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Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
CORRIGENDUM (Open Access)

Corrigendum to: Constraining nitrogen sources to a seagrass-dominated coastal embayment by using an isotope mass balance approach

Douglas G. Russell, Adam J. Kessler, Wei Wen Wong, Dick Van Oevelen and Perran L. M. Cook

Marine and Freshwater Research 73(5) 718 - 718
Published: 02 May 2022

Abstract

Nitrogen (N) is often the key nutrient limiting primary production in coastal waters. Quantifying sources and sinks of N is therefore critical to understanding the factors that underpin the productivity of coastal ecosystems. Constraining nitrogen inputs can be difficult for some terms such as N fixation and marine exchange as a consequence of uncertainties associated with scaling and stochasticity. To help overcome these issues, we undertook a N budget incorporating an isotope and mass balance to constrain N sources in a large oligotrophic coastal embayment (Western Port, Australia). The total N input to Western Port was calculated to be 1400Mg Nyear−1, which is remarkably consistent with previous estimates of sedimentation rates within the system. Catchment inputs, N fixation, marine sources and atmospheric deposition comprised 44, 28, 28 and 13% of N inputs respectively. Retention of marine-derived N equated to ~3 and ~10% of total N and NOx flushed through the system from the marine end-member. The relatively high contribution of N fixation compared with previous studies was most likely to be due to the high proportion of nutrient-limited intertidal sediments where N is mediated by seagrasses and sediment cyanobacteria.

https://doi.org/10.1071/MF21320_CO

© CSIRO 2022

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