References
Abram NJ, Mulvaney R, Vimeux F, Phipps SJ, Turner J, & England MH. (2014). Evolution of the Southern Annular Mode during the past millennium. Nature Climate Change, 4(7), 564–569. https://doi.org/10.1038/nclimate2235
Aldridge J, & Bell R. (2025). Climate change impacts to extreme weather events associated with insured losses in New Zealand: A review. Environmental Research: Climate, 4(1), e012001. https://doi.org/10.1088/2752-5295/ada1f0
Allan S, Bell RG, & Forkink A. (2023). Coastal realignment: Another coastal challenge. Policy Quarterly, 19(1), 50–57. https://doi.org/10.26686/pq.v19i1.8105
Anderson OF, Stephenson F, Behrens E, & Rowden AA. (2022). Predicting the effects of climate change on deep-water coral distribution around New Zealand: Will there be suitable refuges for protection at the end of the 21st century? Global Change Biology, 28(22), 6556–6576. https://doi.org/10.1111/gcb.16389
Anderson TJ, Morrison M, MacDiarmid A, Clark M, D’Archino R, Nelson W, ... & Wadhwa S. (2019). Review of New Zealand’s Key Biogenic Habitats. NIWA Client report no. 2018139WN, prepared for the Ministry for the Environment. https://environment.govt.nz/assets/Publications/Files/NZ-biogenic-habitat-review.pdf
The Aotearoa Circle. (nd). Tourism Sector Climate Change Scenarios. Retrieved 15 September 2025. https://www.theaotearoacircle.nz/focus-areas/climate/climate-scenarios
Awatere S, King DN, Reid J, Williams L, Masters-Awatere B, Harris P, … & Jackson AM. (2021). He Huringa Āhuarangi, he Huringa Ao: A Changing Climate, a Changing World. Manaaki Whenua Landcare Research Contract Report LC3948, prepared for Ngā Pae o te Māramatanga. https://www.landcareresearch.co.nz/assets/researchpubs/He-huringa-ahuarangi-he-huringa-ao-a-changing-climate-a-changing-world.pdf
Awatere S, Harmsworth G, Harcourt N, Taura Y, Taylor L, Wilcox M, & Hyslop J. (2023). Whakamana te tangata – ka whai oranga te taiao: Indigenous led approaches for catchment health in Aotearoa-New Zealand. PLOS Water, 2(12), e0000170. https://doi.org/10.1371/journal.pwat.0000170
Azizan A, Venter L, Jansen van Rensburg PJ, Ericson JA, Ragg NLC, & Alfaro AC. (2023). Metabolite changes of Perna canaliculus following a laboratory marine heatwave exposure: Insights from metabolomic analyses. Metabolites, 13(7), 815. https://doi.org/10.3390/metabo13070815
Bailey-Winiata APS. (2021). Understanding the Potential Exposure of Coastal Marae and Urupā in Aotearoa New Zealand to Sea-level Rise. [Master’s thesis, University of Waikato – Te Whare Wānanga o Waikato.] http://api.digitalnz.org/records/49827757/source
Balemi CA, & Shears NT. (2023). Emergence of the subtropical sea urchin Centrostephanus rodgersii as a threat to kelp forest ecosystems in northern New Zealand. Frontiers in Marine Science, 10, 1224067. https://doi.org/10.3389/fmars.2023.1224067
Barclay-Kerr H. (2016). From myth and legend to reality: Voyages of rediscovery and knowledge. In E Emerald, RE Rinehart, & A Garcia (Eds), Global South Ethnographies: Minding the Senses (pp 85–91). Sense Publishers. https://doi.org/10.1007/978-94-6300-494-7_6
Barlow DR, Klinck H, Ponirakis D, Branch TA, & Torres LG. (2023). Environmental conditions and marine heatwaves influence blue whale foraging and reproductive effort. Ecology and Evolution 13(2), e9770. http://dx.doi.org/10.1002/ece3.9770
Behrens E, Rickard G, Rosier S, Williams J, Morgenstern O, & Stone D. (2022). Projections of future marine heatwaves for the oceans around New Zealand using New Zealand’s Earth System Model. Frontiers in Climate, 4, 798287. https://doi.org/10.3389/fclim.2022.798287
Behrens E, Dunn MR, Holmes SJ, & Cummings VJ. (2025). Marine Heatwaves and Fisheries in Aotearoa New Zealand: Observed and Projected Temperature Anomalies and Potential Impacts by Fisheries Management Area. New Zealand Aquatic Environment and Biodiversity Report No. 351. Fisheries New Zealand. https://fs.fish.govt.nz/Doc/25860/AEBR-351-2025-Marine-heatwaves-and-fisheries-in-Aotearoa-New-Zealand.pdf.ashx
Bell JJ, Smith RO, Micaroni V, Strano F, Balemi CA, Caiger PE, … & Shears NT. (2023). Marine heat waves drive bleaching and necrosis of temperate sponges. Current Biology, 33(1), 158–163. https://doi.org/10.1016/j.cub.2022.11.013
Bell JJ, Micaroni V, Strano F, Ryan KG, Mitchell K, Mitchell P, … & Smith RO. (2024). Marine heatwave-driven mass mortality and microbial community reorganisation in an ecologically important temperate sponge. Global Change Biology, 30(8), e17417.http://dx.doi.org/10.1111/gcb.17417
Bell RG, Hume TM, & Hicks DM. (2001). Planning for Climate Change Effects on Coastal Margins. New Zealand Climate Change Programme report, prepared for the Ministry for the Environment. https://environment.govt.nz/assets/Publications/Files/effect-coastal-sep01.pdf
Bennett-Jones L, Gnanalingam G, Flack B, Scott NJ, Chambers P, & Hepburn, C. (2022). Constraints to effective comanagement of New Zealand’s customary fisheries: Experiences of the East Otago Taiāpure. Ecology and Society, 27(4), 38. https://doi.org/10.5751/ES-13576-270438
Bennion M, Ross PM, Lane HS, & McDonald IR. (2022). Bacterial composition in the toheroa (Paphies ventricosa), a threatened surf clam from Aotearoa (New Zealand). Marine Biology, 169, 39. http://dx.doi.org/10.1007/s00227-022-04025-y
Bennion M, Brough T, Leunissen E, Morrison M, Hillman JR, Rowden AA, … & Lundquist CJ. (2024). Modelling spatial distributions of biogenic habitat-forming taxa to inform marine spatial planning. Aquatic Conservation: Marine and Freshwater Ecosystems, 34(3), e4079. https://doi.org/10.1002/aqc.4079
Berthelsen A. (2024). Seagrass quality and extent. In D Lohrer, A Alder, P Bellingham, A Berthelsen, L Biessy, E Biggs, … & J Zeldis, Information Stocktakes of Fifty-five Environmental Attributes across Air, Soil, Terrestrial, Freshwater, Estuaries and Coastal Waters Domains. NIWA, Manaaki Whenua Landcare Research, Cawthron Institute and Environet Limited. Report No. 2024216HN, prepared for the Ministry for the Environment. https://environment.govt.nz/publications/information-stocktakes-of-fifty-five-environmental-attributes
Biessy L, Puddick J, Wood SA, Selwood AI, Carbines M, & Smith KF. (2024). First report of accumulation of lyngbyatoxin-a in edible shellfish in Aotearoa New Zealand from marine benthic cyanobacteria. Toxins, 16(12), 522. http://dx.doi.org/10.3390/toxins16120522
Bodeker G, Cullen N, Katurji M, McDonald A, Morgenstern O, Noone D, … & Tait A. (2022). Aotearoa New Zealand climate Change Projections Guidance: Interpreting the Latest IPCC WG1 Report Findings. Report number CR 501, prepared for the Ministry for the Environment. https://environment.govt.nz/publications/aotearoa-new-zealand-climate-change-projections-guidance/
Boers N. (2021). Observation-based early-warning signals for a collapse of the Atlantic Meridional Overturning Circulation. Nature Climate Change, 11, 680–688. https://doi.org/10.1038/s41558-021-01097-4
Bollen M, Pilditch CA, Battershill CN, & Bischof K. (2016). Salinity and temperature tolerance of the invasive alga Undaria pinnatifida and native New Zealand kelps: Implications for competition. Marine Biology, 163, 194. https://doi.org/10.1007/s00227-016-2954-3
Böök IM, Krieger EC, Phillips NE, Michael KP, Bell JJ, Dillon WDN, & Cornwall CE. (2024). Effects of ocean acidification on the interaction between calcifying oysters (Ostrea chilensis) and bioeroding sponges (Cliona sp.). Frontiers in Marine Science, 11, 1444863. http://dx.doi.org/10.3389/fmars.2024.1444863
Booth JD. (2020). Reviewing the far-reaching ecological impacts of human-induced terrigenous sedimentation on shallow marine ecosystems in a northern-New Zealand embayment. New Zealand Journal of Marine and Freshwater Research, 54(4), 593–613. https://doi.org/10.1080/00288330.2020.1738505
