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Electronic Resource

REGIME SHIFTS, RESILIENCE, AND BIODIVERSITY IN ECOSYSTEM MANAGEMENT (2004)

Folke, Carl ; Carpenter, Steve ; Walker, Brian ; [et al.]

Palo Alto, Calif. : Annual Reviews

Annual Review of Ecology, Evolution, and Systematics 35 (2004), S. 557-581

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ISSN: 1543-592X

Source: Annual Reviews Electronic Back Volume Collection 1932-2001ff

Topics: Biology

Notes: We review the evidence of regime shifts in terrestrial and aquatic environments in relation to resilience of complex adaptive ecosystems and the functional roles of biological diversity in this context. The evidence reveals that the likelihood of regime shifts may increase when humans reduce resilience by such actions as removing response diversity, removing whole functional groups of species, or removing whole trophic levels; impacting on ecosystems via emissions of waste and pollutants and climate change; and altering the magnitude, frequency, and duration of disturbance regimes. The combined and often synergistic effects of those pressures can make ecosystems more vulnerable to changes that previously could be absorbed. As a consequence, ecosystems may suddenly shift from desired to less desired states in their capacity to generate ecosystem services. Active adaptive management and governance of resilience will be required to sustain desired ecosystem states and transform degraded ecosystems into fundamentally new and more desirable configurations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1146/annurev.ecolsys.35.021103.105711

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2

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ADAPTIVE GOVERNANCE OF SOCIAL-ECOLOGICAL SYSTEMS (2005)

Folke, Carl ; Hahn, Thomas ; Olsson, Per ; [et al.]

Palo Alto, Calif. : Annual Reviews

Annual Review of Environment and Resources 30 (2005), S. 441-473

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ISSN: 1543-5938

Source: Annual Reviews Electronic Back Volume Collection 1932-2001ff

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: We explore the social dimension that enables adaptive ecosystem-based management. The review concentrates on experiences of adaptive governance of social-ecological systems during periods of abrupt change (crisis) and investigates social sources of renewal and reorganization. Such governance connects individuals, organizations, agencies, and institutions at multiple organizational levels. Key persons provide leadership, trust, vision, meaning, and they help transform management organizations toward a learning environment. Adaptive governance systems often self-organize as social networks with teams and actor groups that draw on various knowledge systems and experiences for the development of a common understanding and policies. The emergence of "bridging organizations" seem to lower the costs of collaboration and conflict resolution, and enabling legislation and governmental policies can support self-organization while framing creativity for adaptive comanagement efforts. A resilient social-ecological system may make use of crisis as an opportunity to transform into a more desired state.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1146/annurev.energy.30.050504.144511

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3

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Effect of aquaculture on world fish supplies (2000)

Goldburg, Rebecca J. ; Primavera, Jurgenne H. ; Kautsky, Nils ; [et al.]

[s.l.] : Macmillian Magazines Ltd.

Nature 405 (2000), S. 1017-1024

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] Global production of farmed fish and shellfish has more than doubled in the past 15 years. Many people believe that such growth relieves pressure on ocean fisheries, but the opposite is true for some types of aquaculture. Farming carnivorous species requires large inputs of wild fish for feed. ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/35016500

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Catastrophic shifts in ecosystems (2001)

Carpenter, Steve ; Foley, Jonathan A. ; Folke, Carl ; [et al.]

[s.l.] : Macmillian Magazines Ltd.

Nature 413 (2001), S. 591-596

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] All ecosystems are exposed to gradual changes in climate, nutrient loading, habitat fragmentation or biotic exploitation. Nature is usually assumed to respond to gradual change in a smooth way. However, studies on lakes, coral reefs, oceans, forests and arid lands have shown that smooth change can ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/35098000

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5

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Economic growth, carrying capacity, and the environment (1996)

Arrow, Kenneth ; Bolin, Bert ; Costanza, Robert ; [et al.]

