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References (58)
-
R. Lathrop, S. Carpenter, C. Stow, P. Soranno, J. Panuska (1998)
Phosphorus loading reductions needed to control blue green algal blooms in Lake MendotaCanadian Journal of Fisheries and Aquatic Sciences, 55
-
J. Anderies, M. Janssen, B. Walker (2002)
Grazing Management, Resilience, and the Dynamics of a Fire-driven Rangeland SystemEcosystems, 5
-
S. Carpenter, W. Brock, P. Hanson (1999)
Ecological and Social Dynamics in Simple Models of Ecosystem ManagementConservation Ecology, 3
-
G. Nürnberg (1984)
The prediction of internal phosphorus load in lakes with anoxic hypolimnia1Limnology and Oceanography, 29
-
M. Janssen, B. Walker, J. Langridge, N. Abel (2000)
An adaptive agent model for analysing co-evolution of management and policies in a complex rangeland systemEcological Modelling, 131
-
S. Carpenter, D. Ludwig, W. Brock (1999)
Management of eutrophication for lakes subject to potentially irreversible changeEcological Applications, 9
-
S. Pimm (1984)
The complexity and stability of ecosystemsNature, 307
-
W. Clark, R. Munn (1988)
Sustainable development of the biosphereEconomic Geography, 64
-
C. Folke, F. Berkes, J. Colding (1998)
Ecological practices and social mechanisms for building resilience and sustainability -
M. Price (2003)
Panarchy: Understanding Transformations in Human and Natural SystemsBiological Conservation, 114
-
H. Kyburg, D. Hull (1993)
Science as Process.Noûs, 27
-
L. Gunderson (2000)
Ecological Resilience—In Theory and ApplicationAnnual Review of Ecology, Evolution, and Systematics, 31
-
S. Hecht, C. Redman (1999)
Human Impact on Ancient EnvironmentsEcology
-
S. Carpenter, J. Kitchell, J. Hodgson, P. Cochran, J. Elser, M. Elser, D. Lodge, D. Kretchmer, Xi He, C. Ende (1987)
Regulation of Lake Primary Productivity by Food Web Structure.Ecology, 68 6
-
E. Bennett, S. Carpenter, N. Caraco (2001)
Human Impact on Erodable Phosphorus and Eutrophication: A Global Perspective, 51
-
C. Holling (1973)
Resilience and Stability of Ecological SystemsAnnual Review of Ecology, Evolution, and Systematics, 4
-
B. Walker, A. Kinzig, J. Langridge (1999)
Original Articles: Plant Attribute Diversity, Resilience, and Ecosystem Function: The Nature and Significance of Dominant and Minor SpeciesEcosystems, 2
-
C. Holling (1996)
Engineering Resilience versus Ecological Resilience -
Brett Johnson, S. Carpenter (1994)
Functional and Numerical Responses: A Framework for Fish‐Angler Interactions?Ecological Applications, 4
-
(2001)
The devil in the dynamics: adaptive management on the front lines -
(2001)
Resilient rangelands: adaptation in complex ecosystems -
J. Anderies (2000)
On modeling human behavior and institutions in simple ecological economic systems.Ecological Economics, 35
-
M. Loreau (2000)
Biodiversity and ecosystem functioning: recent theoretical advancesOikos, 91
-
S. Levin (2000)
Multiple Scales and the Maintenance of BiodiversityEcosystems, 3
-
S. Postel, S. Carpenter, G. Daily (1997)
Freshwater ecosystem services. -
The ongoing experiment : restoration of Lake Mendota -
V. Smith (1998)
Cultural Eutrophication of Inland, Estuarine, and Coastal Waters -
R. Lathrop (1992)
Nutrient Loadings, Lake Nutrients, and Water Clarity -
Richard Klein, R. Nicholls (1999)
Assessment of coastal vulnerability to climate changeAMBIO: A Journal of the Human Environment, 28
-
H. Ruthenberg (1973)
Farming systems in the tropics -
D. Ludwig, B. Walker, C. Holling (1997)
Sustainability, Stability, and ResilienceConservation Ecology, 1
-
C. Holling (1985)
Resilience of ecosystems: local surprise and global change. -
P. Vitousek, J. Aber, R. Howarth, G. Likens, P. Matson, D. Schindler, W. Schlesinger, D. Tilman (1997)
Technical Report: Human Alteration of the Global Nitrogen Cycle: Sources and ConsequencesEcological Applications, 7
-
(1997)
The nature of landscape dysfunction in rangelands -
Tara Reed-Andersen, S. Carpenter, R. Lathrop (2000)
Phosphorus Flow in a Watershed-Lake EcosystemEcosystems, 3
-
C. Walters (1986)
Adaptive Management of Renewable Resources -
M. Press, N. Huntly, S. Levin (2001)
Ecology: Achievement and Challenge -
P. Ostrander (1978)
Science in processThe Physics Teacher, 16
-
S. Carpenter, M. Press, N. Huntly, S. Levin (2001)
Alternate states of ecosystems: evidence and some implications. -
Ronald Brunner, L. Gunderson, C. Holling, S. Light (1997)
Barriers and bridges to the renewal of ecosystems and institutionsJournal of Wildlife Management, 61
-
C. Geertz (1963)
Agricultural involution : the process of ecological change in Indonesia / Clifford Geertz, 1963
-
S. Carpenter, N. Caraco, D. Correll, R. Howarth, A. Sharpley, V. Smith (1998)