Breitburg D, Levin LA, Oschlies A, Grégoire M, Chavez FP, Conley DJ, … & Zhang, J. (2018). Declining oxygen in the global ocean and coastal waters. Science, 359(6371). https://doi.org/10.1126/science.aam7240
Broekhuizen N, Plew DR, Pinkerton MH, & Gall MG. (2021). Sea temperature rise over the period 2002–2020 in Pelorus Sound, New Zealand – with possible implications for the aquaculture industry. New Zealand Journal of Marine and Freshwater Research, 55(1), 46–64. https://doi.org/10.1080/00288330.2020.1868539
Brough TE, Leunissen EM, & Beentjes M. (2023). Habitat Use and the Impact of Multiple Stressors on Blue Cod Populations off Canterbury and in the Marlborough Sounds. New Zealand Aquatic Environment and Biodiversity Report No. 323. Fisheries New Zealand. https://fs.fish.govt.nz/Doc/25581/AEBR-323-Habitat-Use-And-Impact-Of-Stressors-On-Blue-Cod-4425-2023.pdf.ashx
Brumby A, Marshall J, Murray T, O’Donnell C, & Richards R. (2025). Trait-based Climate Change Vulnerability Assessments of Terrestrial Taxa in Aotearoa New Zealand. Science for Conservation Report 343. Department of Conservation. https://www.doc.govt.nz/globalassets/documents/science-and-technical/science-for-conservation/343-climate-change-taxa/sfc343.pdf
Bulmer R, Flowers G, Lam-Gordillo O, Shao Z, & Stewart-Sinclair P. (2024a). Assessing the Impact of Sea level Rise on Blue Carbon Habitats and Restoration Opportunity in the Hawke’s Bay Region. Technical Report No. 5671, prepared for the Hawke’s Bay Regional Council. http://dx.doi.org/10.13140/RG.2.2.21062.38725<
Bulmer R, Paul-Burke K, Ranapia M, Ellis J, Bluett C, O’Brien T, … & Stephenson F. (2024b). Weaving indigenous and western ecological knowledge to enhance environmental sustainability. Ocean & Coastal Management, 258, e107402. https://doi.org/10.1016/j.ocecoaman.2024.107402
Bulmer RH, Stewart-Sinclair PJ, Lam-Gordillo O, Mangan S, Schwendenmann L, & Lundquist CJ. (2024c). Blue carbon habitats in Aotearoa New Zealand – opportunities for conservation, restoration, and carbon sequestration. Restoration Ecology, 32(7), e14225. https://doi.org/10.1111/rec.14225
Buxton RT, Currey CA, Lyver PO’B, & Jones CJ. (2013). Incidence of plastic fragments among burrow-nesting seabird colonies on offshore islands in northern New Zealand. Marine Pollution Bulletin, 74(1), 420–424. https://doi.org/10.1016/j.marpolbul.2013.07.011
Cai W, Ng B, Geng T, Jia F, Wu L, Wang G, … & McPhaden MJ. (2023). Anthropogenic impacts on twentieth-century ENSO variability changes. Nature Reviews Earth & Environment, 4,
407–418. https://doi.org/10.1038/s43017-023-00427-8
Capistrant-Fossa KA, & Dunton KH. (2024). Rapid sea level rise causes loss of seagrass meadows. Communications Earth & Environment, 5, 87. https://doi.org/10.1038/s43247-024-01236-7
Clark BL, Carneiro APB, Pearmain EJ, Rouyer MM, Clay TA, Cowger W, ... & Quillfeldt P. (2023). Global assessment of marine plastic exposure risk for oceanic birds. Nature Communications, 14(1), 3665. https://doi.org/10.1038/s41467-023-38900-z
Clark MR, Bowden DA, Rowden AA, & Stewart R. (2019). Little evidence of benthic community resilience to bottom trawling on seamounts after 15 years. Frontiers in Marine Science, 6(63), 1–16. https://doi.org/10.3389/fmars.2019.00063
Clark MR, Bowden DA, Stewart R, Rowden AA, & Goode SL. (2022a). Seamount Recovery: Analysis of 20 Years of Time-series Seafloor Image Data from the Graveyard Knolls, Chatham Rise, New Zealand. New Zealand Aquatic Environment and Biodiversity Report No. 292. Fisheries New Zealand. https://webstatic.niwa.co.nz/library/NZAEBR-292.pdf
Clark MR, Wood B, Mackay K, Anderson OF, Hart A, Rickard G, & Rowden AA. (2022b). Underwater Topographic Features in the New Zealand Region: Development of an Updated ‘SEAMOUNT’ Database and Information on the Extent and Intensity of Deep-sea Trawl Fisheries on Them. New Zealand Aquatic Environment and Biodiversity Report No. 291. Fisheries New Zealand. https://www.mpi.govt.nz/dmsdocument/53304-AEBR-291-Underwater-Topographic-Features-in-the-New-Zealand-region-development-of-an-updated-SEAMOUNT-database-and-information-on-the-extent-and-intensity-of-deep-sea-trawl-fisheries-on-them/
Coastal Change. (n.d.). Coastal Vegetation. Retrieved 15 September 2025, from https://coastalchange.nz/the-science/coastal-vegetation/
Cook KM, Dunn MR, Behrens E, Pinkerton MH, Law C, & Cummings VJ. (2025). Marine Heatwaves and Fisheries in Aotearoa New Zealand: Review of Potential Effects on Marine Ecosystems and Fishstocks. New Zealand Aquatic Environment and Biodiversity Report No. 352. Fisheries New Zealand. https://www.mpi.govt.nz/dmsdocument/68616-AEBR-352-Marine-heatwaves-and-fisheries-in-Aotearoa-New-Zealand-review-of-potential-effects-on-marine-ecosystems-and-fishstocks/
Coxon S. (2024). Review of the Potential Impacts of Climate Change on Wastewater Networks and Treatment Plants in Aotearoa New Zealand, and Implications for Public Health. Science for Communities Report No. FW24020, prepared for Health New Zealand | Te Whatu Ora. https://www.phfscience.nz/media/j0tg4qmu/esr-review-health-impacts-climate-change-wastewater-networks-new-zealand.pdf
Cranfield HJ, Dunn A, Doonan IJ, & Michael KP. (2005). Bonamia exitiosa epizootic in Ostrea chilensis from Foveaux Strait, southern New Zealand between 1986 and 1992. ICES Journal of Marine Science, 62(1), 3–13. https://doi.org/10.1016/j.icesjms.2004.06.021
Cummings VJ, Lundquist CJ, Dunn MR, Francis M, Horn P, Law C, … & Mielbrecht E. (2021). Assessment of Potential Effects of Climate-related Changes in Coastal and Offshore Waters on New Zealand’s Seafood Sector. New Zealand Aquatic Environment and Biodiversity Report No. 261. Fisheries New Zealand. https://www.cakex.org/sites/default/files/documents/45265-AEBR-261-Assessment-Of-Potential-Effects-Of-Climate-Change-On-Seafood-Sector-3389.pdf
Datta S, Beran H, & Rogers A. (2024). The impacts of warming on shallow and deep-water fisheries in New Zealand. Earth’s Future, 12(12), e2024EF004857. https://doi.org/10.1029/2024EF004857
Davis JP, & Hepburn CD. (2020). Southland Regional Marine Invasive Species Surveillance and Compliance Plan. Department of Marine Science, University of Otago report, prepared for Environment Southland. https://www.envirolink.govt.nz/assets/Envirolink/2027-ESRC292-Southland-Regional-Marine-Invasive-Species-Surveillance-and-Compliance-Plan.pdf
Davis-Jones C. (2025). Climate Change Effects on Marine Habitats: Literature Review and Guidance Document. SLR Project No. 810.031203.00001, prepared for the Bay of Plenty Regional Council. https://atlas.boprc.govt.nz/api/v1/edms/document/BOPRC-1864443702-56484/content
DeVries T. (2022). The ocean carbon cycle. Annual Review of Environment and Resources, 47, 317–341. http://dx.doi.org/10.1146/annurev-environ-120920-111307
DOC (Department of Conservation). (2021). New Zealanders and the Environment. Domestic Customer Segmentation Research: New Zealanders Engaging with the Environment, Biodiversity and Conservation. https://www.doc.govt.nz/globalassets/documents/about-doc/role/visitor-research/nzers-and-the-environment.pdf
DOC. (2024). Understanding Summer Activity: Making Sense of What People Did in the Outdoors over the 2023/24 Summer. https://www.doc.govt.nz/globalassets/documents/about-doc/role/visitor-research/understanding-2023-2024-summer-activity.pdf
DOC. (n.d.). Hector’s and Māui Dolphin Incident Database. Retrieved 15 September 2025, from https://www.doc.govt.nz/our-work/hectors-and-maui-dolphin-incident-database/
