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Natural Systems Management

Code: 106792
Credits: 6
2026/2027
Degree programme Type Course
Environmental Sciences OP 4

Contact lecturer

Name :
Àngela Ribas Artola
Email :
angela.ribas@uab.cat

Teaching staff

Ferran Paune Fabre

Group languages

You can consult this information at the end of the document.

Prerequisites

There are no specific prerequisites for enrolling in this course, although it would be advisable to have passed subjects related to Organismal Biology and Ecology

Objectives

General Objective:
The primary objective of this course is to introduce students to the fundamental concepts and methodologies of Conservation Biology and Restoration Ecology, emphasizing both their scientific foundations and their practical applications in ecosystem management.

Specific Objectives:

  1. To acquire essential knowledge for the study and management of biodiversity, from the population level to the ecosystem level.
  2. To identify and understand the key processes that threaten biodiversity.
  3. To develop a scientific framework for analyzing contemporary environmental challenges, with the goal of designing more sustainable management strategies.
  4. To critically evaluate management practices within the fields of Conservation Biology and Restoration Ecology.

Learning outcomes

  • CM44 (Interpret the social, economic and environmental impact of issues related to demographic flows, global change or management in companies.) Interpret the social, economic and environmental impact of issues related to demographic flows, global change or management in companies.
  • KM57 (Identify the complex network of knowledge necessary to comprehensively address the main contemporary challenges in environmental science.) Identify the complex network of knowledge necessary to comprehensively address the main contemporary challenges in environmental science.
  • SM56 (Identify the main threats associated with the use of the natural environment and their corresponding restoration mechanisms on a local and territorial scale.) Identify the main threats associated with the use of the natural environment and their corresponding restoration mechanisms on a local and territorial scale.

Contents

The course "Management of the Natural Environment" includes aspects related to the use of natural resources, as well as the conservation and restoration of the environment. The course is organized into three main blocks:


Block I: Use and exploitation of natural resources


Hunting and fishing. Agriculture, livestock, and aquaculture. Forestry exploitation. Impact of these uses on biodiversity. Ecological foundations for the sustainable use of natural resources.


Block II: Conservation of the natural environment


Species conservation: threat categories. Biodiversity threats. In-situ and ex-situ conservation. Conservation genetics. Conservation of spaces: protected areas (terrestrial and marine). Connectivity of protected areas. Biological corridors. Ecological foundations for biodiversity conservation.


Block III: Restoration of the natural environment


Introduction to ecological restoration: foundations of restoration ecology. Nature-based solutions. Local-level application examples: restoration of coastal and freshwater communities, soil and forest restoration. Landscape-level application examples: rewilding and restoration of large ecological processes and recovery of natural disturbance regimes (fires and floods).


Fieldwork practical sessions, related to land management and planning of actions, consists of a guided visit to a natural park. The objective is to gain first-hand, on-site knowledge of the management challenges of a natural park.

Learning activities and methodology

Title Hours ECTS Learning outcomes
Case studies 12 0.48 CM44, KM57, SM56
theory 48 1.92 CM44, KM57, SM56
Classrooms practicals 12 0.48 CM44, KM57, SM56
Field work practical 2 0.08 KM57, SM56
Theory 28 1.12 CM44, KM57, SM56
Field work practical 8 0.32 CM44, KM57, SM56
Case studies 24 0.96 CM44, KM57, SM56

Guided teaching activities

1. Lectures aim to provide students with the foundational knowledge in the field of sustainable conservation of natural systems and their ecosystem services. Additionally:

o (i) Students are required to analyze current scientific papers and tecnical reports.

o (ii) Case studies are conducted in which students must apply the knowledge acquired to solve real-world scenarios.

2. Practical sessions—including fieldwork and classroom activities—allow students to apply various techniques for the management and conservation of species, habitats, and natural systems. These include:

  • Classroom and computer-based practicals: Exercises involving the analysis of biodiversity databases and land-use change data, enabling students to explore and apply some of the concepts and methods covered in lectures.
  • Field trip (protected areas): A guided visit to a Natural Park to gain first-hand insight into the daily management and conservation practices of a protected area.

Note: 15 minutes of one class session, within the schedule established by the institution/program, will be reserved for students to complete surveys evaluating the teaching performance and the course/module.

Annotation: within the schedule set by the centre or degree programme, 15 minutes of one class will be reserved for students to evaluate their lecturers and their courses or modules through questionnaires.