NONPOINT POLLUTION OF SURFACE WATERS WITH PHOSPHORUS AND NITROGENEcological Applications, 8
-
(2000)
Lake sensitivity to phosphorus changes -
(1999)
Contagious disturbance and ecological resilience [dissertation -
Garry Peterson, Craig Allen, C. Holling (1998)
Ecological Resilience, Biodiversity, and ScaleEcosystems, 1
-
A. Kinzig, J. Antle, W. Ascher, W. Brock, S. Carpenter, F. Stuart, Chapin, R. Costanza, K. Cottingham, Michael Dove, H. Dowlatabadi, E. Elliot, K. Ewel, A. Fisher, P. Gober, N. Grimm, Theodore Groves, S. Hanna, G. Heal, Kai Lee, J. Lubchenco, D. Ludwig, J. Martínez-Alier, W. Murdoch, R. Naylor, R. Norgaard, M. Oppenheimer, A. Pfaff, S. Pickett, S. Polasky, H. Pulliam, C. Redman, T. Root, S. Schneider, R. Schuler, T. Scudder, Kathleen Segersen, M. Shaw, David Simpson, Arthur Small, Peter Taylor, S. Leeuw, D. Wall, Mark Wilson (2000)
Nature and Society: An Imperative for Integrated Environmental Research -
(1993)
Method in ecology -
M. Scheffer, W. Brock, Frances Westley (2000)
Socioeconomic Mechanisms Preventing Optimum Use of Ecosystem Services: An Interdisciplinary Theoretical AnalysisEcosystems, 3
-
M. Wilson, S. Carpenter (1999)
ECONOMIC VALUATION OF FRESHWATER ECOSYSTEM SERVICES IN THE UNITED STATES: 1971-1997Ecological Applications, 9
-
N. Macleod (1990)
Issues of size and viability of pastoral holdings in the Western Division of New South Wales.Rangeland Journal, 12
-
(1997)
Nonpoint source control plan for the Lake Mendota Priority Watershed Project: Project summary -
S. Rinaldi, M. Scheffer (2000)
Geometric Analysis of Ecological Models with Slow and Fast ProcessesEcosystems, 3
-
B. Walker, D. LUDWIGt, C. Holling, R. PETERMANt (1981)
STABILITY OF SEMI-ARID SAVANNA GRAZING SYSTEMSJournal of Ecology, 69
-
D. Tilman, J. Downing (1996)
Biodiversity and stability in grasslandsNature, 367
-
James Brander, M. Taylor (1998)
The Simple Economics of Easter Island: A Ricardo-Malthus Model of Renewable Resource UseThe American Economic Review, 88
-
S. Fennessy (1993)
Review of: Restoration of aquatic ecosystems: Science, technology, and public policy: Committee on Restoration of Aquatic Ecosystems-Science, Technology, and Public Policy, National Research Council. National Academy Press, Washington, DCEcological Engineering, 2
-
E. Bennett, Tara Reed-Andersen, J. Houser, John Gabriel, S. Carpenter (1999)
A Phosphorus Budget for the Lake Mendota WatershedEcosystems, 2
-
J. Hurley, D. Armstrong, Andrea DuVall (1992)
Historical Interpretation of Pigment Stratigraphy in Lake Mendota Sediments
- Publisher
- Springer Journals
- Copyright
- Copyright © 2001 by Springer-Verlag New York Inc.
- Subject
- Life Sciences; Ecology; Plant Sciences; Zoology; Environmental Management; Geoecology/Natural Processes; Hydrology/Water Resources
- ISSN
- 1432-9840
- DOI
- 10.1007/s10021-001-0045-9
- Publisher site
- See Article on Publisher Site
Abstract
Resilience is the magnitude of disturbance that can be tolerated before a socioecological system (SES) moves to a different region of state space controlled by a different set of processes. Resilience has multiple levels of meaning: as a metaphor related to sustainability, as a property of dynamic models, and as a measurable quantity that can be assessed in field studies of SES. The operational indicators of resilience have, however, received little attention in the literature. To assess a system's resilience, one must specify which system configuration and which disturbances are of interest. This paper compares resilience properties in two contrasting SES, lake districts and rangelands, with respect to the following three general features: (a) The ability of an SES to stay in the domain of attraction is related to slowly changing variables, or slowly changing disturbance regimes, which control the boundaries of the domain of attraction or the frequency of events that could push the system across the boundaries. Examples are soil phosphorus content in lake districts woody vegetation cover in rangelands, and property rights systems that affect land use in both lake districts and rangelands. (b) The ability of an SES to self-organize is related to the extent to which reorganization is endogenous rather than forced by external drivers. Self-organization is enhanced by coevolved ecosystem components and the presence of social networks that facilitate innovative problem solving. (c) The adaptive capacity of an SES is related to the existence of mechanisms for the evolution of novelty or learning. Examples include biodiversity at multiple scales and the existence of institutions that facilitate experimentation, discovery, and innovation.
Journal
Ecosystems – Springer Journals
Published: Feb 4, 2014