ECTS
6 credits
Component
Faculty of Science
List of courses
EU Choice 5
2 creditsChoice of 3 from 6
Urban ecology
2 creditsTOIC/TOEFL preparation
2 creditsAgroecology
2 creditsEthnoecology and sustainable development
2 credits15hGEMAPI (Gestion Milieux Aquatiques & Prévention Inondations - water management and flood prevention)
2 creditsAdvanced GIS
2 credits
Choice of: 1 of 8
Agroecology
2 creditsUrban ecology
2 creditsTOIC/TOEFL preparation
2 creditsSalon de l'écologie-2
2 credits1hEcology of marine and coastal ecosystems
2 credits8hAdvanced GIS
2 creditsEthnoecology and sustainable development
2 credits15hGEMAPI (Gestion Milieux Aquatiques & Prévention Inondations - water management and flood prevention)
2 credits
GE 2 Individual Project
4 credits
Urban ecology
ECTS
2 credits
Component
Faculty of Science
The expansion of the urban environment is leading to the fragmentation/destruction of natural habitats, conservation problems and a change in the relationship between man and nature. However, urban spaces can also be home to significant biodiversity in close proximity to man, which can then be used for conservation, awareness-raising, improving human well-being or even therapeutic purposes. It's a tall order to try to work in ecology while denying the existence and consequences of the urban environment and its particularities. The aim of this course is to help future ecology professionals find a compromise between urban development and respect for nature. Through courses given by a variety of professionals and a field trip to Montpellier, students will discover where (associations, consultancies, local authorities, etc.), with whom and how an ecologist can act in urban ecology.
Ethnoecology and sustainable development
ECTS
2 credits
Component
Faculty of Science
Hourly volume
15h
1 "The way in which the modern West represents nature is the least shared thing in the world" (Descola, 2005, p. 56). According to anthropologist Philippe Descola, the category of "Nature", as a reality separate from the human world, was invented by Europeans, and is just one of the ways in which societies can account for the living and non-living beings that surround them.
While Philippe Descola is helping to renew questions concerning the relationship between society and the environment, he is also drawing on a long tradition in the human and social sciences. Numerous works have already explored the various forms of knowledge and social organization to which these relationships give rise: ethnoscience, anthropology of technology, economic anthropology, ethnoecology, sociology of science and technology, and so on.
This issue is far from being confined to the academic sphere. It is also of interest to those involved in conservation (biodiversity, natural resources, etc.) and industry (pharmacology). It is also mobilizing so-called "indigenous" populations who are demanding, both locally and internationally, access to resources and the preservation of an intangible heritage.
2. Situated at the crossroads of social sciences and life sciences, these disciplines analyze how human societies use plants, animals and other environmental components, and how their conceptions and representations of their environment(s) shape these uses. This research also explores how human societies organize themselves, perpetuate themselves, change to adapt to new contexts (globalization, global change) and transmit knowledge about their relationships with nature.
For a long time, these disciplines focused more specifically on the interrelations between so-called "traditional" societies and their immediate environment. Then, from the 1970s onwards, researchers reconsidered the distinction between "traditional" and "modern" societies, to better address the new environmental and social transformations taking place today.
On the one hand, even the most isolated local societies are affected by events that are decided and unfolding on different scales (international conventions, economic crises). Their immediate environment is also affected by global phenomena (climate change, erosion of biodiversity, etc.). In return, their actions can also have international ecological, social and economic repercussions, when, for example, these companies organize to bring their demands to international arenas.
On the other hand, the relationship that modern societies have with their environment is being reconfigured in the face of an increasingly "artificialized" planet threatened by serious disruptions and crises. The place of flora and fauna is being reconsidered, and their rights are the subject of controversy. Moreover, the entry into a new geological era, the Anthropocene, is being used to call on both the natural sciences and the human and social sciences to take a fresh look at the shared history of the environment and society.
3. The very work of scientists and engineers is apprehended in a new light. A new scientific project in the humanities and social sciences aims to reconsider the role of "non-humans", and calls for analytical categories other than Nature and Culture. New scales and methods of investigation are also envisaged to analyze global processes.
