Stable isotope (δ 13 C and δ 15 N) composition of particulate organic matter, nutrients and dissolved organic matter during spring ice retreat at Terra Nova Bay

Abstract Concentration and isotope composition of particulate organic matter were analysed from five coastal sites on the annual fast ice and in the underlying water column at Terra Nova Bay. The highest increases of POC (< 2767 μM C) and PON (< 420 μM N) were reached in bottom ice and the unc...

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Bibliographic Details
Published in:Antarctic Science
Main Authors: Cozzi, Stefano, Cantoni, Carolina
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press (CUP) 2010
Subjects:
Geology
Ecology, Evolution, Behavior and Systematics
Oceanography
Antarc*
Antarctic
Antarctic Science
Sea ice
Online Access:http://dx.doi.org/10.1017/s0954102010000611
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0954102010000611
Description
Summary:Abstract Concentration and isotope composition of particulate organic matter were analysed from five coastal sites on the annual fast ice and in the underlying water column at Terra Nova Bay. The highest increases of POC (< 2767 μM C) and PON (< 420 μM N) were reached in bottom ice and the unconsolidated platelet layer, linked with a large accumulation of nutrients and dissolved organic matter. Isotope POM composition in ice habitats was highly varied (δ 13 C POC : -30.7 to -15.0‰, δ 15 N PON : 1.8–9.9‰). Constant negative δ 13 C POC (> -29.3‰) and positive δ 15 N PON (< 9.4‰) values characterized the upper ice horizons, indicating the prevalence of aged detritus in these assemblages. By contrast, isotope composition (δ 13 C POC : -15.0 to -29.7‰, δ 15 N PON : 1.8–9.6‰) and POC/PON ratios (6.2–12.6) changed markedly in bottom ice and interstitial water, even on short time scales, because of the combined effects of internal growth and mixing among freshly produced biomass. Sea ice breakout caused a large settling of particulates in the water column. It changed δ 13 C POC (from 7.9 to 1.8‰) and δ 15 N PON (7.9–1.8‰) values in suspended particulate matter, indicating that inputs from fast ice strongly affect the isotopic signature of the particulate assemblage Antarctic coastal waters.

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