Douglas EJ, Bulmer RH, MacDonald IT, & Lohrer AM. (2022). Estuaries as coastal reactors: Importance of shallow seafloor habitats for primary productivity and nutrient transformation, and impacts of sea level rise. New Zealand Journal of Marine and Freshwater Research, 56(3), 553–569. http://dx.doi.org/10.1080/00288330.2022.2107027
Dudley BD, Burge OR, Plew D, & Zeldis J. (2020). Effects of agricultural and urban land cover on New Zealand’s estuarine water quality. New Zealand Journal of Marine and Freshwater Research, 54(3), 372–392. https://doi.org/10.1080/00288330.2020.1729819
Dune Restoration Trust of New Zealand. (2014). Effects of vehicles on sand dunes. Technical Article No. 10.2. https://www.coastalrestorationtrust.org.nz/site/assets/files/1185/10.2_effects_of_vehicles.pdf
Dunn MR, Finucci B, Pinkerton MH, & Sutton P. (2022). Review of Commercial Fishing Interactions with Marine Reptiles. NIWA Client Report No. 2022147WN, prepared for the Department of Conservation. https://www.doc.govt.nz/globalassets/documents/conservation/marine-and-coastal/marine-conservation-services/reports/202122-annual-plan/int2021-03-review-of-commercial-fishing-interactions-with-marine-reptiles-final-report.pdf
Dunn MR, Finucci B, Pinkerton MH, Sutton P, & Duffy CAJ. (2023). Increased captures of the critically endangered leatherback turtle (Dermochelys coriacea) around New Zealand: The contribution of warming seas and fisher behavior. Frontiers in Marine Science, 10, e1170632. http://doi.org/10.3389/fmars.2023.1170632
Dymond JR, Sabetizade M, Newsome PF, Harmsworth GR, & Ausseil A-G. (2021). Revised extent of wetlands in New Zealand. New Zealand Journal of Ecology, 45(2), 1–8. https://www.jstor.org/stable/48621882
Ericson JA, Venter L, Copedo JS, Nguyen VT, Alfaro AC, & Ragg NLC. (2023). Chronic heat stress as a predisposing factor in summer mortality of mussels, Perna canaliculus. Aquaculture, 564, e738986. https://doi.org/10.1016/j.aquaculture.2022.738986
Feng B, Zhang Y, & Bourke R. (2021). Urbanization impacts on flood risks based on urban growth data and coupled flood models. Natural Hazards, 106(1), 613–627. https://doi.org/10.1007/s11069-020-04480-0
Floerl O, Atalah J, Bugnot AB, Chandler M, Dafforn KA, Floerl L, … & Major R. (2021). A global model to forecast coastal hardening and mitigate associated socioecological risks. Nature Sustainability, 4, 1060–1067. http://dx.doi.org/10.1038/s41893-021-00780-w
FNZ (Fisheries New Zealand). (2025). South Island Hector’s Dolphin Bycatch Reduction Plan: Annual Report 2023/24. https://www.mpi.govt.nz/dmsdocument/68775-South-Island-Hectors-Dolphin-Bycatch-Reduction-Plan-Annual-Report-202324/
Fox-Kemper B, Hewitt HT, Xiao C, Aðalgeirsdóttir G, Drijfhout SS, Edwards TL, … & Yu Y. (2023). Ocean, cryosphere and sea level change. In Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change (pp 1211–1362). Cambridge University Press. https://doi.org/10.1017/9781009157896.01
Friedlingstein P, O’Sullivan M, Jones MW, Andrew RM, Hauck J, Landschützer P, … & Zeng J. (2025). Global Carbon Budget 2024. Earth System Science Data, 17(3), 965–1039. https://doi.org/10.5194/essd-17-965-2025
Friess DA, Shribman ZI, Stankovic M, Iram N, Baustian MM, & Ewers Lewis CJ. (2024). Restoring blue carbon ecosystems. Cambridge Prisms: Coastal Futures, 2, e9. https://doi.org/10.1017/cft.2024.9
Fuhrmann M, Castinel A, Cheslett DL, Furones Nozal D, & Whittington RJ. (2019). The impacts of ostreid herpesvirus 1 microvariants on Pacific oyster aquaculture in the Northern and Southern Hemispheres since 2008. Revue Scientifique et Technique de l’OIE, 38(2), 491–509. https://doi.org/10.20506/rst.38.2.3000
Fuhrmann M, Hick PM, Bestbier M, & Georgiades E. (2023). Pilot study: Investigating the role of biofouling in transmission of ostreid herpesvirus 1 (OsHV-1). Management of Biological Invasions, 14(1), 133–155. https://www.reabic.net/journals/mbi/2023/1/MBI_2023_Fuhrman_etal.pdf
Funnell GA, Gordon DP, Leduc D, Makan T, Marshall BA, Mills S, … & Wing S. (2023). Conservation Status of Indigenous Marine Invertebrates in Aotearoa New Zealand, 2021. New Zealand Threat Classification Series Report No. 1077. Department of Conservation. https://www.doc.govt.nz/globalassets/documents/science-and-technical/nztcs40entire.pdf
Gall M, & Pinkerton M. (2024). Phytoplankton/chlorophyll a in estuary/coastal water (trophic state). In D Lohrer, A Alder, P Bellingham, A Berthelsen, L Biessy, E Biggs, … & J Zeldis, Information Stocktakes of Fifty-five Environmental Attributes across Air, Soil, Terrestrial, Freshwater, Estuaries and Coastal Waters Domains. NIWA, Manaaki Whenua Landcare Research, Cawthron Institute and Environet Limited Report No. 2024216HN, prepared for the Ministry for the Environment. https://environment.govt.nz/publications/information-stocktakes-of-fifty-five-environmental-attributes
Geange S, Townsend M, Clark D, Ellis JI, & Lohrer AM. (2019). Communicating the value of marine conservation using an ecosystem service matrix approach. Ecosystem Services, 35, 150–163. https://doi.org/10.1016/j.ecoser.2018.12.004
Gibson PB, Lewis H, Campbell I, Rampal N, Fauchereau N, & Harrington LJ. (2025). Downscaled climate projections of tropical and ex-tropical cyclones over the southwest Pacific. Journal of Geophysical Research: Atmospheres, 130(14), e2025JD043833. https://doi.org/10.1029/2025JD043833
Gong H, Li C, & Zhou Y. (2021). Emerging global ocean deoxygenation across the 21st century. Geophysical Research Letters, 48(23), e2021GL095370. https://doi.org/10.1029/2021GL095370
Goyal R, Sen Gupta A, Jucker M, & England MH. (2021). Historical and projected changes in the Southern Hemisphere surface westerlies. Geophysical Research Letters, 48(4), e2020GL090849. https://doi.org/10.1029/2020GL090849
Greenough H, Vignier J, Smith KF, Brown CM, Kenny NJ, & Rolton A. (2025). Multi-stressor dynamics: Effects of marine heatwave stress and harmful algal blooms on juvenile mussel (Perna canaliculus) survival and physiology. Science of The Total Environment, 964, e178590. https://doi.org/10.1016/j.scitotenv.2025.178590
Haasnoot M, Lawrence J, & Magnan AK. (2021). Pathways to coastal retreat. Science, 372(6548), 1287–1290. https://www.science.org/doi/10.1126/science.abi6594
Hale R, Thompson D, Brough T, Kregting L, Hayden M, Parsons D, … & Stevens C. (2024). Environmental implications of future offshore renewable energy development in Aotearoa New Zealand. Journal of the Royal Society of New Zealand, 55(4), 912–945. https://doi.org/10.1080/03036758.2024.2406829
Harmsworth G, & Awatere S. (2013). Indigenous Māori knowledge and perspectives of ecosystems. In JR Dymond (Ed.), Ecosystem Services in New Zealand: Conditions and Trends (pp 274–286). Manaaki Whenua Press. https://www.landcareresearch.co.nz/uploads/public/Publications/Ecosystem-servicesin-New-Zealand/2_1_Harmsworth.pdf
Harris P, Matamua R, Smith T, Kerr H, & Waaka T. (2013). A review of Māori astronomy in Aotearoa-New Zealand. Journal of Astronomical History and Heritage, 16(3), 325–336. https://doi.org/10.3724/SP.J.1440-2807.2013.03.08
Hayden M, Lundquist C, & Kainamu A. (2023). Hapū and Iwi Perceptions of Cumulative Effects: Towards Supporting Kaitiakitanga. Report for the Sustainable Seas National Science Challenge. https://www.sustainableseaschallenge.co.nz/assets/dms/Reports/Hapu-and-iwi-perceptions-of-cumulative-effects/Hapu-and-iwi-perceptions-of-CE.pdf
Hilliam K, & Tuck ID. (2023). Range expansion of the invasive portunid crab Charybdis japonica in New Zealand. New Zealand Journal of Marine and Freshwater Research, 57(4), 518–534. http://dx.doi.org/10.1080/00288330.2022.2071301