These recent changes in scale invite researchers in the humanities and social sciences to (re)consider their approach through a reflexive lens: they are no longer mere observers, but can also be genuine actors in processes, when they are not directly involved in a social movement.
4. The aim of this module is to introduce these different scientific and operational fields. The aim is to provide students with benchmarks and food for thought, enabling them to construct scientific questions on the relationship between society and the environment, and to reflect on the ways in which current environmental and social issues can be tackled. The speakers' varied geographical and disciplinary backgrounds will illustrate the approach across a wide range of ecosystem types, socio-cultural contexts and themes. In the time available, we cannot claim to cover all the themes, approaches and methods exhaustively. Any student wishing to delve deeper into this field will need to take a more in-depth training course.
GEMAPI (Gestion Milieux Aquatiques & Prévention Inondations - water management and flood prevention)
ECTS
2 credits
Component
Faculty of Science
Gestion du Milieu Aquatique et Prévention des Inondations
Discipline: Ecology, Hydraulics
This teaching unit enables students to immerse themselves in a real case study, in the field, relating to the GEMAPI competence. Stakeholders and managers will be met on the study site to appreciate the challenges and complexity of the territory. Student groups will work on a concrete project to bring together water management and flood prevention in a way that respects ecology, the environment and people. This teaching unit will be an opportunity to apply the knowledge and skills acquired in previous courses (ecology, hydraulics, legislation, regional planning, etc.).
The study is deployed on the same concrete case, from the field phase through modeling, analysis and concerted management, to the phase of presenting the impact of developments. Work is carried out in groups.
Urban ecology
ECTS
2 credits
Component
Faculty of Science
The expansion of the urban environment is leading to the fragmentation/destruction of natural habitats, conservation problems and a change in the relationship between man and nature. However, urban spaces can also be home to significant biodiversity in close proximity to man, which can then be used for conservation, awareness-raising, improving human well-being or even therapeutic purposes. It's a tall order to try to work in ecology while denying the existence and consequences of the urban environment and its particularities. The aim of this course is to help future ecology professionals find a compromise between urban development and respect for nature. Through courses given by a variety of professionals and a field trip to Montpellier, students will discover where (associations, consultancies, local authorities, etc.), with whom and how an ecologist can act in urban ecology.
Salon de l'écologie-2
ECTS
2 credits
Component
Faculty of Science
Hourly volume
1h
This UE is based on the same pedagogical project as the "Salon de l'écologie-1" UE: organization and participation in the two events "Festi'Versité" and "Salon National de l'Ecologie" (see "Salon de l'écologie-1" sheet).
The specificity of the "Salon de l'écologie-2" UE lies in the roles and involvement of the students in their mission of assisting the project managers of the 2 events. In this UE, they are involved in positions of responsibility as administrators of one of the partner student associations: president, treasurer, communications manager, logistics manager, eco-responsibility manager, festivities manager, congress manager, forum manager. They will coordinate the highlights of the events, the actions of the various teams and the work of the students and volunteers involved in implementation through the "Salon de l'écologie 1" EU.
Ecology of marine and coastal ecosystems
ECTS
2 credits
Component
Faculty of Science
Hourly volume
8h
"I - Physical characterization and biogeochemical cycles of coastal marine ecosystems II - Biodiversity and functioning of coastal marine ecosystems III Coastal and marine law; Uses, conflicts and integrated management of the coastal zone. This course offers students a systemic approach to the study of coastal marine ecosystems from a highly multidisciplinary perspective. The physical structure of these ecosystems will be addressed through courses on their geomorphology and hydrology, with a particular focus on hydric couplings with the open sea and their watersheds. Their biogeochemistry will be addressed, in particular to describe carbon and nutrient flows through the water and sediment compartments. Several aspects of their biodiversity will be illustrated to describe the importance of these ecosystems as living environments for the species they support, and in particular the role of this biodiversity in their functioning. The coastal zone is densely populated by man (40% of the world's population). Particular attention will be paid to human uses (e.g. aquaculture) and their territorial planning, including the evaluation of their ecosystem services in an economic context, management and protection measures (e.g. Marine Protected Areas, Natura 2000), and professionals involved in the management of these environments will present practical feedback. Finally, the implications of the Law of the Sea for the management of coastal zones will be discussed. "
Ethnoecology and sustainable development
ECTS
2 credits
Component
Faculty of Science
Hourly volume
15h
1 "The way in which the modern West represents nature is the least shared thing in the world" (Descola, 2005, p. 56). According to anthropologist Philippe Descola, the category of "Nature", as a reality separate from the human world, was invented by Europeans, and is just one of the ways in which societies can account for the living and non-living beings that surround them.
