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dc.contributor.authorEllis, Joanneen_NZ
dc.contributor.authorClark, Danaen_NZ
dc.contributor.authorHewitt, Judi E.en_NZ
dc.contributor.authorTaiapa, Caineen_NZ
dc.contributor.authorSinner, Jimen_NZ
dc.contributor.authorPatterson, Murrayen_NZ
dc.contributor.authorHardy, Derryleaen_NZ
dc.contributor.authorPark, Stephenen_NZ
dc.contributor.authorGardner, Bruceen_NZ
dc.contributor.authorMorrison, Aliceen_NZ
dc.contributor.authorCulliford, Daviden_NZ
dc.contributor.authorBattershill, Christopher N.en_NZ
dc.contributor.authorHancock, Nicoleen_NZ
dc.contributor.authorHale, Lydiaen_NZ
dc.contributor.authorAsher, Roden_NZ
dc.contributor.authorGower, Fionaen_NZ
dc.contributor.authorBrown, Erinen_NZ
dc.contributor.authorMcCallion, Aaronen_NZ
dc.date.accessioned2015-08-04T02:23:44Z
dc.date.available2013en_NZ
dc.date.available2015-08-04T02:23:44Z
dc.date.issued2013en_NZ
dc.identifier.citationEllis, J., Clark, D., Hewitt, J., Taiapa, C., Sinner, J., Patterson, M., … McCallion, A. (2013). Ecological Survey of Tauranga Harbour. Prepared for Manaaki Taha Moana, Manaaki Taha Moana Research Report No. 13. Cawthron Report No. 2321. 56 p. plus appendices.en
dc.identifier.isbn978-0-9876639-2-4en_NZ
dc.identifier.urihttps://hdl.handle.net/10289/9515.1
dc.description.abstractThis report summarises the results of biological and physical data collected from a broadscale intertidal survey of Tauranga Harbour conducted between December 2011 and February 2012. The survey was designed to understand more fully the role of various anthropogenic stressors on the ecology of the harbour. The research was conducted as part of the Manaaki Taha Moana (MTM) programme. The wider research project aims to restore and enhance coastal ecosystems and their services of importance to iwi/hapū, by workingwith iwi to improve knowledge of these ecosystems and the degradation processes that affect them. In this report we assess the health of macrofaunal benthic communities (bottom-dwelling animals) as well as trends in sediments, nutrients and contaminants. The results indicate that the sites identified as most impacted were generally located in the upper reaches of estuaries in some of the locations least exposed to wind, waves and currents. In addition, the biological community composition characterizing sites with different sediment textures, nutrient and contaminant loadings were found to vary. Sediments within Tauranga Harbour were predominantly sandy with the percentage of mud within a similar range as measured for other New Zealand estuaries. The exceptions included Te Puna Estuary and Apata Estuary, which experience higher rates of sedimentation. Heavy metal contamination in sediments is often highly correlated with the percentage of mud content due to the adherence of chemicals to fine sediments and/or organic content. It is, therefore, not surprising that heavy metal concentrations were also highest in the depositional inner areas of the harbour, such as Te Puna Estuary. The heavy metal contaminant levels within Tauranga were well below relevant guideline thresholds and lower than concentrations measured in many other estuaries in New Zealand and overseas. Although the three metals recorded were found to be highly correlated, zinc levels tended tobe closer to guideline thresholds for possible biological effects. Sediment nutrient concentrations in the harbour tended to decline with distance from the inner harbour and associated rivers. Te Puna Estuary showed comparatively high nitrogen and phosphorus loadings. Comparison of sediment nutrient concentrations with other New Zealand estuaries indicates that the Tauranga Harbour sits within a range typical for slightly to moderately enriched estuaries. Although total phosphorous was low compared with other estuaries, total N:P ratios suggest Tauranga Harbour is still limited by nitrogen. We developed a BHM using statistical ordination techniques to identify key stressors affecting the 'health' of macrofaunal communities. Sediments, nutrients and heavy metals were identified as key 'stressors', i.e. variables affecting the ecology of the harbour. Therefore, three multivariate models were developed based on the variability in community composition using canonical analysis of principal coordinates (CAP). The ecological assemblages generally reflected gradients of stress or pollution very well. However, the CAP models for sediments and contaminants performed best.en_NZ
dc.format.mimetypeapplication/pdf
dc.language.isoen
dc.publisherCawthron Instituteen_NZ
dc.relation.ispartofseriesCawthron Report
dc.relation.ispartofseriesManaaki Taha Moana Research Report
dc.relation.urihttp://www.cawthron.org.nz/media_new/publications/pdf/2014_01/CawRpt_2321_MTM_Broad-Scale_Survey_Tauranga_Harbour_Report_13_1.pdfen_NZ
dc.rights©2013 Manaaki Taha Moana Research Team. Used with permission.
dc.titleEcological Survey of Tauranga Harbouren_NZ
dc.typeReport
uow.relation.seriesMTM Report No.13, Cawthron Report No 2321en_NZ
dc.relation.isPartOfEcological Survey of Tauranga Harbouren_NZ
pubs.commissioning-bodyManaaki Taha Moanaen_NZ
pubs.confidentialfalseen_NZ
pubs.elements-id129149
pubs.place-of-publicationNelsonen_NZ
pubs.publisher-urlhttp://www.cawthron.org.nz/publication/science-reports/ecological-survey-tauranga-harbour/en_NZ


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