Hilton Z, Rolton A, Muznebin F, Webb SC, Fidler A, Elliot A, … & Hutson KS. (2025). Reduced farming density of New Zealand flat oyster Ostrea chilensis is associated with decreased infection by Bonamia ostreae and other parasites. Aquaculture, 607, e742683. https://doi.org/10.1016/j.aquaculture.2025.742683
Hobday AJ, Alexander LV, Perkins SE, Smale D, Straub SC, Oliver ECJ, … & Wernberg T. (2016). A hierarchical approach to defining marine heatwaves. Progress in Oceanography, 141, 227–238. https://doi.org/10.1016/j.pocean.2015.12.014
Hollitzer HAL, Patara L, Terhaar J, & Oschlies A. (2024). Competing effects of wind and buoyancy forcing on ocean oxygen trends in recent decades. Nature Communications, 15, 9264. https://doi.org/10.1038/s41467-024-53557-y
Holt J, Harle J, Wakelin S, Jardine J, & Hopkins J. (2022). Why is seasonal density stratification in shelf seas expected to increase under future climate change? Geophysical Research Letters, 49(23), e2022GL100448. https://doi.org/10.1029/2022GL100448
Howard J, Sutton-Grier AE, Smart LS, Lopes CC, Hamilton J, Kleypas J, … & Landis E. (2023). Blue carbon pathways for climate mitigation: Known, emerging and unlikely. Marine Policy, 156, e105788. https://doi.org/10.1016/j.marpol.2023.105788
Howarth L, & Major R. (2023). Key Environmental Considerations for Seaweed Aquaculture in Aotearoa New Zealand. Report for the Sustainable Seas National Science Challenge. https://www.sustainableseaschallenge.co.nz/assets/dms/Reports/Key-environmental-considerations-for-seaweed-aquaculture/Key-environmental-considerations-for-seaweed-aquaculture-in-Aotearoa-New-Zealand.pdf
Hudson M. (2022). Māori hold a third of NZ’s fishing interests, but as the ocean warms and fish migrate, these rights don’t move with them. The Conversation. https://www.waikato.ac.nz/news-events/news/maori-hold-a-third-of-nzs-fishing-interests-but-as-the-ocean-warms-and-fish-migrate-these-rights-dont-move-with-them/
Hughes J, Cowper-Heays K, Olesson E, Bell R, & Stroombergen A. (2021). Impacts and implications of climate change on wastewater systems: A New Zealand perspective. Climate Risk Management, 31, e100262. https://doi.org/10.1016/J.CRM.2020.100262
Hunt HL, & Scheibling RE. (2001). Predicting wave dislodgment of mussels: Variation in attachment strength with body size, habitat, and season. Marine Ecology Progress Series, 213, 157–164. https://doi.org/10.3354/meps213157
Jackson AM, Mita N, & Hakopa H. (2017). Hui-te-ana-nui: Understanding Kaitiakitanga in Our Marine Environment. Report to Sustainable Seas National Science Challenge. https://www.sustainableseaschallenge.co.nz/assets/dms/Reports/Hui-te-ana-nui-Understanding-kaitiakitanga-in-our-marine-environment/HTAN-report-2017.pdf
Jhugroo K, O’Callaghan JM, & Stevens CL. (2025). The impact of high rainfall events on the submesoscale salinity field in a coastal sea: Greater Cook Strait, New Zealand. New Zealand Journal of Marine and Freshwater Research, 59(4), 735–761. https://doi.org/10.1080/00288330.2024.2368853
Jiang LQ, Dunne J, Carter BR, Tjiputra JF, Terhaar J, Sharp JD, … & Ziehn T. (2023). Global surface ocean acidification indicators from 1750 to 2100. Journal of Advances in Modeling Earth Systems, 15(3), e2022MS003563. https://doi.org/10.1029/2022MS003563
Jo AR, Lee J-Y, Timmermann A, Jin F-F, Yamaguchi R, & Gallego A. (2022). Future amplification of sea surface temperature seasonality due to enhanced ocean stratification. Geophysical Research Letters, 49(9), e2022GL098607. https://doi.org/10.1029/2022GL098607
Johnson KS, Gadd J, Bian R, Noll B, Pinkerton MH, Taylor R, … & Parsons DM. (2024). Distribution and Potential Causes of Milky Fleshed Snapper in SNA 1. New Zealand Fisheries Assessment Report 2024/25. Fisheries New Zealand. https://www.mpi.govt.nz/dmsdocument/62775/direct
Jones BD, Dickson ME, Ford M, Hikuroa D, & Ryan EJ. (2024). Aotearoa New Zealand’s coastal archaeological heritage: A geostatistical overview of threatened sites. Journal of Island and Coastal Archaeology, 19(4), 657–677. https://doi.org/10.1080/15564894.2023.2207493
Jones HFE, Hunt S, Kamke J, & Townsend M. (2022). Historical data provides context for recent monitoring and demonstrates 100 years of declining estuarine health. New Zealand Journal of Marine and Freshwater Research, 56(3), 371–388. https://doi.org/10.1080/00288330.2022.2086588
Kainamu A, & Rolleston-Gabel T. (2023). A Review of Te Ao Māori Perspectives of Marine Scales and Where These Are Impeded by Contemporary Management. Report for the Sustainable Seas National Science Challenge. https://www.sustainableseaschallenge.co.nz/assets/dms/Reports/te-ao-Maori-perspectives-of-marine-scales/Te-ao-Maori-perspectives-of-marine-scales.pdf
Keegan LJ, White RSA, & Macinnis-Ng C. (2022). Current knowledge and potential impacts of climate change on New Zealand’s biological heritage. New Zealand Journal of Ecology, 46(1), 3467. https://doi.org/10.20417/nzjecol.46.10
Kerr VC, Grace RV, & Shears NT. (2024). Estimating the extent of urchin barrens and kelp forest loss in northeastern Aotearoa, New Zealand. New Zealand Journal of Marine and Freshwater Research, 59(2), 441–462. https://doi.org/10.1080/00288330.2024.2336081
King D, Tawhai W, Skipper A, & Iti W. (2005). Anticipating Local Weather and Climate Outcomes Using Māori Environmental Indicators. NIWA. https://niwa.co.nz/sites/niwa.co.nz/files/niwa_report_akl2005-129.pdf
King D, & Skipper A. (2006). Understanding local weather and climate using Māori environmental knowledge. NIWA Water & Atmosphere, 14(2). https://niwa.co.nz/water-atmosphere/vol14-no2-june-2006/understanding-local-weather-and-climate-using-maori-environmental-knowledge
King DN, Penny G, & Severne C. (2010). The climate change matrix facing Māori society. In RAC Nottage, DS Wratt, JF Bornman, & K Jones (Eds), Climate Change Adaptation in New Zealand: Future Scenarios and Some Sectoral Perspectives (pp 100–111). New Zealand Climate Change Centre. https://www.researchgate.net/publication/273737386_The_climate_change_matrix_facing_Maori_society
King DNT, Goff J, & Skipper A. (2007). Māori environmental knowledge and natural hazards in Aotearoa‐New Zealand. Journal of the Royal Society of New Zealand, 37(2), 59–73. https://doi.org/10.1080/03014220709510536
King J, Anchukaitis KJ, Allen K, Vance T, & Hessl A. (2023). Trends and variability in the Southern Annular Mode over the Common Era. Nature Communications, 14, 2324. https://doi.org/10.1038/s41467-023-37643-1
Kirchoff CJ, & Watson PL. (2019). Are wastewater systems adapting to climate change? Journal of the American Water Resources Association, 55(4), 869–880. https://doi.org/10.1111/1752-1688.12748
Komoroske LM, & Lewison RL. (2015). Addressing fisheries bycatch in a changing world. Frontiers in Marine Science, 2, 83. https://doi.org/10.3389/fmars.2015.00083
Kool R, Lawrence J, Drews M, & Bell R. (2020). Preparing for sea-level rise through adaptive managed retreat of a New Zealand stormwater and wastewater network. Infrastructures, 5(11), 92. https://doi.org/10.3390/infrastructures5110092
Kozal LC, Hofmann GE, Hawes NA, & Ragg NLC. (2024). Paternal heat exposure affects larval development in green-lipped mussels Perna canaliculus. Aquaculture Environment Interactions, 16, 43–57. https://doi.org/10.3354/aei00472
Lacheheb M, Noy I, & Kahui V. (2024). Marine heatwaves and commercial fishing in New Zealand. Science of The Total Environment, 954, e176558. https://doi.org/10.1016/j.scitotenv.2024.176558
Lam-Gordillo O, Lohrer AM, Douglas E, Hailes S, Carter K, & Greenfield B. (2023). Scale-dependent influence of multiple environmental drivers on estuarine macrobenthic crustaceans. Frontiers in Marine Science, 10, 1292849. https://doi.org/10.3389/fmars.2023.1292849
