Publications
Browse or search these reports, presentations and journal articles by Dragonfly staff and collaborators.
Berkenbusch, K. (2024). Approaches for integrated freshwater-estuary monitoring. Report prepared for Minstry for the Environment, Wellington. 24 p. Retrieved from https://environment.govt.nz/publications/approaches-for-integrated-freshwater-estuarine-monitoring/
Approaches for integrated freshwater-estuary monitoring
Berkenbusch, K. (2024). Approaches for integrated freshwater-estuary monitoring. Report prepared for Minstry for the Environment, Wellington. 24 p. Retrieved from https://environment.govt.nz/publications/approaches-for-integrated-freshwater-estuarine-monitoring/
Berkenbusch, K., & Hill-Moana, T. (2024). Intertidal shellfish monitoring in the northern North Island region, 2023–24. New Zealand Fisheries Assessment Report, 2024/35. 110 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=25759
Intertidal shellfish monitoring in the northern North Island region, 2023–24
Berkenbusch, K., & Hill-Moana, T. (2024). Intertidal shellfish monitoring in the northern North Island region, 2023–24. New Zealand Fisheries Assessment Report, 2024/35. 110 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=25759
Rowden, A. A., Anderson, O. F., Neubauer, P., Hamill, J., Bowden, D. A., Tremblay-Boyer, L., … MacGibbon, D. (2024). Spatially explicit benthic impact assessments for bottom trawling in New Zealand. New Zealand Aquatic Environment and Biodiversity Report, 329. 118 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=25617
Spatially explicit benthic impact assessments for bottom trawling in New Zealand
Rowden, A. A., Anderson, O. F., Neubauer, P., Hamill, J., Bowden, D. A., Tremblay-Boyer, L., … MacGibbon, D. (2024). Spatially explicit benthic impact assessments for bottom trawling in New Zealand. New Zealand Aquatic Environment and Biodiversity Report, 329. 118 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=25617
Berkenbusch, K., & Hill-Moana, T. (2023). Intertidal shellfish monitoring in the northern North Island region, 2022–23. New Zealand Fisheries Assessment Report, 2023/32. 129 p.
Intertidal shellfish monitoring in the northern North Island region, 2022–23
Berkenbusch, K., & Hill-Moana, T. (2023). Intertidal shellfish monitoring in the northern North Island region, 2022–23. New Zealand Fisheries Assessment Report, 2023/32. 129 p.
McCowan, T. A., & Neubauer, P. (2023). Pāua abundance trends and population monitoring in areas affected by the November 2016 Kaikōura earthquake, February 2023 update. New Zealand Fisheries Assessment Report, 2023/26. 19 p.
Pāua abundance trends and population monitoring in areas affected by the November 2016 Kaikōura earthquake, February 2023 update.
McCowan, T. A., & Neubauer, P. (2023). Pāua abundance trends and population monitoring in areas affected by the November 2016 Kaikōura earthquake, February 2023 update. New Zealand Fisheries Assessment Report, 2023/26. 19 p.
Neubauer, P. (2023). The 2022 stock assessment of pāua (Haliotis iris) for PAU 7. New Zealand Fisheries Assessment Report, 2023/17. 46 p.
The 2022 stock assessment of pāua (Haliotis iris) for PAU 7
Neubauer, P. (2023). The 2022 stock assessment of pāua (Haliotis iris) for PAU 7. New Zealand Fisheries Assessment Report, 2023/17. 46 p.
Neubauer, P. (2023). Quantifying effects of reporting changes for pāua (haliotis iris) catch-per-unit-effort. New Zealand Fisheries Assessment Report, 2023/18. 19 p.
Quantifying effects of reporting changes for pāua (Haliotis iris) catch-per-unit-effort
Neubauer, P. (2023). Quantifying effects of reporting changes for pāua (haliotis iris) catch-per-unit-effort. New Zealand Fisheries Assessment Report, 2023/18. 19 p.
Neubauer, P., & Kim, K. (2023). The 2023 stock assessment and management procedure evaluation for pāua (Haliotis iris) fisheries in PAU 5D. New Zealand Fisheries Assessment Report, 2023/46. 82 p.
The 2023 stock assessment and management procedure evaluation for pāua (Haliotis iris) fisheries in PAU 5D
Neubauer, P., & Kim, K. (2023). The 2023 stock assessment and management procedure evaluation for pāua (Haliotis iris) fisheries in PAU 5D. New Zealand Fisheries Assessment Report, 2023/46. 82 p.
Neubauer, P., & Kim, K. (2023). Developing an operating model and testing management procedures for pāua (Haliotis iris) fisheries in PAU 4. New Zealand Fisheries Assessment Report, 2023/29. 50 p.
Developing an operating model and testing management procedures for pāua (Haliotis iris) fisheries in PAU 4
Neubauer, P., & Kim, K. (2023). Developing an operating model and testing management procedures for pāua (Haliotis iris) fisheries in PAU 4. New Zealand Fisheries Assessment Report, 2023/29. 50 p.
