Natural variability in hard-bottom communities and possible drivers assessed by a time-series study in the SW Baltic Sea: know the noise to detect the change

Wahl, Martin; Hinrichsen, Hans‐Harald; Lehmann, Andreas; Lenz, Mark

doi:10.5194/bg-10-5227-2013

Cited by 6 publications

(3 citation statements)

References 51 publications

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“…; Wahl et al . ). For parasite communities in fish, our results suggest that the age of the host, i.e., the time available for colonisation and extinction, as well as richness (for endoparasites) explain the seriation pattern of succession.…”

Section: Discussionmentioning

confidence: 97%

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Testing for deterministic succession in metazoan parasite communities of marine fish

et al. 2020

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Parasite communities are similar to free‐living communities; decay of similarity over geographic distance, theory of island biogeography, species–area relationships and nestedness have been documented in both communities. Ecological succession has been studied in free‐living communities but has rarely been examined in parasite communities. We use seriation with replication to test the hypothesis that succession of parasite community structure is deterministic, thus developing throughout consecutive changes along the fish ontogeny, via a seriated pattern. 12 306 marine fishes (95 species) were studied. In 40 species, a seriated pattern was detected; 25 had a tendency towards a seriated pattern, and for 31 species, succession was at random. Age‐classes for each host species explained deterministic successional patterns for whole parasite communities and ectoparasites. Richness and number of age‐classes explained this pattern for endoparasites. Seriated successional pattern was evident for parasite communities of long‐lived marine fish, indicating that parasite communities follow sequential changes over time, like many free‐living communities.

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Section: Discussionmentioning

confidence: 97%

“…; Wahl et al . ; Uribe et al . ; Guerra‐Castro & Cruz‐Motta, ) also applies for parasite communities as well, highlighting the robustness of this theory in ecology.…”

Section: Introductionmentioning

confidence: 99%

Testing for deterministic succession in metazoan parasite communities of marine fish

et al. 2020

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“…This is a crucial gap, as realistic predictions on the fate of species and populations require accurate indicators of experienced environmental conditions. This has become especially apparent in recent studies, highlighting that the frequency, intensity, and sequence of abiotic change might be more important to the alteration of population dynamics and species distribution ( Pearson et al., 2009 ) than changes in mean conditions ( Wahl et al., 2013 ; Benedetti-Cecchi et al., 2015 ). To strengthen climate predictions, scientists require a tool that provides time-integrated in situ data on both the individual's physiological response (metabolism) and the associated spatiotemporal indicators of experienced abiotic factors ( Bates et al., 2018 ; Kelly, 2019 ).…”

Section: Energy Expenditure and Statement Of Purposementioning

confidence: 99%

Incorporating otolith-isotope inferred field metabolic rate into conservation strategies

de Groot,

Trueman,

Bates

2024

Conservation Physiology

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Fluctuating ocean conditions are rearranging whole networks of marine communities—from individual-level physiological thresholds to ecosystem function. Physiological studies support predictions from individual-level responses (biochemical, cellular, tissue, respiratory potential) based on laboratory experiments. The otolith-isotope method of recovering field metabolic rate has recently filled a gap for the bony fishes, linking otolith stable isotope composition to in situ oxygen consumption and experienced temperature estimates. Here, we review the otolith-isotope method focusing on the biochemical and physiological processes that yield estimates of field metabolic rate. We identify a multidisciplinary pathway in the application of this method, providing concrete research goals (field, modeling) aimed at linking individual-level physiological data to higher levels of biological organization. We hope that this review will provide researchers with a transdisciplinary ‘roadmap’, guiding the use of the otolith-isotope method to bridge the gap between individual-level physiology, observational field studies, and modeling efforts, while ensuring that in situ data is central in marine policy-making aimed at mitigating climatic and anthropogenic threats.

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Long-term records of hard-bottom communities in the southwestern Baltic Sea reveal the decline of a foundation species

Franz

Barboza

Hinrichsen

et al. 2019

Estuarine, Coastal and Shelf Science

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Natural variability in hard-bottom communities and possible drivers assessed by a time-series study in the SW Baltic Sea: know the noise to detect the change

Cited by 6 publications

References 51 publications

Testing for deterministic succession in metazoan parasite communities of marine fish

Testing for deterministic succession in metazoan parasite communities of marine fish

Incorporating otolith-isotope inferred field metabolic rate into conservation strategies

Long-term records of hard-bottom communities in the southwestern Baltic Sea reveal the decline of a foundation species

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