LM Cammen scite author profile

LM Cammen

3Publications

113Citation Statements Received

106Citation Statements Given

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189

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100

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Electron transport system (ETS) activity as a measure of benthic macrofaunal metabolism

Cammen¹,

Corwin²,

Christensen³

1990

Mar. Ecol. Prog. Ser.

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The accurate determination of respiration rates is critical to any study of energy flow through marine ecosystems, and in energy budgets of individual marine invertebrates, respiration generally accounts for the major portion of the organic matter ingested. However, there are limitations to current methods for measuring respiration in macrobenthic invertebrates as they are generally applied: measurements are made in the laboratory, not in the field; they are usually carried out in clean sediment or in no sediment at all; and the animals typically are starved during the experiments. This study reports the first application of electron transport system (ETS) activity to estimate in situ rates of oxygen utilization in macrobenthic invertebrates. Measurements of ETS activity and oxygen uptake (R) were made on 2 intertidal species, the polychaete Nereis virens and the amphipodCorophium volutator, under natural conditions and during starvation. ETS activity was related to body size in both species in a manner typical for a metabolic function (ETS = a wP). R:ETS ratios were 0.09 for N. wrens and 0.42 for C. volutator (cf. a literature value of 0.49 for zooplankton) The lower ratio for the former may result from a more sedentary life style or the importance of anaerobic pathways to their overall energetics. The general trend of the starvation experiments for both species was that oxygen uptake declined over 10 to 12 d, but ETS activity remained relatively constant. C. volutator ETS activity was lower in early spring and consistently higher from early summer through fall while N. virens had its highest activity in the early spring and a lower but consistent level of activity in summer and fall; the changes may have been related to the abundance of food resources or to reproductive activity. ETS activity is potentially useful as an estimator of long-term variability in metabolic activity of marine macrofauna.

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Effect of Particle Size on Organic Content and Microbial Abundance Within Four Marine Sediments

Cammen¹

1982

Mar. Ecol. Prog. Ser.

110

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Sieved size fractions of 4 marine sediments were examined for 4 quantities presumably related to nutritional value -organic carbon, bacteria, chlorophyll a and C : N ratio of organic matterin order to determine whether they showed a consistent relation with particle size. However, there was no predictable relationship between these quantities and particle size either within or among the 4 sediments. Despite wide variations in organic carbon, bacterial abundance and chlorophyll a content, C : N ratios were similar (near 7) for most of the size fractions from all 4 areas; apparently there was a large, and as yet unidentified, pool of organic carbon in these sediments other than living bacteria or microalgae with a C : N ratio near 7. Variation of microbial abundance between winter and summer was inconsistent, but bacteria always accounted for less than 2 % of the organic carbon in the sediment. This study emphasizes the difficulty in attempting to predict nutritional value of sediments from bulk samples.

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A deep protozoan maximum in the Gulf of Maine

Townsend¹,

Cammen²

1985

Mar. Ecol. Prog. Ser.

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We found a deep maximum In the abundance of larger protozoans (>35 wm) in the Gulf of Maine at depths from 55 to 100 m, which was well below the euphotic zone, pycnocline, and the depths of peak biomass and production of both phytoplankton and b a c t e r~a .Our calculations of the energetics of these protozoan populations suggest that they are unable to obtain sufficient nutrition from local microbial production. We discuss the possibility that organic material, which settles out of the surface layer, might collect at a deep hydrographic anomaly and sustaln the protozoans in the deep maximum.

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LM Cammen

Electron transport system (ETS) activity as a measure of benthic macrofaunal metabolism

Effect of Particle Size on Organic Content and Microbial Abundance Within Four Marine Sediments

A deep protozoan maximum in the Gulf of Maine

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