Neubauer, P., & Kim, K. (2023). Operating model and management procedure evaluation for pāua (Haliotis iris) fisheries in PAU 3A. New Zealand Fisheries Assessment Report, 2023/28. 109 p.
Operating model and management procedure evaluation for pāua (Haliotis iris) fisheries in PAU 3A
Neubauer, P., & Kim, K. (2023). Operating model and management procedure evaluation for pāua (Haliotis iris) fisheries in PAU 3A. New Zealand Fisheries Assessment Report, 2023/28. 109 p.
Neubauer, P., & Kim, K. (2023). Developing an operating model and testing management procedures for pāua (Haliotis iris) fisheries in PAU 3B. New Zealand Fisheries Assessment Report, 2023/27. 65 p.
Developing an operating model and testing management procedures for pāua (Haliotis iris) fisheries in PAU 3B
Neubauer, P., & Kim, K. (2023). Developing an operating model and testing management procedures for pāua (Haliotis iris) fisheries in PAU 3B. New Zealand Fisheries Assessment Report, 2023/27. 65 p.
Berkenbusch, K., Hill-Moana, T., & Neubauer, P. (2022). Intertidal shellfish monitoring in the northern North Island region, 2021–22. New Zealand Fisheries Assessment Report, 2022/57. 142 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=25318
Intertidal shellfish monitoring in the northern North Island region, 2021–22
Berkenbusch, K., Hill-Moana, T., & Neubauer, P. (2022). Intertidal shellfish monitoring in the northern North Island region, 2021–22. New Zealand Fisheries Assessment Report, 2022/57. 142 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=25318
Neubauer, P. (2022). The 2021 stock assessment of pāua (Haliotis iris) for PAU 2. New Zealand Fisheries Assessment Report, 2022/35. 108 p.
The 2021 stock assessment of pāua (Haliotis iris) for PAU 2
Neubauer, P. (2022). The 2021 stock assessment of pāua (Haliotis iris) for PAU 2. New Zealand Fisheries Assessment Report, 2022/35. 108 p.
Neubauer, P. (2022). The 2020 stock assessment of pāua (Haliotis iris) for PAU 5A. New Zealand Fisheries Assessment Report 2022/33, 2022/33. 103 p.
The 2020 stock assessment of pāua (Haliotis iris) for PAU 5A
Neubauer, P. (2022). The 2020 stock assessment of pāua (Haliotis iris) for PAU 5A. New Zealand Fisheries Assessment Report 2022/33, 2022/33. 103 p.
Berkenbusch, K., Neubauer, P., & Hill-Moana, T. (2021). Intertidal shellfish monitoring in the northern North Island region, 2020–21. New Zealand Fisheries Assessment Report, 2021/73. 75 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24996
Intertidal shellfish monitoring in the northern North Island region, 2020–21
Berkenbusch, K., Neubauer, P., & Hill-Moana, T. (2021). Intertidal shellfish monitoring in the northern North Island region, 2020–21. New Zealand Fisheries Assessment Report, 2021/73. 75 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24996
McCowan, T. A., & Neubauer, P. (2021). Pāua abundance trends and population monitoring in areas affected by the November 2016 Kaikōura earthquake. New Zealand Fisheries Assessment Report, 2021/26. 27 p.
Pāua abundance trends and population monitoring in areas affected by the November 2016 Kaikōura earthquake
McCowan, T. A., & Neubauer, P. (2021). Pāua abundance trends and population monitoring in areas affected by the November 2016 Kaikōura earthquake. New Zealand Fisheries Assessment Report, 2021/26. 27 p.
Neubauer, P. (2021). Pāua management procedure: review of current state and prospects for wider application. New Zealand Fisheries Assessment Report, 2021/03. 13 p.
Pāua management procedure: review of current state and prospects for wider application
Neubauer, P. (2021). Pāua management procedure: review of current state and prospects for wider application. New Zealand Fisheries Assessment Report, 2021/03. 13 p.
Neubauer, P., Damodaran, D., & Berkenbusch, K. (2021). Bivalve abundance in relation to sediment properties across northern North Island. New Zealand Fisheries Assessment Report, 2021/49. 21 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24951
Bivalve abundance in relation to sediment properties across northern North Island
Neubauer, P., Damodaran, D., & Berkenbusch, K. (2021). Bivalve abundance in relation to sediment properties across northern North Island. New Zealand Fisheries Assessment Report, 2021/49. 21 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24951
Berkenbusch, K., & Neubauer, P. (2020). Intertidal shellfish monitoring in the northern North Island region, 2019–20. New Zealand Fisheries Assessment Report, 2020/38. 103 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24836
Intertidal shellfish monitoring in the northern North Island region, 2019–20
Berkenbusch, K., & Neubauer, P. (2020). Intertidal shellfish monitoring in the northern North Island region, 2019–20. New Zealand Fisheries Assessment Report, 2020/38. 103 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24836
Leduc, D., Nodder, S. D., Rowden, A. A., Gibbs, M., Berkenbusch, K., Wood, A., … others. (2020). Structure of infaunal communities in New Zealand submarine canyons is linked to origins of sediment organic matter. Limnology and Oceanography, 65, 2303–2327.