Lane HS, Brosnahan CL, & Poulin R. (2022). Aquatic disease in New Zealand: Synthesis and future directions. New Zealand Journal of Marine and Freshwater Research, 56(1), 1–42. https://doi.org/10.1080/00288330.2020.1848887
Lavin CP, Gordó-Vilaseca C, Stephenson F, Shi Z, & Costello MJ. (2022). Warmer temperature decreases the maximum length of six species of marine fishes, crustacean, and squid in New Zealand. Environmental Biology of Fishes, 105, 1431–1446. https://doi.org/10.1007/s10641-022-01251-7
Law CS, Bell JJ, Bostock HC, Cornwall CE, Cummings VJ, Currie K, … & Tracey DM. (2018). Ocean acidification in New Zealand waters: Trends and impacts. New Zealand Journal of Marine and Freshwater Research, 52(2), 155–195. https://doi.org/10.1080/00288330.2017.1374983
LAWA (Land Air Water Aotearoa). (2023). Factsheet: Faecal Indicators. https://www.lawa.org.nz/learn/factsheets/faecal-indicators/
Lawrence J, Blackett P, & Cradock-Henry NA. (2020). Cascading climate change impacts and implications. Climate Risk Management, 29, e100234. https://doi.org/10.1016/j.crm.2020.100234
Lawrence J, Mackey B, Chiew F, Costello MJ, Hennessy K, Lansbury N, … & Wreford A. (2022). Australasia. In Climate Change 2022: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change (pp 1581–1688). Cambridge University Press. https://doi.org/10.1017/9781009325844.013
Lawrence J, Wreford A, Blackett P, Hall D, Woodward A, Awatere S, … & Milfont TL. (2024). Climate change adaptation through an integrative lens in Aotearoa New Zealand. Journal of the Royal Society of New Zealand, 54(4), 491–522. https://doi.org/10.1080/03036758.2023.2236033
Leduc D, Collins C, Gall M, Lundquist C, Macdonald H, Mackay K, … & Toataua N. (2024). Cyclone Impacts on Fisheries. New Zealand Aquatic Environment and Biodiversity Report No. 326. Fisheries New Zealand. https://fs.fish.govt.nz/Doc/25605/AEBR-326-Cyclone-Impacts-On-Fisheries-2024-4461.pdf.ashx
Lindsey M, & Cartwright A. (2024). National Landfill Climate Change Exposure Assessment. Tonkin + Taylor report, prepared for the Ministry for the Environment. https://environment.govt.nz/publications/national-landfill-climate-change-exposure-assessment/
Lindsey R, & Dahlman L. (2025). Climate Change: Ocean Heat Content. NOAA Climate.gov. https://www.climate.gov/news-features/understanding-climate/climate-change-ocean-heat-content#
Litter Intelligence. (n.d.). Data, Insights and Action for a Litter-free World. Retrieved 22 September 2025. https://litterintelligence.org/
Lowe M, Morrison MA, & Taylor RB. (2015). Harmful effects of sediment-induced turbidity on juvenile fish in estuaries. Marine Ecology Progress Series, 539, 241–254. https://doi.org/10.3354/meps11496
Lundquist C, Cummings V, Hansen L, & Mielbrecht E. (2023). State of Knowledge: Climate Change and New Zealand’s Seafood Sector. Synthesis report to support technical report, prepared for Fisheries New Zealand. https://www.mpi.govt.nz/dmsdocument/56242-Climate-change-andNZs-seafood-sector-2023
Lundquist CJ, Ramsay D, Bell R, Swales A, & Kerr S. (2011). Predicted impacts of climate change on New Zealand’s biodiversity. Pacific Conservation Biology, 17(3), 179–191. https://www.motu.nz/our-research/environment-and-resources/climate-change-impacts/predicted-impacts-of-climate-change-on-new-zealands-biodiversity
Lundquist CJ, Jones TC, Parkes SM, & Bulmer RH. (2018). Changes in benthic community structure and sediment characteristics after natural recolonisation of the seagrass Zostera muelleri. Scientific Reports, 8, 13250. https://doi.org/10.1038/s41598-018-31398-2
Lundquist D, Boren L, Childerhouse S, Constantine R, van Helden A, Hitchmough R, … & Baker CS. (2025). Conservation Status of Marine Mammals in Aotearoa New Zealand, 2024. New Zealand Threat Classification System Report 1165, prepared for the Department of Conservation. https://nztcs.org.nz/reports/1165
Macdonald H, Collins C, Plew D, Zeldis J, & Broekhuizen N. (2023). Modelling the biogeochemical footprint of rivers in the Hauraki Gulf, New Zealand. Frontiers in Marine Science, 10, e1117794. https://doi.org/10.3389/fmars.2023.1117794
MacGibbon DJ, Mules R, & Goode S. (2024). Extent and Intensity of Bottom Contact by Commercial Trawling in New Zealand Waters, 1990–2022. New Zealand Aquatic Environment and Biodiversity Report No. 344. Fisheries New Zealand. https://fs.fish.govt.nz/Doc/25805/AEBR-344-2024-Extent-and-intensity-of-bottom-contact-by-commercial-trawling-in-New-Zealand-waters-1990-2022.pdf.ashx
Mangan S, Bryan KR, Thrush SF, Gladstone-Gallagher RV, Lohrer AM, & Pilditch CA. (2020). Shady business: The darkening of estuaries constrains benthic ecosystem function. Marine Ecology Progress Series, 647, 33–48. https://doi.org/10.3354/meps13410
Márquez-Borrás F, & Sewell MA. (2024). Long-term study of the combined effects of ocean acidification and warming on the mottled brittle star, Ophionereis fasciata. Journal of Experimental Biology, 227(21), e249426. http://dx.doi.org/10.1242/jeb.249426
Matheson FE, Reed J, Dos Santos VM, Mackay G, & Cummings VJ. (2017). Seagrass rehabilitation: Successful transplants and evaluation of methods at different spatial scales. New Zealand Journal of Marine and Freshwater Research, 51(1), 96–109. https://doi.org/10.1080/00288330.2016.1265993
Mattern T, Meyer S, Ellenberg U, Houston DM, Darby JT, Young M, … & Seddon PJ. (2017). Quantifying climate change impacts emphasises the importance of managing regional threats in the endangered yellow-eyed penguin. PeerJ, 5, e3272. https://doi.org/10.7717/peerj.3272
McCullough A, Strano F, Micaroni V, Woods L, & Bell JJ. (2024). Responses of the temperate calcareous sponge Grantia sp. to ocean acidification. Journal of the Marine Biological Association of the United Kingdom, 104, e54. http://dx.doi.org/10.1017/S0025315424000419
McDonald RA. (2022). He Moana Pukepuke e Ekengia e te Waka: Navigating a Changing Climate: A Waka Voyaging Perspective [Master’s thesis, University of Waikato]. https://hdl.handle.net/10289/15749
McGovern H. (2024). Conservation Services Programme Annual Research Summary 2021–22. Conservation Services Programme report, prepared for the Department of Conservation. https://www.doc.govt.nz/globalassets/documents/conservation/marine-and-coastal/marine-conservation-services/reports/202122-annual-plan/csp-annual-research-summary-2021-22.pdf
McGovern H, & Hewetson E. (2025). Conservation Services Programme Annual Research Summary 2022–23. Conservation Services Programme report, prepared for the Department of Conservation. https://www.doc.govt.nz/globalassets/documents/conservation/marine-and-coastal/marine-conservation-services/reports/202223-annual-plan/csp-annual-research-summary-2022-23.pdf
Mediodia HJ, Noy I, & Kahui V. (2024). The impact of ocean warming on selected commercial fisheries in New Zealand. The Australian Journal of Agricultural and Resource Economics, 68(3), 587–607. https://doi.org/10.1111/1467-8489.12564
Meyer S. (2023). Desktop Update of Estimation of Seabird Cryptic Mortality in Trawls, via Warp and Net Captures in the New Zealand Domestic Fleet Using Standard Mitigation. New Zealand Aquatic and Biodiversity Report No. 322. Fisheries New Zealand. https://www.mpi.govt.nz/dmsdocument/59485-AEBR-322-Desktop-update-of-estimation-of-seabird-cryptic-mortality-in-trawls-via-warp-and-net-captures-in-the-New-Zealand-domestic-fleet-using-standard-mitigation/
MfE (Ministry for the Environment). (2024). Coastal Hazards and Climate Change Guidance. https://environment.govt.nz/assets/publications/Coastal-hazards-and-climate-change-guidance-2024-ME-1805.pdf
Micaroni V, Strano F, McAllen R, Woods L, Turner J, Harman L, & Bell JJ. (2022). Adaptive strategies of sponges to deoxygenated oceans. Global Change Biology, 28(6), 1972–1989.