While Philippe Descola is helping to renew questions concerning the relationship between society and the environment, he is also drawing on a long tradition in the human and social sciences. Numerous works have already explored the various forms of knowledge and social organization to which these relationships give rise: ethnoscience, anthropology of technology, economic anthropology, ethnoecology, sociology of science and technology, and so on.
This issue is far from being confined to the academic sphere. It is also of interest to those involved in conservation (biodiversity, natural resources, etc.) and industry (pharmacology). It is also mobilizing so-called "indigenous" populations who are demanding, both locally and internationally, access to resources and the preservation of an intangible heritage.
2. Situated at the crossroads of social sciences and life sciences, these disciplines analyze how human societies use plants, animals and other environmental components, and how their conceptions and representations of their environment(s) shape these uses. This research also explores how human societies organize themselves, perpetuate themselves, change to adapt to new contexts (globalization, global change) and transmit knowledge about their relationships with nature.
For a long time, these disciplines focused more specifically on the interrelations between so-called "traditional" societies and their immediate environment. Then, from the 1970s onwards, researchers reconsidered the distinction between "traditional" and "modern" societies, to better address the new environmental and social transformations taking place today.
On the one hand, even the most isolated local societies are affected by events that are decided and unfolding on different scales (international conventions, economic crises). Their immediate environment is also affected by global phenomena (climate change, erosion of biodiversity, etc.). In return, their actions can also have international ecological, social and economic repercussions, when, for example, these companies organize to bring their demands to international arenas.
On the other hand, the relationship that modern societies have with their environment is being reconfigured in the face of an increasingly "artificialized" planet threatened by serious disruptions and crises. The place of flora and fauna is being reconsidered, and their rights are the subject of controversy. Moreover, the entry into a new geological era, the Anthropocene, is being used to call on both the natural sciences and the human and social sciences to take a fresh look at the shared history of the environment and society.
3. The very work of scientists and engineers is apprehended in a new light. A new scientific project in the humanities and social sciences aims to reconsider the role of "non-humans", and calls for analytical categories other than Nature and Culture. New scales and methods of investigation are also envisaged to analyze global processes.
These recent changes in scale invite researchers in the humanities and social sciences to (re)consider their approach through a reflexive lens: they are no longer mere observers, but can also be genuine actors in processes, when they are not directly involved in a social movement.
4. The aim of this module is to introduce these different scientific and operational fields. The aim is to provide students with benchmarks and food for thought, enabling them to construct scientific questions on the relationship between society and the environment, and to reflect on the ways in which current environmental and social issues can be tackled. The speakers' varied geographical and disciplinary backgrounds will illustrate the approach across a wide range of ecosystem types, socio-cultural contexts and themes. In the time available, we cannot claim to cover all the themes, approaches and methods exhaustively. Any student wishing to delve deeper into this field will need to take a more in-depth training course.
GEMAPI (Gestion Milieux Aquatiques & Prévention Inondations - water management and flood prevention)
ECTS
2 credits
Component
Faculty of Science
Gestion du Milieu Aquatique et Prévention des Inondations
Discipline: Ecology, Hydraulics
This teaching unit enables students to immerse themselves in a real case study, in the field, relating to the GEMAPI competence. Stakeholders and managers will be met on the study site to appreciate the challenges and complexity of the territory. Student groups will work on a concrete project to bring together water management and flood prevention in a way that respects ecology, the environment and people. This teaching unit will be an opportunity to apply the knowledge and skills acquired in previous courses (ecology, hydraulics, legislation, regional planning, etc.).
The study is deployed on the same concrete case, from the field phase through modeling, analysis and concerted management, to the phase of presenting the impact of developments. Work is carried out in groups.
GE 2 Individual Project
ECTS
4 credits
Component
Faculty of Science