Biomonitoring is the process of systematically observing, measuring, and analysing the physiological, biochemical, molecular, and genetic responses of living organisms to environmental changes, thus providing qualitative or quantitative information on the state of the environment. It includes the use of various bioindicators, biomonitors, bioaccumulators, and biomarkers.

Ecophysiology studies the physiological processes in living beings that are a response to changes in the external environment and that are fundamental to understanding the mechanisms and interactions that underlie the adaptive strategies of organisms. The effect of climate change, the presence of various pollutants, the availability of nutrients, and habitat degradation are some of those influences that are studied.

Ecotoxicology studeies the toxic effects of chemicals on the environment. The effects are studied at the level of molecules, cells, tissues, organs, individual organisms, populations or ecosystems.

Animal physiology studies how biological processes work, how they operate under different environmental conditions, and how these processes are regulated and integrated. They can be studied at different levels of organisation, from organelles and cell membranes to cells, tissues, organ systems, and the whole animal, both during development and in adulthood.

Climate change is an all-encompassing and growing global threat to biodiversity and ecosystems. It directly leads to phenological, physiological, morphological, and ethological changes, the spread of invasive species, and a decrease in the number of native species and their extinction. Changed climatic conditions affect habitat quality, resulting in changes in the distribution of species and communities. In order to mitigate the effects of climate change on the environment, it is necessary to predict and understand their impact on the living world.

Redox biology is the study of all aspects of biology mediated or influenced by biochemical processes involving reduction (gain of electrons) and oxidation (loss of electrons). Redox homeostasis is central to the basic functions of life, including metabolism and respiration, and when altered it can promote the progression of disease and ageing.

Environmental protection comprises reduction or prevention of pollution, negative impacts on the environment, damage caused to ecosystems or natural resources caused by human activities.

Biomonitoring is the process of systematically observing, measuring, and analysing the physiological, biochemical, molecular, and genetic responses of living organisms to environmental changes, thus providing qualitative or quantitative information on the state of the environment. It includes the use of various bioindicators, biomonitors, bioaccumulators, and biomarkers.

Ecophysiology studies the physiological processes in living beings that are a response to changes in the external environment and that are fundamental to understanding the mechanisms and interactions that underlie the adaptive strategies of organisms. The effect of climate change, the presence of various pollutants, the availability of nutrients, and habitat degradation are some of those influences that are studied.

Ecotoxicology studeies the toxic effects of chemicals on the environment. The effects are studied at the level of molecules, cells, tissues, organs, individual organisms, populations or ecosystems.

Animal physiology studies how biological processes work, how they operate under different environmental conditions, and how these processes are regulated and integrated. They can be studied at different levels of organisation, from organelles and cell membranes to cells, tissues, organ systems, and the whole animal, both during development and in adulthood.

Climate change is an all-encompassing and growing global threat to biodiversity and ecosystems. It directly leads to phenological, physiological, morphological, and ethological changes, the spread of invasive species, and a decrease in the number of native species and their extinction. Changed climatic conditions affect habitat quality, resulting in changes in the distribution of species and communities. In order to mitigate the effects of climate change on the environment, it is necessary to predict and understand their impact on the living world.

Redox biology is the study of all aspects of biology mediated or influenced by biochemical processes involving reduction (gain of electrons) and oxidation (loss of electrons). Redox homeostasis is central to the basic functions of life, including metabolism and respiration, and when altered it can promote the progression of disease and ageing.

Environmental protection comprises reduction or prevention of pollution, negative impacts on the environment, damage caused to ecosystems or natural resources caused by human activities.

Biomonitoring is the process of systematically observing, measuring, and analysing the physiological, biochemical, molecular, and genetic responses of living organisms to environmental changes, thus providing qualitative or quantitative information on the state of the environment. It includes the use of various bioindicators, biomonitors, bioaccumulators, and biomarkers.

Ecophysiology studies the physiological processes in living beings that are a response to changes in the external environment and that are fundamental to understanding the mechanisms and interactions that underlie the adaptive strategies of organisms. The effect of climate change, the presence of various pollutants, the availability of nutrients, and habitat degradation are some of those influences that are studied.