Structure of infaunal communities in New Zealand submarine canyons is linked to origins of sediment organic matter
Leduc, D., Nodder, S. D., Rowden, A. A., Gibbs, M., Berkenbusch, K., Wood, A., … others. (2020). Structure of infaunal communities in New Zealand submarine canyons is linked to origins of sediment organic matter. Limnology and Oceanography, 65, 2303–2327.
Neubauer, P. (2020). Development and application of a spatial stock assessment model for pāua (Haliotis iris). New Zealand Fisheries Assessment Report, 2020/30. 42 p.
Development and application of a spatial stock assessment model for pāua (Haliotis iris)
Neubauer, P. (2020). Development and application of a spatial stock assessment model for pāua (Haliotis iris). New Zealand Fisheries Assessment Report, 2020/30. 42 p.
Berkenbusch, K. (2019). The influence of burrowing shrimp on estuarine ecosystems. Presentation at the Washington Coast Shellfish Aquaculture Workshop, Washington Sea Grant, 27–29 October 2019, Washington, United States. Retrieved from https://www.youtube.com/watch?v=yqTQ1Akelxg&feature=youtu.be
The influence of burrowing shrimp on estuarine ecosystems
Berkenbusch, K. (2019). The influence of burrowing shrimp on estuarine ecosystems. Presentation at the Washington Coast Shellfish Aquaculture Workshop, Washington Sea Grant, 27–29 October 2019, Washington, United States. Retrieved from https://www.youtube.com/watch?v=yqTQ1Akelxg&feature=youtu.be
Berkenbusch, K. (2019). Regional patterns of macrofaunal diversity and abundance determined by antagonistic ecosystem engineers in soft-sediment intertidal habitats. Presentation to New Zealand Marine Sciences Society, July 2019. Retrieved from http://files.dragonfly.co.nz/publications/pdf/berkenbusch_regional_2019.pdf
Regional patterns of macrofaunal diversity and abundance determined by antagonistic ecosystem engineers in soft-sediment intertidal habitats
Berkenbusch, K. (2019). Regional patterns of macrofaunal diversity and abundance determined by antagonistic ecosystem engineers in soft-sediment intertidal habitats. Presentation to New Zealand Marine Sciences Society, July 2019. Retrieved from http://files.dragonfly.co.nz/publications/pdf/berkenbusch_regional_2019.pdf
Berkenbusch, K., & Neubauer, P. (2019). Intertidal shellfish monitoring in the northern North Island region, 2018–19. New Zealand Fisheries Assessment Report, 2019/32. 106 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24738
Intertidal shellfish monitoring in the northern North Island region, 2018–19
Berkenbusch, K., & Neubauer, P. (2019). Intertidal shellfish monitoring in the northern North Island region, 2018–19. New Zealand Fisheries Assessment Report, 2019/32. 106 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24738
Neubauer, P. (2019). Development and evaluation of management procedures in pāua quota management areas 5A, 5B and 5D. New Zealand Fisheries Assessment Report, 2019/37. 63 p.
Development and evaluation of management procedures in pāua quota management areas 5A, 5B and 5D
Neubauer, P. (2019). Development and evaluation of management procedures in pāua quota management areas 5A, 5B and 5D. New Zealand Fisheries Assessment Report, 2019/37. 63 p.
Neubauer, P., & Tremblay-Boyer, L. (2019). Input data for the 2018 stock assessment of pāua (Haliotis iris) for PAU 5D. New Zealand Fisheries Assessment Report, 2019/38. 40 p.
Input data for the 2018 stock assessment of pāua (Haliotis iris) for PAU 5D
Neubauer, P., & Tremblay-Boyer, L. (2019). Input data for the 2018 stock assessment of pāua (Haliotis iris) for PAU 5D. New Zealand Fisheries Assessment Report, 2019/38. 40 p.
Neubauer, P., & Tremblay-Boyer, L. (2019). The 2018 stock assessment of pāua (Haliotis iris) for PAU 5D. New Zealand Fisheries Assessment Report, 2019/39. 58 p.
The 2018 stock assessment of pāua (Haliotis iris) for PAU 5D
Neubauer, P., & Tremblay-Boyer, L. (2019). The 2018 stock assessment of pāua (Haliotis iris) for PAU 5D. New Zealand Fisheries Assessment Report, 2019/39. 58 p.