Middleton I. (2023). Impact of Exotic Caulerpa on Native Species at Aotea/Great Barrier Island – Field report (Trip 2). NIWA Client Report No. 2023358AK, prepared for Biosecurity New Zealand. https://www.mpi.govt.nz/dmsdocument/61714-Impact-of-exotic-Caulerpa-on-native-species-at-AoteaGreat-Barrier-Island-Field-report-Trip-2/
Middleton I, Francis M, Aguirre JD, Struthers C, Trnski T, Duffy C, … & Liggins L. (2023). Occurrences of tropical, subtropical and rare marine fishes in Aotearoa New Zealand indicate biodiversity change. Journal of Biogeography, 50(9), 1490–1504. https://doi.org/10.1111/jbi.14677
Minobe S, Behrens E, Findell KL, Loeb NG, Meyssignac B, & Sutton R. (2025). Global and regional drivers for exceptional climate extremes in 2023–2024: Beyond the new normal. Npj Climate and Atmospheric Science, 8, 138. https://doi.org/10.1038/s41612-025-00996-z
Montie S, & Thomsen MS. (2023). Long-term community shifts driven by local extinction of an iconic foundation species following an extreme marine heatwave. Ecology and Evolution, 13(6), e10235. https://doi.org/10.1002/ece3.10235
Montie S, Thoral F, Smith RO, Cook F, Tait LW, Pinkerton MH, … & Thomsen MS. (2024). Seasonal trends in marine heatwaves highlight vulnerable coastal ecoregions and historic change points in New Zealand. New Zealand Journal of Marine and Freshwater Research, 58(2), 274–299. https://doi.org/10.1080/00288330.2023.2218102
Morgenstern O. (2021). The Southern Annular Mode in 6th Coupled Model Intercomparison Project Models. Journal of Geophysical Research: Atmospheres, 126(5), e2020JD034161. https://doi.org/10.1029/2020JD034161
Morrisey DJ, Swales A, Dittmann S, Morrison MA, Lovelock CE, & Beard CM. (2010). The ecology and management of temperate mangroves (pp. 43–160). In RN Gibson, RJA Atkinson, & JDM Gordon (Eds), Oceanography and Marine Biology: An Annual Review. Volume 48. https://www.taylorfrancis.com/chapters/edit/10.1201/EBK1439821169-2/ecology-management-temperate-mangroves-donald-morrisey-andrew-swales-sabine-dittmann-mark-morrison-catherine-lovelock-catherine-beard
Morrison MA, Lowe ML, Parsons DM, Usmar NR, & McLeod IM. (2009). A Review of Land-based Effects on Coastal Fisheries and Supporting Biodiversity in New Zealand. New Zealand Aquatic Environment and Biodiversity Report No. 37. Ministry of Fisheries. https://healthyharbour.org.nz/wp-content/uploads/2016/08/Morrison-et-al-2009-Land-based-effects-on-coastal-fisheries.pdf
Morrison MA, Jones EG, Consalvey M, & Berkenbusch K. (2014a). Linking Marine Fisheries Species to Biogenic Habitats in New Zealand: A Review and Synthesis of Knowledge. New Zealand Aquatic Environment and Biodiversity Report No. 130. Ministry for Primary Industries. https://deepwatergroup.org/wp-content/uploads/2015/11/GEN2015A19-7516259-AEBR-130-Linking-marine-fisheries-species-to-biogenic-habitats-in-New-Zealand.pdf
Morrison MA, Lowe ML, Grant CM, Smith PJ, Carbines G, Reed J, & Brown J. (2014b). Seagrass Meadows as Biodiversity and Productivity Hotspots. New Zealand Aquatic Environment and Biodiversity Report No. 137. Ministry for Primary Industries. https://webstatic.niwa.co.nz/library/NZAEBR-137.pdf
MPI (Ministry for Primary Industries). (2013). Overview of Ecological Effects of Aquaculture. https://www.mpi.govt.nz/dmsdocument/4300-Overview-of-ecological-effects-of-Aquaculture
MPI. (2021a). AEBAR 2019–20: Ecosystem effects: NZ climate and oceanic setting. In New Zealand Climate and Ocean, Aquatic Environment and Biodiversity Annual Review (Chapter 12). https://www.mpi.govt.nz/dmsdocument/42141-Chapter-12-NZ-Climate-and-Ocean-Aquatic-environment-and-biodiversity-annual-review-AEBAR-201920
MPI. (2021b). AEBAR 2019–20: Non-target fish and invertebrate catch – technical summary. In New Zealand Climate and Ocean, Aquatic Environment and Biodiversity Annual Review (Chapter 9). https://www.mpi.govt.nz/dmsdocument/51676-Chapter-9-Non-target-fish-and-invertebrate-catch
MPI. (nd-a). What Are Toxic Algal Blooms? Retrieved 15 September 2025. https://www.mpi.govt.nz/fishing-aquaculture/recreational-fishing/where-unsafe-to-collect-shellfish/what-are-toxic-algal-blooms/
MPI. (nd-b). National Survey of Recreational Fishers. Retrieved 15 September 2025. https://www.mpi.govt.nz/fishing-aquaculture/recreational-fishing/national-survey-of-recreational-fishers
MPI. (nd-c). About Exotic Caulerpa and Where It’s Been Found in NZ. Retrieved 15 September 2025. https://www.mpi.govt.nz/biosecurity/exotic-pests-and-diseases-in-new-zealand/long-term-biosecurity-management-programmes/exotic-caulerpa-seaweeds-caulerpa-brachypus-and-caulerpa-parvifolia-in-new-zealand/about-exotic-caulerpa-and-where-its-been-found-in-nz/
MPI. (nd-d). Bottom Trawling. Retrieved 15 September 2025. https://www.mpi.govt.nz/fishing-aquaculture/sustainable-fisheries/strengthening-fisheries-management/bottom-trawling/
MPI. (nd-e). Fish Stock Status. Retrieved 15 September 2025. https://www.mpi.govt.nz/fishing-aquaculture/fisheries-management/fish-stock-status/
MPI. (nd-f). Accidental Captures of Seabirds and Protected Marine Species by Commercial Fishers from 1 April to 30 June 2025. Retrieved 15 September 2025. https://www.mpi.govt.nz/fishing-aquaculture/sustainable-fisheries/managing-the-impact-of-fishing-on-protected-species/seabirds-and-protected-marine-species-caught-by-commercial-fishers-quarterly-report/
Muznebin F, Alfaro AC, Venter L, & Young T. (2022). Acute thermal stress and endotoxin exposure modulate metabolism and immunity in marine mussels (Perna canaliculus). Journal of Thermal Biology, 110, e103327. https://doi.org/10.1016/j.jtherbio.2022.103327
Neubauer SC, Franklin RB, & Berrier DJ. (2013). Saltwater intrusion into tidal freshwater marshes alters the biogeochemical processing of organic carbon. Biogeosciences, 10(12), 8171–8183. https://doi.org/10.5194/bg-10-8171-2013
Neverman AJ, Donovan M, Smith HG, Ausseil A-G, & Zammit C. (2023). Climate change impacts on erosion and suspended sediment loads in New Zealand. Geomorphology, 427, e108607. https://doi.org/10.1016/j.geomorph.2023.108607
NIWA. (n.d.-a). The Southern Annular Mode and New Zealand Climate. Retrieved 15 September 2025. https://niwa.co.nz/climate-and-weather/southern-annular-mode
NIWA. (n.d.-b). The Stormy Seas Project. Retrieved 15 September 2025. https://niwa.co.nz/climate-and-weather/stormy-seas-project
NIWA. (n.d.-c). Coastal Storm Inundation. Retrieved 15 September 2025. https://niwa.co.nz/hazards/coastal-storm-inundation
Nixon SW, & Buckley BA. (2002). ‘A strikingly rich zone’: Nutrient enrichment and secondary production in coastal marine ecosystems. Estuaries, 25, 782–796. https://doi.org/10.1007/BF02804905
Nodder S, Watson S, Davidson S, Frontin-Rollet G, & Woelz S. (2023). Organic Carbon Stocks and Potential Vulnerability in Marine Sediments around Aotearoa New Zealand. NIWA Client Report No. 2023162WN, prepared for the Parliamentary Commissioner for the Environment. https://pce.parliament.nz/media/cdoodc0l/niwa-organic-carbon-stocks-and-potential-vulnerability-in-marine-sediments-around-aotearoa-new-zealand.pdf
Nodder SD, Law CS, Behrens E, Bury SJ, Cristi A, Collins C, … & Zeldis JR. (2025). Aotearoa New Zealand’s marine carbon cycle in a changing climate: Current understanding and future directions. New Zealand Journal of Marine and Freshwater Research, 59(5), 913–956. https://doi.org/10.1080/00288330.2025.2461289
NZ SeaRise. (n.d.). NZ SeaRise | Our Changing Coast. Retrieved 15 September 2025. https://www.searise.nz/
O’Callaghan J, Stevens C, Roughan M, Cornelisen C, Sutton PJH, Garrett S, … & Macdonald H. (2019). Developing an integrated ocean observing system for New Zealand. Frontiers in Marine Science, 6(143), 1–7. https://doi.org/10.3389/fmars.2019.00143
Oginni TE, Renwick J, & Behrens E. (2025). Influence of the El Niño‐Southern Oscillation on tropical cyclone genesis in the southwest Pacific. International Journal of Climatology, 45(10), e8899. https://doi.org/10.1002/joc.8899
Parsons DM, Shirkey T, Chetham J, Milner D, & Bulmer RH. (2024). Exploring the impact of multiple stressors on cultural and ecological values: A case study from Te Rerenga Parāoa (Whangārei Harbour), Aotearoa New Zealand. Ocean & Coastal Management, 258, e107422. https://doi.org/10.1016/j.ocecoaman.2024.107422
Paul-Burke K, O’Brien T, Burke J, & Bluett C. (2020). Mapping Māori knowledge from the past to inform marine management futures. New Zealand Science Review, 76(1–2), 32–41. https://hdl.handle.net/10289/14324