Cambridge : Cambridge University Press

Environment and development economics 1 (1996), S. 104-110

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ISSN: 1355-770X

Source: Cambridge Journals Digital Archives

Topics: Economics

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1017/S1355770X00000413

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Quantifying the nitrogen retention capacity of natural wetlands in the large-scale drainage basin of the Baltic Sea (1998)

Jansson, Åsa ; Folke, Carl ; Langaas, Sindre

Springer

Landscape ecology 13 (1998), S. 249-262

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ISSN: 1572-9761

Keywords: GIS ; wetlands ; large-scale drainage basin ; nitrogen retention ; ecosystem services

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract We estimate the nitrogen retention capacity of natural wetlands in the 1.7 million km2 Baltic Sea drainage basin, using a wetland GIS data base. There are approximately 138,000 km2 of wetlands (bogs and fens) in the Baltic Sea drainage basin, corresponding to 8% of the area. The input of nitrogen to natural wetlands from atmospheric deposition was estimated to 55,000–161,000 ton y1. A map of the deposition of both wet and dry nitrogen is presented. The input from the human population was estimated to 255,000 ton y1 in terms of excretory release in processed sewage water. There may also be leakage from forests and agricultural land into the wetlands. Due to lack of data on hydrology and topography, such potential nitrogen sources are not accounted for here. The capacity of the wetlands to retain the atmospheric deposition of nitrogen was estimated to 34,000–99,000 ton y1. The potential retention by wetlands was estimated to 57,000–145,000 ton y1 when the nitrogen input from the human population was added. If drained wetlands were to be restored and their area added to the present wetland area, the nitrogen retention capacity was estimated to increase to 196,000–261,000 ton y1. Our results indicate that existing natural wetlands in the Baltic Sea drainage basin annually can retain an amount of nitrogen which corresponds to about 5–13% of annual total (natural and anthropogenic) nitrogen emissions entering the Baltic Sea. The ecosystem retention service performed by wetlands accounts for a substantial nitrogen removal, thereby reducing the eutrophication of the Baltic Sea.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008020506036

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7

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Energy economy of salmon aquaculture in the Baltic sea (1988)

Folke, Carl

Springer

Environmental management 12 (1988), S. 525-537

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ISSN: 1432-1009

Keywords: Energy analysis ; Atlantic salmon ; Aquaculture ; Baltic Sea ; Resource management

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract Resource utilization in Atlantic salmon aquaculture in the Baltic Sea was investigated by means of an energy analysis. A comparison was made between cage farming and sea ranching enterprises each with yearly yields of 40 t of Atlantic salmon. A variety of sea ranching options were evaluated, including (a) conventional ranching, (b) ranching employing a delayed release to the sea of young smolts, (c) harvesting salmon both by offshore fishing fleets and as they return to coastal areas, and (d) when offshore fishing is banned, harvesting salmon only as they return to coastal areas where released. Inputs both from natural ecosystems (i.e., fish consumed by ranched salmon while in the sea and raw materials used for producing dry food pellets) and from the economy (i.e., fossil fuels and energy embodied in economic goods and services) were quantified in tonnes for food energy and as direct plus indirect energy cost (embodied energy). The fixed solar energy (estimated as primary production) and the direct and indirect auxiliary energy requirements per unit of fish output were expressed in similar units. Similar quantities of living resources in tonnes per unit of salmon biomass output are required whether the salmon are feeding in the sea or are caged farmed. Cage farming is about 10 times more dependent on auxiliary energies than sea ranching. Sea ranching applying delayed release of smolts is 35–45% more efficient in the use of auxiliary energies than conventional sea ranching and cage farming. Restriction of offshore fishing would make sea ranching 3 to 6.5 times more efficient than cage farming. The fixed solar energy input to Atlantic salmon aquaculture is 4 to 63 times larger than the inputs of auxiliary energy. Thus, cage farming and sea ranching are both heavily dependent on the productivity of natural ecosystems. It is concluded that sustainable development of the aquaculture industry must be founded on ecologically integrated technologies which utilize the free production in marine ecosystems without exhausting or damaging the marine environment.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01873265

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Ecological limitations and appropriation of ecosystem support by shrimp farming in Colombia (1994)

Larsson, Jonas ; Folke, Carl ; Kautsky, Nils

Springer

Environmental management 18 (1994), S. 663-676

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ISSN: 1432-1009

Keywords: Aquaculture ; Shrimp farming ; Colombia ; Sustainability ; Resource use ; Life support system ; Carrying capacity