Berkenbusch, K., & Neubauer, P. (2018). Intertidal shellfish monitoring in the northern North Island region, 2017–18. New Zealand Fisheries Assessment Report, 2018/28. 99 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24620
Intertidal shellfish monitoring in the northern North Island region, 2017–18
Berkenbusch, K., & Neubauer, P. (2018). Intertidal shellfish monitoring in the northern North Island region, 2017–18. New Zealand Fisheries Assessment Report, 2018/28. 99 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24620
Berkenbusch, K., & Neubauer, P. (2018). Distribution and abundance of toheroa at Oreti Beach, Murihiku/Southland, 2016–17. New Zealand Fisheries Assessment Report, 2018/26. 18 p. Retrieved from https://www.mpi.govt.nz/dmsdocument/29813
Distribution and abundance of toheroa at Oreti Beach, Murihiku/Southland, 2016–17
Berkenbusch, K., & Neubauer, P. (2018). Distribution and abundance of toheroa at Oreti Beach, Murihiku/Southland, 2016–17. New Zealand Fisheries Assessment Report, 2018/26. 18 p. Retrieved from https://www.mpi.govt.nz/dmsdocument/29813
McCowan, T. A., & Neubauer, P. (2018). Paua biomass estimates and population monitoring in areas affected by the November 2016 Kaikoura earthquake. New Zealand Fisheries Assessment Report, 2018/54. 24 p.
Paua biomass estimates and population monitoring in areas affected by the November 2016 Kaikoura earthquake
McCowan, T. A., & Neubauer, P. (2018). Paua biomass estimates and population monitoring in areas affected by the November 2016 Kaikoura earthquake. New Zealand Fisheries Assessment Report, 2018/54. 24 p.
Berkenbusch, K., & Neubauer, P. (2017). Intertidal shellfish monitoring in the northern North Island region, 2016–17. New Zealand Fisheries Assessment Report, 2017/51. 103 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24505
Intertidal shellfish monitoring in the northern North Island region, 2016–17
Berkenbusch, K., & Neubauer, P. (2017). Intertidal shellfish monitoring in the northern North Island region, 2016–17. New Zealand Fisheries Assessment Report, 2017/51. 103 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24505
Neubauer, P. (2017). Spatial bias in pāua Haliotis iris catch-per-unit-effort. New Zealand Fisheries Assessment Report, 2017/57. 33 p.
Spatial bias in pāua Haliotis iris catch-per-unit-effort
Neubauer, P. (2017). Spatial bias in pāua Haliotis iris catch-per-unit-effort. New Zealand Fisheries Assessment Report, 2017/57. 33 p.
Neubauer, P. (2017). The pāua data logger system. New Zealand Fisheries Assessment Report 2017/54. 12 p.
The pāua data-logger system
Neubauer, P. (2017). The pāua data logger system. New Zealand Fisheries Assessment Report 2017/54. 12 p.
Berkenbusch, K., & Neubauer, P. (2016). Intertidal shellfish monitoring in the northern North Island region, 2015–16. New Zealand Fisheries Assessment Report, 2016/49. 108 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24186
Intertidal shellfish monitoring in the northern North Island region, 2015–16
Berkenbusch, K., & Neubauer, P. (2016). Intertidal shellfish monitoring in the northern North Island region, 2015–16. New Zealand Fisheries Assessment Report, 2016/49. 108 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=24186
Rosli, N., Leduc, D., Rowden, A. A., Clark, M. R., Probert, P. K., Berkenbusch, K., & Neira, C. (2016). Differences in meiofauna communities with sediment depth are greater than habitat effects on the New Zealand continental margin: implications for vulnerability to anthropogenic disturbance. PeerJ, 4, e2154. doi:10.7717/peerj.2154
Differences in meiofauna communities with sediment depth are greater than habitat effects on the New Zealand continental margin: implications for vulnerability to anthropogenic disturbance
Rosli, N., Leduc, D., Rowden, A. A., Clark, M. R., Probert, P. K., Berkenbusch, K., & Neira, C. (2016). Differences in meiofauna communities with sediment depth are greater than habitat effects on the New Zealand continental margin: implications for vulnerability to anthropogenic disturbance. PeerJ, 4, e2154. doi:10.7717/peerj.2154
Abraham, E. R., & Neubauer, P. (2015). Relationship between small-scale catch-per-unit-effort and abundance in New Zealand abalone (pāua, Haliotis iris) fisheries. PeerJ Preprints, 3, e1733. doi:10.7287/peerj.preprints.1388v2
Relationship between small-scale catch-per-unit-effort and abundance in New Zealand abalone (pāua, Haliotis iris) fisheries
Abraham, E. R., & Neubauer, P. (2015). Relationship between small-scale catch-per-unit-effort and abundance in New Zealand abalone (pāua, Haliotis iris) fisheries. PeerJ Preprints, 3, e1733. doi:10.7287/peerj.preprints.1388v2
Berkenbusch, K., Abraham, E., & Neubauer, P. (2015). Distribution and abundance of toheroa in Southland, 2013–14. New Zealand Fisheries Assessment Report, 2015/17. 45 p.
Distribution and abundance of toheroa in Southland, 2013–14
Berkenbusch, K., Abraham, E., & Neubauer, P. (2015). Distribution and abundance of toheroa in Southland, 2013–14. New Zealand Fisheries Assessment Report, 2015/17. 45 p.