Paul-Burke K, Ngarimu-Cameron R, Burke J, Bulmer R, Cameron K, O’Brien T, … & Ranapia M. (2022). Taura kuku: Prioritising Māori knowledge and resources to create biodegradable mussel spat settlement lines for shellfish restoration in Ōhiwa harbour. New Zealand Journal of Marine and Freshwater Research, 56(3), 570–584. https://doi.org/10.1080/00288330.2022.2111447
Paulik R, Stephens S, Wadhwa S, Bell R, Popovich B, & Robinson B. (2019). Coastal Flooding Exposure under Future Sea-level Rise for New Zealand. NIWA Client Report No. 2019119WN, prepared for The Deep South Challenge. https://deepsouthchallenge.co.nz/wp-content/uploads/2021/01/Exposure-to-Coastal-Flooding-Final-Report.pdf
PCE (Parliamentary Commissioner for the Environment). (2015). Preparing New Zealand for Rising Seas: Certainty and Uncertainty. https://pce.parliament.nz/publications/preparing-new-zealand-for-rising-seas-certainty-and-uncertainty/
Pinkerton M, Gall M, Throal F, Sutton P, & Wood S. (2023). Monitoring Ocean Health: 2023 Update on Satellite Indicators for Surface Temperature, Productivity and Suspended Solids. NIWA Client Report No. 2023217WN_rev1, prepared for the Ministry for the Environment. https://environment.govt.nz/assets/publications/monitoring-ocean-health.pdf
Pinkerton MH, Gall M, Thoral F, Sutton P, & Wood S. (2024). Monitoring Ocean Health: Satellite Indicators for Surface Temperature, Productivity and Suspended Solids. NIWA Client Report No. 2023217WN_rev2, prepared for the Ministry for the Environment. http://dx.doi.org/10.13140/RG.2.2.29646.27208
Plew DR, Zeldis JR, Dudley BD, Whitehead AL, Stevens LM, Robertson BM, & Robertson BP. (2020). Assessing the eutrophic susceptibility of New Zealand estuaries. Estuaries and Coasts, 43, 2015–2033. https://doi.org/10.1007/s12237-020-00729-w
PMCSA (Office of the Prime Minister’s Chief Science Advisor). (2019). Rethinking Plastics in Aotearoa New Zealand. https://www.pmcsa.ac.nz/topics/rethinking-plastics/
PMCSA. (2021). The Future of Commercial Fishing in Aotearoa New Zealand. https://bpb-ap-se2.wpmucdn.com/blogs.auckland.ac.nz/dist/f/688/files/2020/01/Fish-report-Full-report-11March21.pdf
Rhodes LL, & Smith KF. (2022). Review of the potential effects of climate change on marine harmful algal blooms (HABs): Implications for public health in Aotearoa New Zealand. Cawthron Report No. 3758, prepared for the New Zealand Ministry of Health. https://www.phfscience.nz/media/jjldikd0/esr-environmental-health-report-climate-change-toxic-freshwater-cyanobacteria-review.pdf
Riebesell U, Körtzinger A, & Oschlies A. (2009). Sensitivities of marine carbon fluxes to ocean change. Proceedings of the National Academy of Sciences of the United States of America, 106(49), 20602–20609. https://doi.org/10.1073/pnas.0813291106
Roberts JO, Webber DN, Roe WD, Edwards CTT, & Doonan IJ. (2019). Spatial Risk Assessment of Threats to Hector’s and Māui Dolphins (Cephalorhynchus hectori). New Zealand Aquatic Environment and Biodiversity Report No. 214. Fisheries New Zealand. https://www.mpi.govt.nz/dmsdocument/35007-AEBR-214-Spatial-risk-assessment-of-threats-to-HectorsMaui-dolphins-Cephalorhynchus-hectori
Roberts JO, & Hendriks HR. (2022). Potential Climate Change Effects on New Zealand Marine Mammals: A Review. DOC Research and Development Series 366. Department of Conservation. https://www.doc.govt.nz/globalassets/documents/science-and-technical/drds366entire.pdf
Roe WD, Howe L, Baker EJ, Burrows L, & Hunter SA. (2013). An atypical genotype of Toxoplasma gondii as a cause of mortality in Hector’s dolphins (Cephalorhynchus hectori). Veterinary Parasitology, 192(1–3), 67–74. https://doi.org/10.1016/j.vetpar.2012.11.001
Roe WD, Michael S, Fyfe J, Burrows E, Hunter SA, & Howe L. (2017). First report of systemic toxoplasmosis in a New Zealand sea lion (Phocarctos hookeri). New Zealand Veterinary Journal, 65(1), 46–50. https://doi.org/10.1080/00480169.2016.1230526
Rolton A, Rhodes L, Hutson KS, Biessy L, Bui T, MacKenzie L, … & Smith KF. (2022). Effects of harmful algal blooms on fish and shellfish species: A case study of New Zealand in a changing environment. Toxins, 14(5), 341. https://doi.org/10.3390/toxins14050341
Rout M, Reid J, Bodwitch H, Gillies A, Lythberg B, Hikuroa D, … & Davies K. (2019). Māori Marine Economy: A Review of Literature Concerning the Historical and Contemporary Structure of the Māori Marine Economy. University of Canterbury report for Sustainable Seas. https://www.canterbury.ac.nz/content/dam/uoc-main-site/documents/pdfs/reports/ntrc-contemporary-research-division/M%C3%84_ori-marine-economy---Lit-Review.pdf
Rowley AF, Baker-Austin C, Boerlage AS, Caillon C, Davies CE, Duperret L, … & Coates CJ. (2024). Diseases of marine fish and shellfish in an age of rapid climate change. iScience, 27(9), e110838. https://doi.org/10.1016/j.isci.2024.110838
Rudenko O, Angelucci C, Kumanan K, Delisle L, Carson J, Morrison RN, … & Barnes AC. (2025). Genomics and serotyping of Tenacibaculum maritimum outbreak isolates from Australia and New Zealand for guided vaccine development and stewardship. Aquaculture, 603, e742418. https://doi.org/10.1016/j.aquaculture.2025.742418
Rullens V, Mangan S, Stephenson F, Clark DE, Bulmer RH, Berthelsen A, … & Pilditch CA. (2022). Understanding the consequences of sea level rise: The ecological implications of losing intertidal habitat. New Zealand Journal of Marine and Freshwater Research, 56(3), 353–370. https://doi.org/10.1080/00288330.2022.2086587
Ryder FJ, Gnanalingam G, Pritchard DW, Rayment WJ, Scott NJ, & Hepburn CD. (2023). Drivers of fishery status for the cultural keystone pāua (Haliotis iris) in customary fishery protection areas in Aotearoa New Zealand. Fisheries Research, 261, e106613. https://doi.org/10.1016/j.fishres.2023.106613
Safi K, Zeldis J, Tait L, Robinson K, Gall M, & Thompson K. (2022). Microplankton interactions with decadal-scale nutrient enrichment in a deep estuary, with implications for eutrophication-related ecosystem stressors. Estuaries and Coasts, 45, 2472–2491. https://doi.org/10.1007/s12237-022-01099-1
Salinger MJ, Renwick J, Behrens E, Mullan AB, Diamond HJ, Sirguey P, … & Sutton PJ. (2019). The unprecedented coupled ocean-atmosphere summer heatwave in the New Zealand region 2017/18: Drivers, mechanisms and impacts. Environmental Research Letters, 14(4), e044023. https://doi.org/10.1088/1748-9326/ab012a
Salinger MJ, Diamond HJ, Behrens E, Fernandez D, Fitzharris BB, Herold N, … & Trought MCT. (2020). Unparalleled coupled ocean-atmosphere summer heatwaves in the New Zealand region: Drivers, mechanisms and impacts. Climatic Change, 162, 485–506. https://doi.org/10.1007/s10584-020-02730-5
Salinger MJ, Diamond HJ, Bell J, Behrens E, Fitzharris BB, Herold N, … & Trought MCT. (2023). Coupled ocean-atmosphere summer heatwaves in the New Zealand region: An update. Weather and Climate, 42(1), 18–41. https://doi.org/10.2307/27226713
Salinger MJ, Trenberth KE, Diamond HJ, Behrens E, Fitzharris BB, Herold N, … & Trought MCT. (2024). Climate extremes in the New Zealand region: Mechanisms, impacts and attribution. International Journal of Climatology, 44(16), 5809–5824. http://dx.doi.org/10.1002/joc.8667
Salmond NH, & Wing SR. (2022). Sub-lethal and lethal effects of chronic and extreme multiple stressors on a critical New Zealand bivalve under hypoxia. Marine Ecology Progress Series, 703, 81–93. http://dx.doi.org/10.3354/meps14215
Schallenberg M, Hall CJ, & Burns CW. (2003). Consequences of climate-induced salinity increases on zooplankton abundance and diversity in coastal lakes. Marine Ecology Progress Series, 251, 181–189. https://doi.org/10.3354/meps251181
Shah H, & Ramesh R. (2022). Development-aligned mangrove conservation strategy for enhanced blue economy: A successful model from Gujarat, India. Estuarine, Coastal and Shelf Science, 274, e107929. https://doi.org/10.1016/j.ecss.2022.107929
Shears NT, Bowen MM, & Thoral F. (2024). Long-term warming and record-breaking marine heatwaves in the Hauraki Gulf, northern New Zealand. New Zealand Journal of Marine and Freshwater Research, 59(5), 1678–1689. https://doi.org/10.1080/00288330.2024.2319100
Skipper A. (2018). Ka taki mai te māuru: When the nor’wester howls. Te Karaka, 78. https://deepsouthchallenge.co.nz/research-project/forecasting-weather-and-climate-extremes/
Smith T. (2011). Traditional Māori Growing Practices: A Literature Review. Te Atawhai o te Ao.
