas, cualitativas y espaciales tales como
análisis estadístico, observación participante, etnografía, entrevistas y cartografías participativas. Se ha
definido un marco temporal de 30 años (1990-2020), dado que es el periodo de expansión y consolidación
de la lógica de cadenas de valor en los territorios en estudio. Para responder la pregunta de investigación
se identifica dos tipos distintos de redes globales presentes en territorios rurales de Chile, industria vinícola
e industria salmonera, en donde se realizará trabajo de campo para obtener evidencia empírica que
permita corroborar o refutar la hipótesis planteada. Estos dos casos buscan representar diversos tipos de
ruralidad e inserción global para identificar una variedad de territorios en Chile. Además, estos territorios
son representativos de trayectorias diversas de interacción con el Estado y el sistema político, que van
desde la radicación de pioneros promovida mediante incentivos entregados por el Estado en la Patagonia,
al sistema de hacienda y clientelismo marcado por la reforma agraria de la zona central.
4. RESULTADOS ESPERADOS. Desde un punto de vista disciplinar, esperamos comprobar la capacidad
explicativa del concepto de Ciudadanía extractiva, para entender las transformaciones rurales derivadas
de la expansión de fronteras de recursos. Ello debiese traducirse en publicaciones científicas (al menos 3
publicadas en revistas indexadas disciplinares), formación de tesistas (4), y actividades y material de
difusión que fortalezcan el diálogo con la sociedad civil involucrada.
Co-Investigador/a
- Abril 2021 - Marzo 2025
En Ejecución
Understanding and modeling visual numerosity perception
Investigador/a Responsable








