Claude Garcia: Katalogdaten im Herbstsemester 2016

NameHerr Dr. Claude Garcia
Adresse
Ökosystemmanagement
ETH Zürich, CHN F 75.2
Universitätstrasse 16
8092 Zürich
SWITZERLAND
Telefon+41 44 632 32 14
E-Mailclaude.garcia@usys.ethz.ch
DepartementUmweltsystemwissenschaften
BeziehungDozent

NummerTitelECTSUmfangDozierende
701-0029-00LUmweltsysteme II3 KP2VB. Wehrli, C. Garcia, M. Sonnevelt
KurzbeschreibungDie Vorlesung vermittelt eine wissenschaftliche Einführung in drei wichtige Umweltsysteme und ihre Nutzung: Gewässer, Wälder und Agrarsysteme.
LernzielDie Studierenden können wichtige Funktionen der drei Umweltsysteme erläutern, sie sind in der Lage kritische Entwicklungstrends und Nutzungskonflikte zu diskutieren und Lösungsansätze zu vergleichen.
InhaltGewässer als Ökosysteme, Wassernutzung und ihre Auswirkungen, Gefährdung und Sicherung der Wasserqualität, Umgang mit Wasserknappheit und Hochwasserschutz.

Waldökosysteme und ihre Nutzung, veränderte Landnutzung und Verlust an Waldfläche, nachhaltige Waldwirtschaft.

Die wichtigsten Funktionen, Trends und Herausforderungen von Agrar- und Food Systemen werden anhand der vier Dimensionen der Ernährungssicherheit (Verfügbarkeit, Zugang und Verwendung von Nahrungsmitteln, sowie Stabilität der Ernährungssysteme) diskutiert.
SkriptSkript bzw. Vorlesungsunterlagen werden durch Dozenten abgegeben und ist via moodle verfügbar.
701-0659-00LTropical Forests, Agroforestry and Complex Socio-Ecological Systems3 KP2GC. Garcia, A. Giger Dray
KurzbeschreibungThe course will focus on integrated landscape approaches for the management of tropical forest landscapes, by addressing the complex interactions between ecological processes, stakeholders´ strategies and public policies. Dedicated tools such as games and simulation models to improve knowledge and foster collective decision-making processes will be explored.
LernzielThrough the course the students will learn:
Section 1: Concepts and Methods
1. To master definitions and concepts: SES; Vulnerability; Resilience, Environmentalist Paradox.
2. To gain exposure to methods for assessing stakeholders perceptions/practices/knowledge.

Section 2: Recognising diversity & Interdisciplinarity
1. To understand points of views/normative views and how these shape management objectives and practices.
2. Gain familiarity with major schools of thought on Natural Resources Management - Theory of the commons, Political Ecology, Vulnerability, Resilience.
3. To explore interdisciplinary approaches to natural resources management.

Section 3: Topics and Arenas
1. To understand links between Forest, Trees and Livelihoods - poverty, food security & well-being.
2. Gain familiarity with drivers of deforestation; degradation; reforestation.
3. Knowledge of global arenas affecting the international forest regime, and their impact at the local level.
4. To recognise and understand trade-offs between conservation and development in a forest/agroforest context;

A major objective of the course is to encourage students to develop a critical analysis of existing conservation and development narratives within the frame of agroforestry and forested agricultural landscapes. The course will also provide students with methods and tools to assess stakeholders perceptions/practices and knowledge, that will be of use in their professional life.
InhaltThe course will address:

1- Definitions of forests and agroforests, deconstructing the rigid historical divisions between these two, and showing the complexities and implications legal definitions will have on the management systems. We will also address the definitions of Social and Ecological System (SES) and Resilience, useful for the entire course. We will provide insights on how to describe the SES using the ARDI methodology (Actors, Resources, Dynamics and Interactions)
2- Methodological frameworks to understand drivers and coping strategies of stakeholders (Sustainable livelihood framework & Vulnerability; Ecosystem Services & trade-offs; Companion Modelling and Adaptive Management; Surveys and Participatory Appraisals)

Building upon this, and introducing the Forest Transition curve as guiding framework for the course, a series of case studies will be presented, highlighting the different drivers and issues at each stage of the transition curve (Kanninen et al. 2007).

1- Tropical Forestry - including Reduced Impact Logging, Forest Certification, and International Timber Market.
2- Secondary forests and Agroforests - landscape mosaics, forest fragments, non timber forest products, slash and burn systems, small holder production systems.
3- Conversions and Deforestation: Global trends, Biofuel extensions .
4- Reforestation and Agroforestry : Plantations.
5- Conclusion - Future trends; Global Arenas and Local Governance.