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract Shrimp farming in mangrove areas has grown dramatically in Asia and Latin America over the past decade. As a result, demand for resources required for farming, such as feed, seed, and clean water, has increased substantially. This study focuses on semiintensive shrimp culture as practiced on the Caribbean coast of Colombia. We estimated the spatial ecosystem support that is required to produce the food inputs, nursery areas, and clean water to the shrimp farms, as well as to process wastes. We also made an estimate of the natural and human-made resources necessary to run a typical semiintensive shrimp farm. The results show that a semiintensive shrimp farm needs a spatial ecosystem support—the ecological footprint—that is 35–190 times larger than the surface area of the farm. A typical such shrimp farm appropriates about 295 J of ecological work for each joule of edible shrimp protein produced. The corresponding figure for industrial energy is 40:1. More than 80% of the ecological primary production required to feed the shrimps is derived from external ecosystems. In 1990 an area of 874–2300 km2 of mangrove was required to supply shrimp postlarvae to the farms in Colombia, corresponding to a total area equivalent to about 20–50% of the country’s total mangrove area. The results were compared with similar estimates for other food production systems, particularly aquacultural ones. The comparison indicates that shrimp farming ranks as one of the most resource-intensive food production systems, characterizing it as an ecologically unsustainable throughput system. Based on the results, we discuss local, national, and regional appropriation of ecological support by the semiintensive shrimp farms. Suggestions are made for how shrimp farming could be transformed into a food production system that is less environmentally degrading and less dependent on external support areas.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02394632

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Linking Freshwater Flows and Ecosystem Services Appropriated by People: The Case of the Baltic Sea Drainage Basin (1999)

Jansson, Åsa ; Folke, Carl ; Rockström, Johan ; [et al.]

Springer

Ecosystems 2 (1999), S. 351-366

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ISSN: 1435-0629

Keywords: Key words: ecosystem services; ecological footprints; life-support systems; freshwater management; watershed; Baltic Sea drainage basin.

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: ABSTRACT Humanity's dependence on ecosystem support is “mentally hidden” to large segments of society; it has no price in the market and is seldom accounted for in decision making. Similarly, the needs of ecosystems for fresh water for generation of nature's services are largely invisible. Freshwater assessments predominantly have focused on human uses of liquid water in rivers, lakes, and reservoirs. We estimated the spatial appropriation of terrestrial and marine ecosystems—the ecological footprint—of the 85 million inhabitants in the Baltic Sea drainage basin with regard to consumption of food and timber and waste assimilation of nutrients and carbon dioxide. We also estimated the amount of fresh water—the water vapor flow—that the inhabitants depend upon for their appropriation of these ecosystem services. The ecological footprint estimate corresponds to an area as large as 8.5–9.5 times the Baltic Sea and its drainage basin with a per capita ecosystem appropriation of 220,000–250,000 m2. This large estimate is mainly attributed to carbon sequestering by marine ecosystems and forests. The water vapor flow of the ecological footprint of forests, wetlands, agriculture, and inland water bodies for making the human appropriation of ecosystem services possible is estimated at 1175–2875 km3 y−1. Human dependence on water vapor flows for ecosystem services is as great as 54 times the amount of freshwater runoff that is assessed and managed in society. Decision making on an increasingly human-dominated planet will have to address explicitly the critical interdependencies between freshwater flows and the capacity of ecosystems to generate services. We advocate a dynamic ecohydrological landscape-management approach upstream and downstream in watersheds to reduce unintentional impacts, irreversible change, and further loss of freshwater resources, ecosystem services, and resilience.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s100219900085

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Minireviews: Exploring the Basic Ecological Unit: Ecosystem-like Concepts in Traditional Societies (1998)

Berkes, Fikret ; Kislalioglu, Mina ; Folke, Carl ; [et al.]

Springer

Ecosystems 1 (1998), S. 409-415

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ISSN: 1435-0629

Keywords: Key words: traditional ecological knowledge; human ecology; ecological anthropology; ecosystem; watershed.

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: ABSTRACT Ancient conceptualizations of ecosystems exist in several Amerindian, Asia-Pacific, European, and African cultures. The rediscovery by scientists of ecosystem-like concepts among traditional peoples has been important in the appreciation of traditional ecological knowledge among ecologists, anthropologists, and interdisciplinary scholars. Two key characteristics of these systems are that (a) the unit of nature is often defined in terms of a geographical boundary, such as a watershed, and (b) abiotic components, plants, animals, and humans within this unit are considered to be interlinked. Many traditional ecological knowledge systems are compatible with the emerging view of ecosystems as unpredictable and uncontrollable, and of ecosystem processes as nonlinear, multiequilibrium, and full of surprises. Traditional knowledge may complement scientific knowledge by providing practical experience in living within ecosystems and responding to ecosystem change. However, the “language” of traditional ecology is different from the scientific and usually includes metaphorical imagery and spiritual expression, signifying differences in context, motive, and conceptual underpinnings.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s100219900034

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