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    Evidence for the Occurrence of Specific Iron (III)-Binding Compounds in Near-Shore Marine Ecosystems
    Applied Microbiology (1975)
    Marilyn L.F. EstepJames ArmstrongC. Van Baalen
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    Keywords:
    Marine ecosystem
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    Geochemistry and Elemental Analysis
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    Dimethylsulphide, clouds, and phytoplankton: Insights from a simple plankton ecosystem feedback model
    Global Biogeochemical Cycles (2007)
    Roger CroppJohn NorburyR. D. Braddock
    The hypothesis that marine plankton ecosystems may effectively regulate climate by the production of dimethylsulphide (DMS) has attracted substantial research effort over recent years. This hypothesis suggests that DMS produced by marine ecosystems can affect cloud properties and hence the averaged irradiance experienced by the phytoplankton that produce DMS's precursor dimethylsulphoniopropionate (DMSP). This paper describes the use of a simple model to examine the effects of such a biogenic feedback on the ecosystem that initiates it. We compare the responses to perturbation of a simple marine nitrogen‐phytoplankton‐zooplankton ( NPZ ) ecosystem model with and without biogenic feedback. Our analysis of this heuristic model reveals that the addition of the feedback can increase the model's resilience to perturbation and hence stabilize the model ecosystem. This result suggests the hypothesis that DMS may play a role in stabilizing marine plankton ecosystem dynamics through its effect on the atmosphere.
    Marine ecosystem
    Ecosystem model
    Citations (14)
    Evaluation of the Damage to Environmental State of the Northern-Western Black Sea Shelf Ecosystems
    Springer eBooks (2002)
    В. Н. ЕгоровG.G. PolikarpovН. Н. Терещенко
    Marine ecosystem
    Black Sea
    Coastal ecosystem
    Citations (0)
    Assessing the changing biodiversity of exploited marine ecosystems
    Current Opinion in Environmental Sustainability (2017)
    Lynne J. ShannonMarta Coll
    Marine ecosystem
    Marine Biodiversity
    Globe
    Ecosystem-Based Management
    Citations (5)
    Region‐wide changes in marine ecosystem dynamics: state‐space models to distinguish trends from step changes
    Global Change Biology (2011)
    Matthew SpencerNova MieszkowskaLeonie A. RobinsonStephen D. SimpsonMichael T. Burrows
    Abstract Regime shifts are sudden changes in ecosystem structure that can be detected across several ecosystem components. The concept that regime shifts are common in marine ecosystems has gained popularity in recent years. Many studies have searched for the step‐like changes in ecosystem state expected under a simple interpretation of this idea. However, other kinds of change, such as pervasive trends, have often been ignored. We assembled over 300 ecological time series from seven UK marine regions, covering two to three decades. We developed state‐space models for the first principal component of the time series in each region, a common measure of ecosystem state. Our models allowed both trends and step changes, possibly in combination. We found trends in three of seven regions and step changes in two of seven regions. Gradual and sudden changes are therefore important trajectories to consider in marine ecosystems.
    Marine ecosystem
    Regime shift
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    Citations (19)