Sustainability: Dynamics and Uncertainty [electronic resource] /

Sustainability: Dynamics and Uncertainty [electronic resource] /

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of ecological (also biological) variables b which interact in their dynamic t evolution: det dbt dt = f (et, bt)' dt = 9 (et, bt)· Among the solution paths to this interaction between economic and ecologi­ cal variables, we look for those which are sustainable. Sustainable paths are typically those along which the values of certain key stocks are always pos­ itive, these key stocks being important environmental resources. The types of paths on which certain variables can be positive forever include station­ ary solutions with appropriate positivity conditions, or limit cycles or chaotic attractors satisfying the same positivity conditions. These paths, and the paths which approach them, constitute the set of sustainable paths. From amongst these we have to choose one or more which are in some sense the best. Note that rather than imposing positivity of certain stocks in the long run as a condition for sustainability, we would prefer to derive this as a characteristic of optimal solutions from more fundamental judgements about the valuation of stocks and flows: this is the route pursued by the papers in this volume. The introductory paper by Heal in Section I reviews these matters in gen­ eral terms, not going into technical details: it discusses the precedents for a concept of sustainability in welfare economics, and reviews alternative opti­ mality concepts and their connection to sustainability.

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Main Authors: Chichilnisky, Graciela. editor., Heal, Geoffrey. editor., Vercelli, Alessandro. editor., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Dordrecht : Springer Netherlands : Imprint: Springer, 1998
Subjects:Environmental management., Environmental economics., Economics., Environmental Economics., Environmental Management.,
Online Access:http://dx.doi.org/10.1007/978-94-011-4892-4
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id KOHA-OAI-TEST:174803
record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Environmental management.
Environmental economics.
Economics.
Environmental Economics.
Environmental Management.
Environmental management.
Environmental economics.
Economics.
Environmental Economics.
Environmental Management.
spellingShingle Environmental management.
Environmental economics.
Economics.
Environmental Economics.
Environmental Management.
Environmental management.
Environmental economics.
Economics.
Environmental Economics.
Environmental Management.
Chichilnisky, Graciela. editor.
Heal, Geoffrey. editor.
Vercelli, Alessandro. editor.
SpringerLink (Online service)
Sustainability: Dynamics and Uncertainty [electronic resource] /
description of ecological (also biological) variables b which interact in their dynamic t evolution: det dbt dt = f (et, bt)' dt = 9 (et, bt)· Among the solution paths to this interaction between economic and ecologi­ cal variables, we look for those which are sustainable. Sustainable paths are typically those along which the values of certain key stocks are always pos­ itive, these key stocks being important environmental resources. The types of paths on which certain variables can be positive forever include station­ ary solutions with appropriate positivity conditions, or limit cycles or chaotic attractors satisfying the same positivity conditions. These paths, and the paths which approach them, constitute the set of sustainable paths. From amongst these we have to choose one or more which are in some sense the best. Note that rather than imposing positivity of certain stocks in the long run as a condition for sustainability, we would prefer to derive this as a characteristic of optimal solutions from more fundamental judgements about the valuation of stocks and flows: this is the route pursued by the papers in this volume. The introductory paper by Heal in Section I reviews these matters in gen­ eral terms, not going into technical details: it discusses the precedents for a concept of sustainability in welfare economics, and reviews alternative opti­ mality concepts and their connection to sustainability.
format Texto
topic_facet Environmental management.
Environmental economics.
Economics.
Environmental Economics.
Environmental Management.
author Chichilnisky, Graciela. editor.
Heal, Geoffrey. editor.
Vercelli, Alessandro. editor.
SpringerLink (Online service)
author_facet Chichilnisky, Graciela. editor.
Heal, Geoffrey. editor.
Vercelli, Alessandro. editor.
SpringerLink (Online service)
author_sort Chichilnisky, Graciela. editor.
title Sustainability: Dynamics and Uncertainty [electronic resource] /
title_short Sustainability: Dynamics and Uncertainty [electronic resource] /
title_full Sustainability: Dynamics and Uncertainty [electronic resource] /
title_fullStr Sustainability: Dynamics and Uncertainty [electronic resource] /