Soliman T, & Inglis GJ. (2018). Forecasting the economic impacts of two biofouling invaders on aquaculture production of green-lipped mussels Perna canaliculus in New Zealand. Aquaculture Environment Interactions, 10, 1–12. https://doi.org/10.3354/aei00249
Spyksma AJP, Miller KI, & Shears NT. (2024). Marine heatwave promotes population expansion of the invasive ascidian Symplegma brakenhielmi. Biological Invasions, 26, 1987–1995. http://dx.doi.org/10.1007/s10530-024-03296-4
Stats NZ. (2025a). Environmental-economic Accounts: Data to 2023. https://www.stats.govt.nz/information-releases/environmental-economic-accounts-data-to-2023/
Stats NZ. (2025b). Tourism Satellite Account: Year ended March 2024. https://www.stats.govt.nz/information-releases/tourism-satellite-account-year-ended-march-2024/
Steneck RS, Graham MH, Bourque BJ, Corbett D, Erlandson JM, & Estes JA. (2002). Kelp forest ecosystems: Biodiversity, stability, resilience and future. Environmental Conservation, 29(4), 436–459. https://doi.org/10.1017/S0376892902000322
Stephens SA, Bell RG, & Haigh ID. (2020). Spatial and temporal analysis of extreme storm-tide and skew-surge events around the coastline of New Zealand. Natural Hazards and Earth System Sciences, 20(3), 783–796. https://doi.org/10.5194/nhess-20-783-2020
Stewart M, Coe I, Taylor L, Watchorn C, & Simmons W. (2020). Quick Pass Dune Vulnerability Assessment. University of Canterbury report prepared for Christchurch City Council and Environment Canterbury. https://www.canterbury.ac.nz/content/dam/uoc-main-site/documents/pdfs/see-2023-geography-engagement-/Quick%20Pass%20Dune%20Vulnerability%20Assessment.pdf
Storey B, Kloppenburg N, Knox D, & Zammit C. (2025). Estimated Number and Valuation of Residential Properties within Inundation/Flood Zones Impacted by Climate Change. Climate Sigma report, prepared for the Ministry for the Environment. https://environment.govt.nz/assets/publications/5.-CLIMATE-SIGMA-FINAL-REPORT_16-JAN-2025.pdf
Sun D, Li F, Jing Z, Hu S, & Zhang B. (2023). Frequent marine heatwaves hidden below the surface of the global ocean. Nature Geoscience, 16, 1099–1104. https://doi.org/10.1038/s41561-023-01325-w
Sustainable Seas Challenge. (2024). Te Pā o Tangaroa: Asserting Mana Moana in Customary Fisheries Management. Report for Sustainable Seas National Science Challenge project, Huataukina o hapū e! https://www.sustainableseaschallenge.co.nz/tools-and-resources/te-p%C4%81-o-tangaroa/
Sutton PJH, Rickard GJ, & Roemmich DH. (2024). Southwest Pacific Ocean warming driven by circulation changes. Geophysical Research Letters, 51(13), e2024GL109174. https://doi.org/10.1029/2024GL109174
Suyadi, Gao J, Lundquist CJ, & Schwendenmann L. (2019). Land-based and climatic stressors of mangrove cover change in the Auckland Region, New Zealand. Aquatic Conservation: Marine and Freshwater Ecosystems, 29(9), 1466–1483. https://doi.org/10.1002/aqc.3146
Swales A, Bell R, & Lohrer D. (2020). Estuaries and lowland brackish habitats. In C. Hendtlass, S. Morgan, & D. Neale (Eds.), Coastal Systems & Sea Level Rise: What to Look for in the Future (pp 55–64). New Zealand Coastal Society. https://ref.coastalrestorationtrust.org.nz/site/assets/files/9412/nz_coastal_society_special_publication_on_estuaries.pdf
Tait A. (2019). Risk-exposure Assessment of Department of Conservation (DOC) Coastal Locations to Flooding from the Sea. Science for Conservation Report 332. Department of Conservation. https://www.doc.govt.nz/globalassets/documents/science-and-technical/sfc332entire.pdf
Tait LW, Lam-Gordillo O, Lohrer AM, Townsend M, Douglas EJ, & Inglis GJ. (2023). Ecosystem function modified by an invasive species: Density and distance dependent changes in sediment characteristics, fluxes, and benthic communities. Estuarine, Coastal and Shelf Science, 293, e108526. https://doi.org/10.1016/j.ecss.2023.108526
Thompson K. (2022). Valuing Coastal Blue-green Infrastructure: Development of a Dune System Assessment Methodology, Ōtautahi Christchurch, New Zealand. [Master’s thesis, University of Canterbury.] http://dx.doi.org/10.26021/14266
Thomsen MS, Mondardini L, Alestra T, Gerrity S, Tait L, South PM, … & Schiel DR. (2019). Local extinction of bull kelp (Durvillaea spp.) due to a marine heatwave. Frontiers in Marine Science, 6, e00084. https://doi.org/10.3389/fmars.2019.00084
Thomson T, Pilditch CA, Fusi M, Prinz N, Lundquist CJ, & Ellis JI. (2025). Vulnerability of labile organic matter to eutrophication and warming in temperate mangrove ecosystems. Global Change Biology, 31(2), e70087. https://doi.org/10.1111/gcb.70087
Thrush SF, Hewitt JE, Gladstone-Gallagher RV, Savage C, Lundquist C, O’Meara T, … & Pilditch C. (2021). Cumulative stressors reduce the self-regulating capacity of coastal ecosystems. Ecological Applications, 31(1), e02223. https://doi.org/10.1002/eap.2223
Tonkin + Taylor. (2024). Bluecliffs Beach Road Papatotara, Southland: Preliminary Hazard and Geotechnical Assessment – October 2023. Tonkin + Taylor report, prepared for Southland District Council. https://www.cdsouthland.nz/media/dqtnjwvq/2024-02-08-bluecliffs-report-tonkin-taylor.pdf
Trenberth KE, Cheng L, Pan Y, Fasullo J, & Mayer M. (2025). Distinctive pattern of global warming in ocean heat content. Journal of Climate, 38(9), 2155–2168. https://doi.org/10.1175/JCLI-D-24-0609.1
Tuck M, Dickson M, Ryan E, Ford M, & Konlechner T. (2024). A national scale coastal change dataset for Aotearoa New Zealand. Data in Brief, 57, e111104. https://doi.org/10.1016/j.dib.2024.111104
Turner S, & Schwarz A-M. (2006). Management and Conservation of Seagrass in New Zealand: An Introduction. Science for Conservation Report 264. Department of Conservation. https://www.doc.govt.nz/documents/science-and-technical/sfc264.pdf
Ummenhofer CC, Sen Gupta A, & England MH. (2009). Causes of late twentieth-century trends in New Zealand precipitation. Journal of Climate, 22(1), 3–19. https://doi.org/10.1175/2008JCLI2323.1
UN (United Nations). (nd.). The Ocean – the World’s Greatest Ally against Climate Change. Retrieved 15 September 2025. https://www.un.org/en/climatechange/science/climate-issues/ocean
Underwood LH, van der Reis A, & Jeffs AG. (2023). Diet of snapper (Chrysophrys auratus) in green-lipped mussel farms and adjacent soft-sediment habitats. Aquaculture, Fish and Fisheries, 3(3), 268–286. https://doi.org/10.1002/aff2.113
Venegas RM, Acevedo J, & Treml EA. (2023). Three decades of ocean warming impacts on marine ecosystems: A review and perspective. Deep-Sea Research Part II: Topical Studies in Oceanography, 212, e105318. https://doi.org/10.1016/j.dsr2.2023.105318
von Ammon U, Casanovas P, Pochon X, Zirngibl M, Leonard K, Smith A, … & Zaiko A. (2023). Harnessing environmental DNA to reveal biogeographical patterns of non-indigenous species for improved co-governance of the marine environment in Aotearoa New Zealand. Scientific Reports, 13, 17061. https://doi.org/10.1038/s41598-023-44258-5
Warnell K, Olander L, & Currin C. (2022). Sea level rise drives carbon and habitat loss in the U.S. mid-Atlantic coastal zone. PLOS Climate, 1(6), e0000044. https://doi.org/10.1371/journal.pclm.0000044
Wesselmann M, Apostolaki ET, & Anton A. (2024). Species range shifts, biological invasions and ocean warming. Marine Ecology Progress Series, 728, 81–83. https://doi.org/10.3354/meps14544
References
October 2025
© Ministry for the Environment