Assessment

Continuous assessment activities

Title Weight Hours ECTS Learning outcomes
Midterm exams 70 4 0.16 CM44, KM57, SM56
Case studies 30 12 0.48 CM44, KM57, SM56

The assessment of the subject is distributed as follows:

a) Individual exams on theory and practicals (2 midterms worth 35% each).

b) Case study resolution (30%).

To participate in the resit exam, students must have previously been assessed in a set of activities that account for at least two-thirds of the total grade for the subject. In order to pass the subject, students must achieve an average score higher than 3.5 in the two midterm exams for these to be averaged with the rest of the grades. If the average score of the two midterms is below 3.5, the midterm grades will not be considered, and the student must take a resit exam. This resit exam accounts for 70% of the final grade. In this resit exam, the requirement of a minimum score of 3.5 remains in order for the other grades (case studies) to be considered; otherwise, the subject will be failed.

For the rest of the assessment activities, there is no minimum grade required to be averaged.

Failure to submit any of the assessment activities within the established period will result in a grade of zero for that activity. If a student does not attend any of the practical sessions, the grade for the corresponding block will be zero.

Students who are unable to attend an individual assessment test for a justified reason (such as illness, death of a first-degree relative, or accident) and provide official documentation to the corresponding professor will have the right to take the test on another date.

This subject does not allow for the possibility of a single assessment.

Bibliography

Bibliography

Conservation:

Díaz, S., J. Settele, E. S. Brondizio, H. Ngo, J. Agard, A. Arneth, P. Balvanera, et al. 2019. Pervasive

Human-Driven Decline of Life on Earth Points to the Need for Transformative Change. Science 366:eaax3100. DOI:10.1126/science.aax3100.

Groom MJ, Meffe GK, Carroll CR et al., (2006) Principles of conservation biology. Tercera edició.

Sinauer.

IPBES (Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services). 2019. Global Assessment Report on Biodiversity and Ecosystem Services of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services. UN-IPBES, Bonn, Germany.

Juffe-Bignoli, D., Burgess, N.D., Bingham, H., Belle, E.M.S., de Lima, M.G., Deguignet, M., Bertzky, B., Milam, A.N., Martinez-Lopez, J., Lewis, E., Eassom, A., Wicander, S., Geldmann, J., van Soesbergen, A., Arnell, A.P., O'Connor, B., Park, S., Shi, Y.N., Danks, F.S., MacSharry, B., Kingston, N. (2014). Protected Planet Report 2014. UNEP-WCMC: Cambridge, UK. Disponible :

http://www.unep-wcmc.org/system/dataset_file_fields/files/000/000/289/original/Protected_Planet_Report_2014_01122014_EN_

Kareiva P, Marvier M (2011) Conservation Science: Balancing the Needs of People and Nature. Roberts Publishers.

Meyfroidt, P. et al. Ten facts about land systems for sustainability. Proc. Natl Acad. Sci. USA 119,

e2109217118 (2022).

Primack RB (2014) Essentials of conservation biology. Sisena edició. Sinauer.

Serrano-Zulueta, R., A. Gómez-Sal, F. Pauné, E. Velado-Alonso, J. Garzón, A. del Prado, P. Herrera, J. Majadas, F. Pasetti, E. Prada-Llorente & P. Manzano (2025) Una clasificación del pastoralismo en España: comprender el pasado para abordar los retos actuales. Ministerio para la Transición Ecológica y el Reto Demográfico Madrid.

Sodhi NS, Ehrlich PR (eds) (2010) Conservation biology for all. Oxford University Press. Gratuït a: https://bibcercador.uab.cat/permalink/34CSUC_UAB/1c3utr0/cdi_globaltitleindex_catalog_219777498

Van Dyke, Fred., & Lamb, R. L. (2020). Conservation Biology Foundations, Concepts, Applications / by Fred Van Dyke, Rachel L. Lamb. (3rd ed. 2020.). Springer International Publishing.

https://bibcercador.uab.cat/permalink/34CSUC_UAB/1c3utr0/cdi_springer_books_10_1007_978_3_030_39534_6

hhttps://digitalreport.protectedplanet.net/

Web Links:

AEMA: Agència Europeadel Medi Ambient (EEA; European Environment Agency) www.eea.europa.eu

CBD: Conveni per a la Diversitat Biològica www.cbd.int

Conservation International: www.conservation.org

https://natura.llocs.iec.cat/

https://www.ted.com/topics/conservation

Medi Ambient, Comissió Europea: http://ec.europa.eu/environment/index_en.htm

Medi natural , Generalitat de Catalunya: amb algún \"Medi natural I , Generalitat de Catalunya\"

