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56945-01 - Vorlesung: Dynamic Optimization in Environmental Economics 3 KP

Semester Frühjahrsemester 2020
Angebotsmuster Jedes Frühjahrsem.
Dozierende Prudence Dato (prudence.dato@unibas.ch, BeurteilerIn)
Inhalt This course addresses topics from current research in environmental and resources economics together with growth theory. The focus is on studying interactions between economic growth dynamics, environmental dynamics and natural resources dynamics to tackle energy transition issues. The course will cover two important aspects of connecting growth to natural resources and to the environment:

1) Growth and Natural Resources: the objective of this chapter is to explore the possibility of an indefinite positive growth path under natural resources availability constraints. It will start with a basic framework from Dasgupta and Heal (1974) to discuss Hotelling rules and optimal conditions. We will then focus on a specific case of a pure exhaustion problem, the so-called "cake-eating problem". The last section of this chapter will be devoted to study the sustainability problem with the Solow model, Hartwick rule, inter-generational justice.

2) Growth and the Environment: This chapter intends to basically study interactions between economic growth dynamics and environmental dynamics. It will commence with a basic framework that discusses optimal paths and efficiency. We will then study the "Environmental Kuznets curves (EKC) in a simple polluting growth model where outputs generates pollution. In addition, two complex model dynamics would be introduced by considering scale effect in terms of pollution abatement with respect to output. The last section will focus on a more complex model in which some natural resource are source of pollution instead of assuming that output is polluting. This will address issues related to the optimal energy transition.
Lernziele
The course will provide an overview over important topics in environmental economics connecting economic growth, the environment and natural resources use. It will cover dynamics optimization methods that are required to design optimal solutions for a sustainable economy. In addition, necessary tools to understand current research papers on optimal natural resource use, energy transition, environmental pollution, etc., will be studied.
Literatur We provide the following selected references. An exhaustive bibliography will be provided during the lectures.


Amigues, J. P., Le Kama, A. A., & Moreaux, M. (2015). Equilibrium transitions from non-renewable energy to renewable energy under capacity constraints. Journal of Economic Dynamics and Control, 55, 89-112.

Boucekkine, R., Pommeret, A., & Prieur, F. (2012). Technological vs. ecological switch and the environmental Kuznets Curve. American Journal of Agricultural Economics, 95(2), 252-260.

Dasgupta P, Heal G (1979) Economic theory and exhaustible resources. Cambridge Uni- versity Press, Cambridge
Dasgupta, P., & Heal, G. (1974). The Optimal Depletion of Exhaustible Resources. The Review of Economic Studies, 41, 3-28.

Dato, P. (2017). Energy transition under irreversibility: a two-sector approach. Environmental and resource economics, 68(3), 797-820.

Dixit, A., P. Hammond & M. Hoel (1980), ‘On Hartwick’s Rule for Regular Maximin Paths of Capital Accumulation and Resource Depletion’, Review of Economic Studies 47, 551-556.

Hartwick, J. (1977). Intergenerational Equity and the Investing of Rents from Exhaustible Resources. The American Economic Review, 67(5), 972-974.

Tahvonen, O., & Withagen, C. (1996). Optimality of irreversible pollution accumulation. Journal of Economic Dynamics and Control, 20(9-10), 1775-1795.

Tsur, Y., & Zemel, A. (2003). Optimal transition to backstop substitutes for nonrenewable resources. Journal of Economic Dynamics and Control, 27(4), 551-572.

 

Teilnahmebedingungen The course is based on the presentation of a general framework and a selection of papers. For each chapter, we will first present the general framework with related mathematical modelling details and economic intuition. Second, you will be asked to read one specific paper. Each lecture will begin with a short presentation of this paper by students and move on to a detailed discussion of the problem addressed in the paper, its methods, and results. Therefore, you will not be able to follow the discussion if you do not read the paper in advance. Due to time constraints, we will provide additional related references that you can read for a broader understanding of the scientific discussion.
Anmeldung zur Lehrveranstaltung Registration: Please enrol in MOnA. EUCOR-Students and students of other Swiss Universities have to enrol at the students administration office (studseksupport1@unibas.ch) within the official enrolment period. Enrolment = Registration for the exam!
Unterrichtssprache Englisch
Einsatz digitaler Medien kein spezifischer Einsatz

 

Intervall wöchentlich
Datum 18.02.2020 – 26.05.2020
Zeit Dienstag, 16.15-18.00 Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Datum Zeit Raum
Dienstag 18.02.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 25.02.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 03.03.2020 16.15-18.00 Uhr Fasnachtsferien
Dienstag 10.03.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 17.03.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S14 HG.32
Dienstag 24.03.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 31.03.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 07.04.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 14.04.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 21.04.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 28.04.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 05.05.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 12.05.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 19.05.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Dienstag 26.05.2020 16.15-18.00 Uhr Wirtschaftswissenschaftliche Fakultät, Seminarraum S16 HG.39
Module Modul: Kernbereich Wirtschaftswissenschaften (Masterstudium: Sustainable Development)
Vertiefungsmodul: International Trade, Growth and the Environment (Masterstudium: Wirtschaftswissenschaften)
Leistungsüberprüfung Semesterendprüfung
Hinweise zur Leistungsüberprüfung The exam is a written exam at the end of the term. The exam will evaluate your ability to transfer a problem into a simple model and provide recommendations based on the results. More precisely, it will evaluate your capability to apply all the methods, concepts and scientific arguments discussed in class to a new environmental problem.
written exam: 27.05.20; 16:15-17:45.
You can still withdraw from the examination by submitting a completed, signed form to our office from 17.03.20 until 27.03.20 / 12:00 o’clock. Withdrawals sent by email will not be accepted. You will find the examination withdrawal form on the Homepage of the Student Dean’s Office. Prior to 16.03.20, please only use MONA for withdrawing. The exam rooms will be published up to 20.05.20.
An-/Abmeldung zur Leistungsüberprüfung Belegen via MOnA innerhalb der Belegfrist
Wiederholungsprüfung keine Wiederholungsprüfung
Skala 1-6 0,1
Wiederholtes Belegen beliebig wiederholbar
Zuständige Fakultät Wirtschaftswissenschaftliche Fakultät / WWZ, studiendekanat-wwz@unibas.ch
Anbietende Organisationseinheit Wirtschaftswissenschaftliche Fakultät / WWZ

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