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Nutrient Dynamics and Food-Web Stability (1989)

DeAngelis, D L ; Mulholland, P J ; Palumbo, A V ; [et al.]

Palo Alto, Calif. : Annual Reviews

Annual Review of Ecology, Evolution, and Systematics 20 (1989), S. 71-95

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ISSN: 0066-4162

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

Topics: Biology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1146/annurev.es.20.110189.000443

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Energy flow and the number of trophic levels in ecological communities (1978)

DEANGELIS, D. L. ; GARDNER, R. H. ; MANKIN, J. B. ; [et al.]

[s.l.] : Nature Publishing Group

Nature 273 (1978), S. 406-407

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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] PIMM and Lawton1 showed, using Monte Carlo simulation methods, that the return times to equilibrium, 7"R, following small perturbations to ecological food chain populations modelled by Lotka-Volterra equations, are positively correlated with the lengths, L, of the food chains. We have made similar ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/273406c0

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Resilience and local stability in a nutrient-limited resource-consumer system (1989)

Nakajima, H. ; DeAngelis, D. L.

Springer

Bulletin of mathematical biology 51 (1989), S. 501-510

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ISSN: 1522-9602

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Mathematics

Notes: Abstract The “paradox of enrichment” predicts that increasing the growth rate of the resource in a resource-consumer dynamic system, by nutrient enrichment, for example, can lead to local instability of the system—that is, to a Hopf bifurcation. The approach to the Hopf bifurcation is accompanied by a decrease in resilience (rate of return to equilibrium). On the other hand, studies of nutrient cycling in food webs indicate that an increase in the nutrient input rate usually results in increased resilience. Here these two apparently conflicting theoretical results are reconciled with a model of a nutrient-limited resource-consumer system in which the tightly recycled limiting nutrient is explicitly modelled. It is shown that increasing nutrient input may at first lead to increased resilience and that resilience decreases sharply only immediately before the Hopf bifurcation is reached.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02460087

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Indices of landscape pattern (1988)

O'Neill, R. V. ; Krummel, J. R. ; Gardner, R. H. ; [et al.]

Springer

Landscape ecology 1 (1988), S. 153-162

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ISSN: 1572-9761

Keywords: index ; dominance ; contagion ; fractal

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Landscape ecology deals with the patterning of ecosystems in space. Methods are needed to quantify aspects of spatial pattern that can be correlated with ecological processes. The present paper develops three indices of pattern derived from information theory and fractal geometry. Using digitized maps, the indices are calculated for 94 quadrangles covering most of the eastern United States. The indices are shown to be reasonably independent of each other and to capture major features of landscape pattern. One of the indices, the fractal dimension, is shown to be correlated with the degree of human manipulation of the landscape.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00162741

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Effect of periphyton biomass on hydraulic characteristics and nutrient cycling in streams (1994)

Mulholland, P. J. ; Steinman, A. D. ; Marzolf, E. R. ; [et al.]

Springer

Oecologia 98 (1994), S. 40-47

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ISSN: 1432-1939

Keywords: Stream periphyton ; Nutrient cycling ; Stream hydraulics ; Transient storage zones

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The effect of periphyton biomass on hydraulic characteristics and nutrient cycling was studied in laboratory streams with and without snail herbivores. Hydraulic characteristics, such as average water velocity, dispersion coefficients, and relative volume of transient storage zones (zones of stationary water), were quantified by performing short-term injections of a conservative tracer and fitting an advection-dispersion model to the conservative tracer concentration profile downstream from the injection site. Nutrient cycling was quantified by measuring two indices: (1) uptake rate of phosphorus from stream water normalized to gross primary production (GPP), a surrogate measure of total P demand, and (2) turnover rate of phosphorus in the periphyton matrix. These measures indicate the importance of internal cycling (within the periphyton matrix) in meeting the P demands of periphyton. Dense growths of filamentous diatoms and blue-green algae accumulated in the streams with no snails (high-biomass streams), whereas the periphyton communities in streams with snails consisted almost entirely of a thin layer of basal cells of Stigeoclonium sp. (low-biomass streams). Dispersion coefficients were significantly greater and transient storage zones were significantly larger in the high-biomass streams compared to the low-biomass streams. Rates of GPP-normalized P uptake from water and rates of P turnover in periphyton were significantly lower in high biomass than in low biomass periphyton communities, suggesting that a greater fraction of the P demand was met by recycling in the high biomass communities. Increases in streamwater P concentration significantly increased GPP-normalized P uptake in high biomass communities, suggesting diffusion limitation of nutrient transfer from stream water to algal cells in these communities. Our results demonstrate that accumulations of periphyton biomass can alter the hydraulic characteristics of streams, particularly by increasing transient storage zones, and can increase internal nutrient cycling. They suggest a close coupling of hydraulic characteristics and nutrient cycling processes in stream ecosystems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00326088

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Biogeochemical cycling constraints on stream ecosystem recovery (1990)

DeAngelis, D. L. ; Mulholland, P. J. ; Elwood, J. W. ; [et al.]

Springer

Environmental management 14 (1990), S. 685-697

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ISSN: 1432-1009

Keywords: Nutrient limitation ; Streams ; Resilience ; Resistance ; Artificial streams ; Periphyton

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract In systems where production is limited by the availability of a nutrient, nutrient input to and recycling within the system is related to the resilience, or speed of recovery, of a system to its steady state following a disturbance. In particular, it is shown that the return timeT s of the system to steady state, or the inverse of the resilience, is approximately equal to the mean turnover time of the limiting nutrient in the system. From this relationship, it is possible to understand and predict how various properties of food webs and their environments affect resilience. These properties include nutrient input rate, loss rate, size of the detritus compartment, and trophic structure. The effects of these properties on resilience are described by using simple mathematical models. To test model predictions, experimental studies of the response of periphyton-dominated stream ecosystems to disturbance are being conducted on a set of laboratory streams in which nutrient inputs and grazing intensity are regulated at different levels. In streams without snail grazers (low-grazed streams), 90% recirculation of stream water to reduce nutrient inputs resulted in longer turnover times (T r ) of phosphorus within the stream compared with once-through flow. However, in streams with snail grazers (high-grazed streams), there were no differences in phosphorus turnover time between once-through and partially recirculated treatments. Results on the rate of recovery of periphyton from a flood/scour disturbance to each stream partially support the model prediction of a positive relationship between ecosystem return time (T s ) and nutrient turnover time (T r ) within the streams.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02394718

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