Ecotoxicology studeies the toxic effects of chemicals on the environment. The effects are studied at the level of molecules, cells, tissues, organs, individual organisms, populations or ecosystems.

Animal physiology studies how biological processes work, how they operate under different environmental conditions, and how these processes are regulated and integrated. They can be studied at different levels of organisation, from organelles and cell membranes to cells, tissues, organ systems, and the whole animal, both during development and in adulthood.

Climate change is an all-encompassing and growing global threat to biodiversity and ecosystems. It directly leads to phenological, physiological, morphological, and ethological changes, the spread of invasive species, and a decrease in the number of native species and their extinction. Changed climatic conditions affect habitat quality, resulting in changes in the distribution of species and communities. In order to mitigate the effects of climate change on the environment, it is necessary to predict and understand their impact on the living world.

Redox biology is the study of all aspects of biology mediated or influenced by biochemical processes involving reduction (gain of electrons) and oxidation (loss of electrons). Redox homeostasis is central to the basic functions of life, including metabolism and respiration, and when altered it can promote the progression of disease and ageing.

Environmental protection comprises reduction or prevention of pollution, negative impacts on the environment, damage caused to ecosystems or natural resources caused by human activities.

Biomonitoring is the process of systematically observing, measuring, and analysing the physiological, biochemical, molecular, and genetic responses of living organisms to environmental changes, thus providing qualitative or quantitative information on the state of the environment. It includes the use of various bioindicators, biomonitors, bioaccumulators, and biomarkers.

Ecophysiology studies the physiological processes in living beings that are a response to changes in the external environment and that are fundamental to understanding the mechanisms and interactions that underlie the adaptive strategies of organisms. The effect of climate change, the presence of various pollutants, the availability of nutrients, and habitat degradation are some of those influences that are studied.

Ecotoxicology studeies the toxic effects of chemicals on the environment. The effects are studied at the level of molecules, cells, tissues, organs, individual organisms, populations or ecosystems.

Animal physiology studies how biological processes work, how they operate under different environmental conditions, and how these processes are regulated and integrated. They can be studied at different levels of organisation, from organelles and cell membranes to cells, tissues, organ systems, and the whole animal, both during development and in adulthood.

Climate change is an all-encompassing and growing global threat to biodiversity and ecosystems. It directly leads to phenological, physiological, morphological, and ethological changes, the spread of invasive species, and a decrease in the number of native species and their extinction. Changed climatic conditions affect habitat quality, resulting in changes in the distribution of species and communities. In order to mitigate the effects of climate change on the environment, it is necessary to predict and understand their impact on the living world.

Redox biology is the study of all aspects of biology mediated or influenced by biochemical processes involving reduction (gain of electrons) and oxidation (loss of electrons). Redox homeostasis is central to the basic functions of life, including metabolism and respiration, and when altered it can promote the progression of disease and ageing.

Environmental protection comprises reduction or prevention of pollution, negative impacts on the environment, damage caused to ecosystems or natural resources caused by human activities.

Understanding the physiological and functional characteristics of cancer cells at the individual level, and the tumor tissue as a highly orchestrated multicellular formation, by whose activity the tumor expands, invades and disseminates, is the main goal of cancer biology research today. Defining the causes of abnormal behavior of neoplastic cells individually and in the context of the tumor microenvironment, including the histological, metabolic and immunological specificities of this tissue, represents a platform for designing new approaches in cancer treatment. Investigating the phenomenon of initial or acquired tumor resistance helps to gain deeper insights into the reasons for limited effects of the conventional treatments, enabling the improvement of existing protocols.

The biology of ageing is focused on better understanding the molecular, cellular and physiological processes underlying the ageing process and the diseases associated with this process.

Ecophysiology studies the physiological processes in living beings that are a response to changes in the external environment and that are fundamental to understanding the mechanisms and interactions that underlie the adaptive strategies of organisms. The effect of climate change, the presence of various pollutants, the availability of nutrients, and habitat degradation are some of those influences that are studied.

Animal physiology studies how biological processes work, how they operate under different environmental conditions, and how these processes are regulated and integrated. They can be studied at different levels of organisation, from organelles and cell membranes to cells, tissues, organ systems, and the whole animal, both during development and in adulthood.