Ministerio de Medio Ambiente d'Espanya: www.magrama.gob.es/es/biodiversidad/temas/default.aspx

UICN (IUCN): Unió Internacional per la Conservació de la Natura http://cms.iucn.org

WCMC: World Conservation Monitoring Centre www.unep-wcmc.org: www.greenfacts.org/en/digests/index.htm

WWF: World Wide Fund for Nature (World Wildlife Fund) www.panda.org

Ecological Processes:

Baudron (2014) Agriculture and nature: Trouble and strife? http://dx.doi.org/10.1016/j.biocon.2013.12.009

Bennett AF (1999) Linkages in the landscape. IUCN.

Briske (2017) Rangeland Systems. Processes, Management and Challenges. https://link.springer.com/book/10.1007/978-3-319-46709-2

Chapin, F.S., P.A.Matson and P.M. Vitousek (2011) Principles of Terrestrial Ecosystem Ecology. Springer. https://link.springer.com/book/10.1007/978-1-4419-9504-9

Doblas et al. (2013) Conservar Aprovechando. Cómo integrar el cambio global en la gestión de los montes españoles. CREAF. https://digital.csic.es/handle/10261/126871

Fischer J et al (2009) Landscape pattern and biodiversity. A: Levin SA (ed) The Princeton Guide to Ecology. Princeton University Press, pp. 431-437.

Grau et al. (2009). Manual de conservación de la biodiversitat en els hàbitats agraris. Manuals d’ecogestió, 27. Generalitat de Catalunya. https://www.gencat.cat/mediamb/publicacions/monografies/ME27_manual_conservacio_habitats_agraris.pdf

Jordan, C.F. (2022) Evolution from a Thermodynamic Perspective. Implications for Species Conservation and Agricultural Sustainability. Springer. https://doi.org/10.1007/978-3-030-85186-6

Mallarach (2006) Bases per a les directrius de connectivitat ecològica de Catalunya. Generalitat de Catalunya.

Margules, C. R., & Pressey, R. L. (2000). Systematic conservation planning. Nature, 405(6783), 243-253. Retrieved from http://dx.doi.org/10.1038/35012251

Martínez C (2009). EUROPARC-España www.redeuroparc.org/publicaciones/monografia2.pdf

Mayor X (2008) Connectivitat ecològica: elements teòrics, determinació i aplicació. Documents de Recerca 13, Consell Assessor per al Desenvolupament Sostenible, Generalitat de Catalunya

Ecological Restauration:

Agència Catalana de l'Aigua (2008a) La gestió i recuperació de la vegetació de ribera. Guia tècnica per a actuacions en riberes. http://acaweb.gencat.cat/aca/documents/ca/actuacions/vegetacio_ribera_complerta.pdf

Mola, I. (Ed.) 2024. Restauración Ecológica: ejemplos de bases técnicas y soluciones prácticas. Fundación Biodiversidad del Ministerio para la Transición Ecológica y Reto Demográfico. Madrid. 635 pp. ISBN: 978-84-931561-1-4

Parker M, Zedle J,Falk D, 2016. Foundationsof restoration ecology. 2nd edition. Island Press, Washington. Disponible en internet.

Falk D, i cols., 2006. Foundations of restoration ecology. Island Press, Washington. Available in la biblioteca de la Facultat de Ciències i Biociències and internet.

Howell EA, Harrington JA, Glass SB, 2012. Introduction to restoration ecology. Island Press. Available in la biblioteca de la Facultat de Ciències i Biociències

Restauration Ecology. https://onlinelibrary.wiley.com/page/journal/1526100x/homepage/forauthors.html

Software

No specific software required

Course groups and languages

The information provided is provisional until November 30. After this date, you will be able to consult the language of each group through this link. To access the information, you will need to enter the course CODE

Type of teaching Group Language Semester Shift
(TE) Theory 1 Catalan second semester morning-mixed
(PAUL) Classroom practices 1 Catalan second semester morning-mixed
(PCAM) Field practices 1 Catalan second semester morning-mixed
(PCAMs) Suport a les pràctiques de camp dirigides 1 Catalan second semester morning-mixed
(PCAM) Field practices 2 Catalan second semester morning-mixed
(PCAMs) Suport a les pràctiques de camp dirigides 2 Catalan second semester morning-mixed