title_full_unstemmed Sustainability: Dynamics and Uncertainty [electronic resource] /
title_sort sustainability: dynamics and uncertainty [electronic resource] /
publisher Dordrecht : Springer Netherlands : Imprint: Springer,
publishDate 1998
url http://dx.doi.org/10.1007/978-94-011-4892-4
work_keys_str_mv AT chichilniskygracielaeditor sustainabilitydynamicsanduncertaintyelectronicresource
AT healgeoffreyeditor sustainabilitydynamicsanduncertaintyelectronicresource
AT vercellialessandroeditor sustainabilitydynamicsanduncertaintyelectronicresource
AT springerlinkonlineservice sustainabilitydynamicsanduncertaintyelectronicresource
_version_ 1756263913654059008
spelling KOHA-OAI-TEST:1748032018-07-30T22:53:05ZSustainability: Dynamics and Uncertainty [electronic resource] / Chichilnisky, Graciela. editor. Heal, Geoffrey. editor. Vercelli, Alessandro. editor. SpringerLink (Online service) textDordrecht : Springer Netherlands : Imprint: Springer,1998.engof ecological (also biological) variables b which interact in their dynamic t evolution: det dbt dt = f (et, bt)' dt = 9 (et, bt)· Among the solution paths to this interaction between economic and ecologi­ cal variables, we look for those which are sustainable. Sustainable paths are typically those along which the values of certain key stocks are always pos­ itive, these key stocks being important environmental resources. The types of paths on which certain variables can be positive forever include station­ ary solutions with appropriate positivity conditions, or limit cycles or chaotic attractors satisfying the same positivity conditions. These paths, and the paths which approach them, constitute the set of sustainable paths. From amongst these we have to choose one or more which are in some sense the best. Note that rather than imposing positivity of certain stocks in the long run as a condition for sustainability, we would prefer to derive this as a characteristic of optimal solutions from more fundamental judgements about the valuation of stocks and flows: this is the route pursued by the papers in this volume. The introductory paper by Heal in Section I reviews these matters in gen­ eral terms, not going into technical details: it discusses the precedents for a concept of sustainability in welfare economics, and reviews alternative opti­ mality concepts and their connection to sustainability.Section 1: Overview -- 1.1. Interpreting Sustainability -- 1.2. Global Environmental Risks -- Section 2: Dynamics -- 2.1. Sustainable Use of Renewable Resources -- 2.2. North South Trade and the Dynamics of the Environment -- 2.3. Trade, Migration, and Environment: A General Equilibrium Analysis -- 2.4. A Simple Model of Optimal Sustainable Growth -- 2.5. Environmental Externalities, Disconnected Generations and Policy -- 2.6. Stochastic Sustainability -- 2.7. Sustainable Development and the Freedom of Future Generations -- Section 3: Uncertainty -- 3.1. Hard Uncertainty and Environmental Policy -- 3.2. Environmental Option Values, Uncertainty Aversion and Learning -- 3.3. Environmental Bonds: A Critical Assessment -- 3.4. Uncertain Future Preferences and Conservation -- 3.5. Financial Markets for Unknown Risks -- 3.6. Stochastic Sustainability in the Presence of Unknown Parameters -- 3.7. Climate Change and Emission Permits.of ecological (also biological) variables b which interact in their dynamic t evolution: det dbt dt = f (et, bt)' dt = 9 (et, bt)· Among the solution paths to this interaction between economic and ecologi­ cal variables, we look for those which are sustainable. Sustainable paths are typically those along which the values of certain key stocks are always pos­ itive, these key stocks being important environmental resources. The types of paths on which certain variables can be positive forever include station­ ary solutions with appropriate positivity conditions, or limit cycles or chaotic attractors satisfying the same positivity conditions. These paths, and the paths which approach them, constitute the set of sustainable paths. From amongst these we have to choose one or more which are in some sense the best. Note that rather than imposing positivity of certain stocks in the long run as a condition for sustainability, we would prefer to derive this as a characteristic of optimal solutions from more fundamental judgements about the valuation of stocks and flows: this is the route pursued by the papers in this volume. The introductory paper by Heal in Section I reviews these matters in gen­ eral terms, not going into technical details: it discusses the precedents for a concept of sustainability in welfare economics, and reviews alternative opti­ mality concepts and their connection to sustainability.Environmental management.Environmental economics.Economics.Environmental Economics.Environmental Management.Springer eBookshttp://dx.doi.org/10.1007/978-94-011-4892-4URN:ISBN:9789401148924

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