The course will tackle new and emerging topics such as the role of forests and trees in adaptation to climate change, the links between forest, poverty and food security, and the need to mainstream conservation of biodiversity outside protected areas. The course will draw from diverse disciplines, from ecology, economy, sociology, political sciences and legal studies as the most preeminent ones.
The course will enlarge the scope of the students from the ecological process to the social and political components of tropical social and ecological systems. It will address topics and case studies that the students will have little opportunity to address elsewhere, linking them to issues of global relevance in environmental sciences.
LiteraturAssunçao, J., C. C. e Gandour, and R. Rocha. 2012. Deforestation Slowdown in the Legal Amazon: Prices or Policies? Climate Policy Initiative Rio de Janeiro, Rio de Janeiro.
CGIAR Research Program 6. 2011. Forest, Trees and Agroforestry: Livelihoods, Landscapes and Governance. Page 338. CGIAR Research Program 6. CIFOR, ICRAF, CIAT, Bioversity, Bogor.
Costanza, R., R. d'Arge, R. De Groot, S. Farber, M. Grasso, B. Hannon, K. Limburg, S. Naeem, R. V. O'Neill, and J. Paruelo. 1997. The value of the world's ecosystem services and natural capital. Nature 387:253-260.
FAO. 2010. Global Forest Resource Assessment 2010. Page 342. FAO, Rome.
Kanninen, M., D. Murdiyarso, F. Seymour, A. Angelsen, S. Wunder, and L. German. 2007. Do trees grow on money: The implications of deforestation research for policies to promote REDD. Forest Perspectives. Forest Perspectives. CIFOR, Bogor.
Lescuyer, G., P. O. Cerutti, E. E. Mendoula, R. Ebaa-Atyi, and R. Nasi. 2010. Chainsaw milling in the Congo Basin. ETFRN News 52:121-128.
Torquebiau, E. F. 2000. A renewed perspective on agroforestry concepts and classification. Comptes Rendus de l'Académie des Sciences-Series III-Sciences de la Vie 323:1009-1017.
World Bank. 2004. Sustaining Forests: a development strategy. Page 81, Washington, DC.
701-1631-00LFoundations of Ecosystem Management Information 5 KP3GJ. Ghazoul, C. Garcia
KurzbeschreibungThis course introduces the broad variety of conflicts that arise in projects focusing on sustainable management of natural resources. It explores case studies of ecosystem management approaches and considers their practicability, their achievements and possible barriers to their uptake.
LernzielStudents should be able to
a) propose appropriate and realistic solutions to ecosystem management problems that integrate ecological, economic and social dimensions across relevant temporal and spatial scales.
b) identify important stakeholders, their needs and interests, and the main conflicts that exist among them in the context of land and resource management.
InhaltTraditional management systems focus on extraction of natural resources, and their manipulation and governance. However, traditional management has frequently resulted in catastrophic failures such as, for example, the collapse of fish stocks and biodiversity loss. These failures have stimulated the development of alternative ‘ecosystem management’ approaches that emphasise the functionality of human-dominated systems. Inherent to such approaches are system-wide perspectives and a focus on ecological processes and services, multiple spatial and temporal scales, as well as the need to incorporate diverse stakeholder interests in decision making. Thus, ecosystem management is the science and practice of managing natural resources, biodiversity and ecological processes, to meet multiple demands of society. It can be local, regional or global in scope, and addresses critical issues in developed and developing countries relating to economic and environmental security and sustainability.

This course provides an introduction to ecosystem management, and in particular the importance of integrating ecology into management systems to meet multiple societal demands. The course explores the extent to which human-managed terrestrial systems depend on underlying ecological processes, and the consequences of degradation of these processes for human welfare and environmental well-being. Building upon a theoretical foundation, the course will tackle issues in resource ecology and management, notably forests, agriculture and wild resources within the broader context of sustainability, biodiversity conservation and poverty alleviation or economic development. Case studies from tropical and temperate regions will be used to explore these issues. Dealing with ecological and economic uncertainty, and how this affects decision making, will be discussed. Strategies for conservation and management of terrestrial ecosystems will give consideration to landscape ecology, protected area systems, and community management, paying particular attention to alternative livelihood options and marketing strategies of common pool resources.
SkriptNo Script
LiteraturChichilnisky, G. and Heal, G. (1998) Economic returns from the biosphere. Nature, 391: 629-630.
Daily, G.C. (1997) Nature’s Services: Societal dependence on natural ecosystems. Island Press. Washington DC.
Hindmarch, C. and Pienkowski, M. (2000) Land Management: The Hidden Costs. Blackwell Science.
Millenium Ecosystem Assessment (2005) Ecosystems and Human Well-being: Synthesis. Island Press, Washington DC.
Milner-Gulland, E.J. and Mace, R. (1998) Conservation of Biological Resources. Blackwell Science.
Gunderson, L.H. and Holling, C.S. (2002) Panarchy: understanding transformations in human and natural systems. Island Press.