¹New South Wales Environment Protection Authority, PO Box A290, Sydney South, NSW 1232, Australia
²Department of Earth Sciences, University of Waikato, PO Box 11-115, New Zealand
³Department of Earth and Ocean Sciences, University of British Columbia, 6270 University Blvd, Vancouver, B.C., Canada
⁴ASR Ltd, 1 Wainui Rd, Raglan, New Zealand

^*Corresponding author, Fax: 61 2 6773 2769; Email: pritchardt@epa.nsw.gov.au

Abstract

  Reports of visible algal blooms have increased in New South Wales (NSW) coastal waters since 1990. Our three-year, multi-disciplinary study assessed the relative importance of natural and anthropogenic nutrients on the development of phytoplankton blooms in the waters between Port Stephens and Jervis Bay. The hinterland of this region accommodates 85% of the population of the 6.5 million inhabitants of New South Wales, Australia. Three deepwater outfalls represented the principal, continuous, anthropogenic nutrient source with nitrogen mainly in the bioavailable form of ammonia. Sewage effluent typically remained submerged especially during the spring-summer period when algal blooms occur most frequently. On average, coastal catchments contributed relatively small loads of nutrients except during major flood events because extensive estuaries tend to buffer nutrient fluxes to the ocean. Episodic slope water intrusions were the principal source of nitrogen (nitrate) to coastal waters especially during spring and summer. Phytoplankton blooms appeared to occur in response to slope water intrusions irrespective of proximity to other major nutrient sources. A new understanding of mechanisms of slope water intrusion emerged from model simulations and direct observations. A major upwelling event in January 1998, towards the end of the 1997/98 El Niño period, demonstrated the importance of large scale slope water intrusions on the development of algal blooms. Although natural upwelling/uplifting was found to be the principal driver for major algal blooms, it is possible that more subtle impacts of anthropogenic nutrients may be masked by 'natural' variability including that due to the El Niño Southern Oscillation.