Berkenbusch, K., Abraham, E., & Neubauer, P. (2015). The influence of habitat characteristics on toheroa Paphies ventricosa. Conference presentation, New Zealand Marine Sciences Society & Oceania Chondrichthyan Society conference, Auckland, New Zealand, 6–9 July 2015.
The influence of habitat characteristics on toheroa Paphies ventricosa
Berkenbusch, K., Abraham, E., & Neubauer, P. (2015). The influence of habitat characteristics on toheroa Paphies ventricosa. Conference presentation, New Zealand Marine Sciences Society & Oceania Chondrichthyan Society conference, Auckland, New Zealand, 6–9 July 2015.
Berkenbusch, K., Abraham, E., & Neubauer, P. (2015). Intertidal shellfish monitoring in the northern North Island region, 2013–14. New Zealand Fisheries Assessment Report, 2015/15. 83 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=23774
Intertidal shellfish monitoring in the northern North Island region, 2013–14
Berkenbusch, K., Abraham, E., & Neubauer, P. (2015). Intertidal shellfish monitoring in the northern North Island region, 2013–14. New Zealand Fisheries Assessment Report, 2015/15. 83 p. Retrieved from https://fs.fish.govt.nz/Page.aspx?pk=113&dk=23774
Berkenbusch, K., & Neubauer, P. (2015). Intertidal shellfish monitoring in the northern North Island region, 2014–15. New Zealand Fisheries Assessment Report, 2015/59. 110 p. Retrieved from https://fs.fish.govt.nz/Doc/23960/FAR_2015_59_2933_AKI%202014-01.pdf.ashx
Intertidal shellfish monitoring in the northern North Island region, 2014–15
Berkenbusch, K., & Neubauer, P. (2015). Intertidal shellfish monitoring in the northern North Island region, 2014–15. New Zealand Fisheries Assessment Report, 2015/59. 110 p. Retrieved from https://fs.fish.govt.nz/Doc/23960/FAR_2015_59_2933_AKI%202014-01.pdf.ashx
Görlitz, S., Berkenbusch, K., & Probert, P. K. (2015). Lugworm (Abarenicola affinis) in seagrass and unvegetated habitats. Helgoland Marine Research, 69, 159–168. doi:10.1007/s10152-014-0424-1
Lugworm (Abarenicola affinis) in seagrass and unvegetated habitats
Görlitz, S., Berkenbusch, K., & Probert, P. K. (2015). Lugworm (Abarenicola affinis) in seagrass and unvegetated habitats. Helgoland Marine Research, 69, 159–168. doi:10.1007/s10152-014-0424-1
Neubauer, P., Abraham, E., Knox, C., & Richard, Y. (2015). Assessing the performance of pāua (Haliotis iris) fisheries using GPS logger data. New Zealand Fisheries Assessment Report, 2015/71. 39 p. Retrieved from https://fs.fish.govt.nz/Doc/23975/FAR-2015-71-Paua-data-logger.pdf.ashx
Assessing the performance of pāua (Haliotis iris) fisheries using GPS logger data
Neubauer, P., Abraham, E., Knox, C., & Richard, Y. (2015). Assessing the performance of pāua (Haliotis iris) fisheries using GPS logger data. New Zealand Fisheries Assessment Report, 2015/71. 39 p. Retrieved from https://fs.fish.govt.nz/Doc/23975/FAR-2015-71-Paua-data-logger.pdf.ashx
Neubauer, P., Abraham, E. R., & Berkenbusch, K. (2015). Predictability of cockle (Austrovenus stutchburyi) population trends in New Zealand’s northern North Island. PeerJ PrePrints, 3, e1772. Retrieved from https://peerj.com/preprints/1422/
Predictability of cockle (Austrovenus stutchburyi) population trends in New Zealand's northern North Island
Neubauer, P., Abraham, E. R., & Berkenbusch, K. (2015). Predictability of cockle (Austrovenus stutchburyi) population trends in New Zealand’s northern North Island. PeerJ PrePrints, 3, e1772. Retrieved from https://peerj.com/preprints/1422/
Leduc, D., Nodder, S. D., Berkenbusch, K., & Rowden, A. A. (2014). Effect of core surface area and sediment depth on estimates of deep-sea nematode genus richness and community structure. Marine Biodiversity, 45, 349–356.
Effect of core surface area and sediment depth on estimates of deep-sea nematode genus richness and community structure
Leduc, D., Nodder, S. D., Berkenbusch, K., & Rowden, A. A. (2014). Effect of core surface area and sediment depth on estimates of deep-sea nematode genus richness and community structure. Marine Biodiversity, 45, 349–356.