Nutrition is the process by which the body uses food to produce energy and sustain life. The science of nutrition studies the role of nutrients and other food components in the growth, reproduction, health and disease of the organism. Food ingredients with medicinal properties are called nutriceuticals and can be used to treat or prevent disease. There are more and more alternative sources of food, such as edible insects, which should limit the negative impact of food production on the environment.

Metabolism is the totality of all chemical reactions that provide energy to cells and maintain the vital state of cells and organisms. Metabolism is a tightly regulated process, and control of metabolic pathways allows organisms to successfully interact with their environment. Metabolic regulation is key to understanding and treating a number of chronic diseases, including diabetes, obesity, hypertension, and cancer.

Redox biology is the study of all aspects of biology mediated or influenced by biochemical processes involving reduction (gain of electrons) and oxidation (loss of electrons). Redox homeostasis is central to the basic functions of life, including metabolism and respiration, and when altered it can promote the progression of disease and ageing.

Eco-Evo-Devo combines ecology, evolutionary theory and developmental biology. Within the Eco-Evo-Devo, the influence of environmental signals (biotic and abiotic) on the structure and dynamics of populations, the formation of new phenotypes during the developmental process, and their evolution is studied on different taxa of plants, animals and fungi.

Ecophysiology studies the physiological processes in living beings that are a response to changes in the external environment and that are fundamental to understanding the mechanisms and interactions that underlie the adaptive strategies of organisms. The effect of climate change, the presence of various pollutants, the availability of nutrients, and habitat degradation are some of those influences that are studied.

Physiology and molecular biology of plants studies the mechanisms underlying plant growth and development, plant morphogenesis in vitro (organogenesis, somatic embryogenesis, androgenesis), synthesis and accumulation of specialised metabolites, plant responses to different types of stressors, as well as allelopathic relationships between plants.

Climate change is an all-encompassing and growing global threat to biodiversity and ecosystems. It directly leads to phenological, physiological, morphological, and ethological changes, the spread of invasive species, and a decrease in the number of native species and their extinction. Changed climatic conditions affect habitat quality, resulting in changes in the distribution of species and communities. In order to mitigate the effects of climate change on the environment, it is necessary to predict and understand their impact on the living world.

Eco-Evo-Devo combines ecology, evolutionary theory and developmental biology. Within the Eco-Evo-Devo, the influence of environmental signals (biotic and abiotic) on the structure and dynamics of populations, the formation of new phenotypes during the developmental process, and their evolution is studied on different taxa of plants, animals and fungi.

Ecophysiology studies the physiological processes in living beings that are a response to changes in the external environment and that are fundamental to understanding the mechanisms and interactions that underlie the adaptive strategies of organisms. The effect of climate change, the presence of various pollutants, the availability of nutrients, and habitat degradation are some of those influences that are studied.

Physiology and molecular biology of plants studies the mechanisms underlying plant growth and development, plant morphogenesis in vitro (organogenesis, somatic embryogenesis, androgenesis), synthesis and accumulation of specialised metabolites, plant responses to different types of stressors, as well as allelopathic relationships between plants.

Climate change is an all-encompassing and growing global threat to biodiversity and ecosystems. It directly leads to phenological, physiological, morphological, and ethological changes, the spread of invasive species, and a decrease in the number of native species and their extinction. Changed climatic conditions affect habitat quality, resulting in changes in the distribution of species and communities. In order to mitigate the effects of climate change on the environment, it is necessary to predict and understand their impact on the living world.

Behavioural biology studies animal behaviour at a systemic level by integrating behavioural, ecological, physiological, and molecular approaches to describe how different behavioral elements have been shaped through evolution.

The biology of ageing is focused on better understanding the molecular, cellular and physiological processes underlying the ageing process and the diseases associated with this process.

Eco-Evo-Devo combines ecology, evolutionary theory and developmental biology. Within the Eco-Evo-Devo, the influence of environmental signals (biotic and abiotic) on the structure and dynamics of populations, the formation of new phenotypes during the developmental process, and their evolution is studied on different taxa of plants, animals and fungi.