Morrison, M. A., Jones, E. G., Consalvey, M., & Berkenbusch, K. (2014). 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. 160 p. Retrieved from https://www.mpi.govt.nz/document-vault/4373
Linking marine fisheries species to biogenic habitats in New Zealand: a review and synthesis of knowledge
Morrison, M. A., Jones, E. G., Consalvey, M., & Berkenbusch, K. (2014). 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. 160 p. Retrieved from https://www.mpi.govt.nz/document-vault/4373
Neubauer, P., & Abraham, E. (2014). Using GPS logger data to monitor change in the PAU7 pāua (Haliotis iris) fishery. New Zealand Fisheries Assessment Report 2014/31. 29 p.
Using GPS logger data to monitor change in the PAU7 pāua (Haliotis iris) fishery
Neubauer, P., & Abraham, E. (2014). Using GPS logger data to monitor change in the PAU7 pāua (Haliotis iris) fishery. New Zealand Fisheries Assessment Report 2014/31. 29 p.
Görlitz, S., Berkenbusch, K., & Probert, P. K. (2013). Distribution and abundance of Abarenicola affinis (Arenicolidae, Polychaeta) in tidal inlets of Otago, New Zealand. New Zealand Journal of Marine and Freshwater Research, 47, 548–560. doi:10.1080/00288330.2013.815641
Distribution and abundance of Abarenicola affinis (Arenicolidae, Polychaeta) in tidal inlets of Otago, New Zealand
Görlitz, S., Berkenbusch, K., & Probert, P. K. (2013). Distribution and abundance of Abarenicola affinis (Arenicolidae, Polychaeta) in tidal inlets of Otago, New Zealand. New Zealand Journal of Marine and Freshwater Research, 47, 548–560. doi:10.1080/00288330.2013.815641
Leduc, D., Rowden, A. A., Nodder, S. D., Berkenbusch, K., Probert, P. K., & Hadfield, M. G. (2013). Unusually high food availability in Kaikoura Canyon linked to distinct deep-sea nematode community. Deep Sea Research Part II: Topical Studies in Oceanography. doi:10.1016/j.dsr2.2013.06.003
Unusually high food availability in Kaikoura Canyon linked to distinct deep-sea nematode community
Leduc, D., Rowden, A. A., Nodder, S. D., Berkenbusch, K., Probert, P. K., & Hadfield, M. G. (2013). Unusually high food availability in Kaikoura Canyon linked to distinct deep-sea nematode community. Deep Sea Research Part II: Topical Studies in Oceanography. doi:10.1016/j.dsr2.2013.06.003
Abraham, E. R. (2012). Pāua catch per unit effort from logger data. Final Research Report for Ministry for Primary Industries project PAU2010-03 (Unpublished report held by Ministry for Primary Industries, Wellington). Retrieved from http://fs.fish.govt.nz/Doc/23163/2013-03_2621_PAU2010-03_MS3_fighting-bay%20final%20FRR.pdf.ashx
Pāua catch per unit effort from logger data
Abraham, E. R. (2012). Pāua catch per unit effort from logger data. Final Research Report for Ministry for Primary Industries project PAU2010-03 (Unpublished report held by Ministry for Primary Industries, Wellington). Retrieved from http://fs.fish.govt.nz/Doc/23163/2013-03_2621_PAU2010-03_MS3_fighting-bay%20final%20FRR.pdf.ashx
Abraham, E., & Cooper, J. (2012). Pāua catch-per-unit effort from GPS dive-loggers. Presentation at the International Abalone Symposium, Hobart, 9 May 2012.
Pāua catch-per-unit effort from GPS dive-loggers
Abraham, E., & Cooper, J. (2012). Pāua catch-per-unit effort from GPS dive-loggers. Presentation at the International Abalone Symposium, Hobart, 9 May 2012.
Lörz, A. N., Berkenbusch, K., Nodder, S., Ahyong, S., Bowden, D., McMillan, P., … Mackay, K. (2012). A review of deep-sea benthic biodiversity associated with trench, canyon and abyssal habitats below 1500 m depth in New Zealand waters. New Zealand Aquatic Environment and Biodiversity Report No. 92. 133 p. Retrieved from http://fs.fish.govt.nz/Doc/22980/AEBR_92.pdf.ashx
A review of deep-sea benthic biodiversity associated with trench, canyon and abyssal habitats below 1500 m depth in New Zealand waters
Lörz, A. N., Berkenbusch, K., Nodder, S., Ahyong, S., Bowden, D., McMillan, P., … Mackay, K. (2012). A review of deep-sea benthic biodiversity associated with trench, canyon and abyssal habitats below 1500 m depth in New Zealand waters. New Zealand Aquatic Environment and Biodiversity Report No. 92. 133 p. Retrieved from http://fs.fish.govt.nz/Doc/22980/AEBR_92.pdf.ashx
Rowden, A. A., Berkenbusch, K., Brewin, P. E., Dalen, J., Neill, K. F., Nelson, W. A., … Sutherland, D. (2012). A review of the marine soft-sediment assemblages of New Zealand. New Zealand Aquatic Environment and Biodiversity Report No. 96. 171 p. Retrieved from https://www.mpi.govt.nz/document-vault/4176
A review of the marine soft-sediment assemblages of New Zealand
Rowden, A. A., Berkenbusch, K., Brewin, P. E., Dalen, J., Neill, K. F., Nelson, W. A., … Sutherland, D. (2012). A review of the marine soft-sediment assemblages of New Zealand. New Zealand Aquatic Environment and Biodiversity Report No. 96. 171 p. Retrieved from https://www.mpi.govt.nz/document-vault/4176
Berkenbusch, K., Probert, P. K., & Nodder, S. D. (2011). Comparative biomass of sediment benthos across a depth transect, Chatham Rise, southwest Pacific Ocean. Marine Ecology Progress Series, 425, 79–90. doi:10.3354/meps09014
Comparative biomass of sediment benthos across a depth transect, Chatham Rise, southwest Pacific Ocean
Berkenbusch, K., Probert, P. K., & Nodder, S. D. (2011). Comparative biomass of sediment benthos across a depth transect, Chatham Rise, southwest Pacific Ocean. Marine Ecology Progress Series, 425, 79–90. doi:10.3354/meps09014
Guitierrez, J. L., Jones, C. G., Byers, J. E., Arkema, K. K., Berkenbusch, K., Commito, J. A., … Hendricks, I. E. (2011). Physical ecosystem engineers and the functioning of estuaries and coasts. In E. Wolanski & D. McLusky (Eds.), Treatise on estuarine and coastal science (pp. 53–81). Amsterdam: Elsevier. doi:10.1016/B978-0-12-374711-2.00705-1
Physical ecosystem engineers and the functioning of estuaries and coasts
Guitierrez, J. L., Jones, C. G., Byers, J. E., Arkema, K. K., Berkenbusch, K., Commito, J. A., … Hendricks, I. E. (2011). Physical ecosystem engineers and the functioning of estuaries and coasts. In E. Wolanski & D. McLusky (Eds.), Treatise on estuarine and coastal science (pp. 53–81). Amsterdam: Elsevier. doi:10.1016/B978-0-12-374711-2.00705-1
Miller, S. L., & Abraham, E. R. (2011). Characterisation of New Zealand kina fisheries. New Zealand Fisheries Assessment Report 2011/7. 95 p. Retrieved from http://fs.fish.govt.nz/Doc/22817/11_07_FAR.pdf.ashx
Characterisation of New Zealand kina fisheries
Miller, S. L., & Abraham, E. R. (2011). Characterisation of New Zealand kina fisheries. New Zealand Fisheries Assessment Report 2011/7. 95 p. Retrieved from http://fs.fish.govt.nz/Doc/22817/11_07_FAR.pdf.ashx
Leduc, D., Probert, P. K., Berkenbusch, K., Nodder, S. D., & Pilditch, C. A. (2010). Abundance of small individuals influences the effectiveness of processing techniques for deep-sea nematodes. Deep Sea Research Part I: Oceanographic Research Papers, 57, 1363–1371. doi:10.1016/j.dsr.2010.07.002
Abundance of small individuals influences the effectiveness of processing techniques for deep-sea nematodes
Leduc, D., Probert, P. K., Berkenbusch, K., Nodder, S. D., & Pilditch, C. A. (2010). Abundance of small individuals influences the effectiveness of processing techniques for deep-sea nematodes. Deep Sea Research Part I: Oceanographic Research Papers, 57, 1363–1371. doi:10.1016/j.dsr.2010.07.002
Mills, V. S., & Berkenbusch, K. (2009). Seagrass (Zostera muelleri) patch size and spatial location influence infaunal macroinvertebrate assemblages. Estuarine, Coastal and Shelf Science, 81, 123–129. doi:10.1016/j.ecss.2008.10.005
Seagrass (Zostera muelleri) patch size and spatial location influence infaunal macroinvertebrate assemblages
Mills, V. S., & Berkenbusch, K. (2009). Seagrass (Zostera muelleri) patch size and spatial location influence infaunal macroinvertebrate assemblages. Estuarine, Coastal and Shelf Science, 81, 123–129. doi:10.1016/j.ecss.2008.10.005
Abraham, E. R. (2007). Sea-urchin feeding fronts. Ecological Complexity, 4, 161–168. doi:10.1016/j.ecocom.2007.06.001
Sea-urchin feeding fronts
Abraham, E. R. (2007). Sea-urchin feeding fronts. Ecological Complexity, 4, 161–168. doi:10.1016/j.ecocom.2007.06.001