The evolution of life history traits explains how evolutionary mechanisms (primarily natural selection) optimize the survival and reproduction of organisms under specific environmental conditions. Life history traits form the basis of an organism's adaptive value and include: developmental time, size, number, size and sex of offspring, survival rate at different life stages, longevity; etc. At the Institute, the evolution of life histories is studied in natural and laboratory populations.

Population genetics studies genetic composition - distribution and change in frequency of alleles over time, within and between populations. It uses mathematical models of allele frequency dynamics, makes predictions about the likely patterns of genetic variation in actual populations, and tests the predictions against empirical data.

Aquatic ecology studies the ecosystems in aquatic environments including seas, rivers, lakes, ponds and wetlands. It examines the interaction between the physical, chemical, and biological components of aquatic ecosystems. Aquatic ecologists are also interested in human interactions with the environment, and the impact of human activity on aquatic ecosystems.

Biodiversity is the variety and variability of life on Earth. It encompasses diversity at the genetic, taxonomic and ecosystem levels. Biodiversity is important in both natural and artificial ecosystems. Today, biodiversity is threatened by habitat loss and fragmentation, unsustainable resource use, invasive species, pollution and global climate change.

Behavioural biology studies animal behaviour at a systemic level by integrating behavioural, ecological, physiological, and molecular approaches to describe how different behavioral elements have been shaped through evolution.

Biomonitoring is the process of systematically observing, measuring, and analysing the physiological, biochemical, molecular, and genetic responses of living organisms to environmental changes, thus providing qualitative or quantitative information on the state of the environment. It includes the use of various bioindicators, biomonitors, bioaccumulators, and biomarkers.

Eco-Evo-Devo combines ecology, evolutionary theory and developmental biology. Within the Eco-Evo-Devo, the influence of environmental signals (biotic and abiotic) on the structure and dynamics of populations, the formation of new phenotypes during the developmental process, and their evolution is studied on different taxa of plants, animals and fungi.

Ecophysiology studies the physiological processes in living beings that are a response to changes in the external environment and that are fundamental to understanding the mechanisms and interactions that underlie the adaptive strategies of organisms. The effect of climate change, the presence of various pollutants, the availability of nutrients, and habitat degradation are some of those influences that are studied.

Ecotoxicology studeies the toxic effects of chemicals on the environment. The effects are studied at the level of molecules, cells, tissues, organs, individual organisms, populations or ecosystems.

The evolution of life history traits explains how evolutionary mechanisms (primarily natural selection) optimize the survival and reproduction of organisms under specific environmental conditions. Life history traits form the basis of an organism's adaptive value and include: developmental time, size, number, size and sex of offspring, survival rate at different life stages, longevity; etc. At the Institute, the evolution of life histories is studied in natural and laboratory populations.

Functional ecology focuses on the understanding of various biological phenomena (functions) at different levels of organization from organisms to ecosystems, thus enabling the understanding of the existence of certain patterns in nature. It identifies and studies the processes and/or activities that keep an organism or entire ecosystem functioning.

Climate change is an all-encompassing and growing global threat to biodiversity and ecosystems. It directly leads to phenological, physiological, morphological, and ethological changes, the spread of invasive species, and a decrease in the number of native species and their extinction. Changed climatic conditions affect habitat quality, resulting in changes in the distribution of species and communities. In order to mitigate the effects of climate change on the environment, it is necessary to predict and understand their impact on the living world.

Conservation biology aims to conserve biodiversity on Earth and is concerned with the long-term sustainability of ecosystems. With an interdisciplinary approach, conservation biology addresses conservation problems at the level of species, communities, and ecosystems that are directly or indirectly disturbed by human activities or other impacts.

Urban ecology focuses on studying fundamental ecological concepts within urban areas. It examines how ecological patterns, relations and processes differ in urban environments compared to non-urban environments, and investigates the impact of urbanisation on the ecology of organisms. Additionally, urban ecology examines the relationships and interactions between ecological and social systems within urban ecosystems that are made exclusively by anthropogenic activity.

Environmental protection comprises reduction or prevention of pollution, negative impacts on the environment, damage caused to ecosystems or natural resources caused by human activities.