Berkenbusch, K., & Rowden, A. A. (2007). An examination of the spatial and temporal generality of the influence of ecosystem engineers on the composition of associated assemblages. Aquatic Ecology, 41(1), 129–147. doi:10.1007/s10452-006-9053-3
An examination of the spatial and temporal generality of the influence of ecosystem engineers on the composition of associated assemblages
Berkenbusch, K., & Rowden, A. A. (2007). An examination of the spatial and temporal generality of the influence of ecosystem engineers on the composition of associated assemblages. Aquatic Ecology, 41(1), 129–147. doi:10.1007/s10452-006-9053-3
Berkenbusch, K., Rowden, A. A., & Myers, T. E. (2007). Interactions between seagrasses and burrowing ghost shrimps and their influence on infaunal assemblages. Journal of Experimental Marine Biology and Ecology, 341, 70–84. doi:10.1016/j.jembe.2006.10.026
Interactions between seagrasses and burrowing ghost shrimps and their influence on infaunal assemblages
Berkenbusch, K., Rowden, A. A., & Myers, T. E. (2007). Interactions between seagrasses and burrowing ghost shrimps and their influence on infaunal assemblages. Journal of Experimental Marine Biology and Ecology, 341, 70–84. doi:10.1016/j.jembe.2006.10.026
Grove, S. L., Probert, P. K., Berkenbusch, K. K., & Nodder, S. D. (2006). Distribution of bathyal meiofauna in the region of the Subtropical Front, Chatham Rise, south-west Pacific. Journal of Experimental Marine Biology and Ecology, 330, 342–355. doi:10.1016/j.jembe.2005.12.038
Distribution of bathyal meiofauna in the region of the Subtropical Front, Chatham Rise, south-west Pacific
Grove, S. L., Probert, P. K., Berkenbusch, K. K., & Nodder, S. D. (2006). Distribution of bathyal meiofauna in the region of the Subtropical Front, Chatham Rise, south-west Pacific. Journal of Experimental Marine Biology and Ecology, 330, 342–355. doi:10.1016/j.jembe.2005.12.038
MacDiarmid, A., Abraham, E., McKenzie, A., Dolan, T., Goodrich, M., & Butler, M. (2006). Individual based, spatially explicit models to explore the mating systems of the red rock lobster Jasus edwardsii and the Caribbean spiny lobster Panulirus argus. The Lobster Newsletter, 19(1), 8–9. Retrieved from http://www.fish.wa.gov.au/Documents/rock_lobster/the_lobster_newsletter/lobster_newsletter_v19_no1.pdf
Individual based, spatially explicit models to explore the mating systems of the red rock lobster Jasus edwardsii and the Caribbean spiny lobster Panulirus argus
MacDiarmid, A., Abraham, E., McKenzie, A., Dolan, T., Goodrich, M., & Butler, M. (2006). Individual based, spatially explicit models to explore the mating systems of the red rock lobster Jasus edwardsii and the Caribbean spiny lobster Panulirus argus. The Lobster Newsletter, 19(1), 8–9. Retrieved from http://www.fish.wa.gov.au/Documents/rock_lobster/the_lobster_newsletter/lobster_newsletter_v19_no1.pdf
Lohrer, A. M., Thrush, S. F., Hewitt, J. E., Berkenbusch, K., Ahrens, M., & Cummings, V. J. (2004). Terrestrially derived sediment: response of marine macrobenthic communities to thin terrigenous deposits. Marine Ecology Progress Series, 273, 121–138. doi:10.3354/meps273121
Terrestrially derived sediment: response of marine macrobenthic communities to thin terrigenous deposits
Lohrer, A. M., Thrush, S. F., Hewitt, J. E., Berkenbusch, K., Ahrens, M., & Cummings, V. J. (2004). Terrestrially derived sediment: response of marine macrobenthic communities to thin terrigenous deposits. Marine Ecology Progress Series, 273, 121–138. doi:10.3354/meps273121
Berkenbusch, K., & Rowden, A. A. (2003). Ecosystem engineering – moving away from “just-so” stories. New Zealand Journal of Ecology, 27, 67–73. Retrieved from http://www.jstor.org/stable/24058163
Ecosystem engineering – moving away from “just-so” stories
Berkenbusch, K., & Rowden, A. A. (2003). Ecosystem engineering – moving away from “just-so” stories. New Zealand Journal of Ecology, 27, 67–73. Retrieved from http://www.jstor.org/stable/24058163
Berkenbusch, K., Thrush, S., Hewitt, J., Ahrens, M., Gibbs, M., & Cummings, V. (2002). Impact of thin deposits of terrigenous clay on benthic communities. Auckland Regional Council, Technical Publication No. 161. 62 p. Retrieved from http://www.aucklandcity.govt.nz/council/documents/technicalpublications/TP161_Impact%20of%20terrigenous%20clay%20on%20benthic%20communities_web.pdf
Impact of thin deposits of terrigenous clay on benthic communities
Berkenbusch, K., Thrush, S., Hewitt, J., Ahrens, M., Gibbs, M., & Cummings, V. (2002). Impact of thin deposits of terrigenous clay on benthic communities. Auckland Regional Council, Technical Publication No. 161. 62 p. Retrieved from http://www.aucklandcity.govt.nz/council/documents/technicalpublications/TP161_Impact%20of%20terrigenous%20clay%20on%20benthic%20communities_web.pdf
Abraham, E. R. (2001). The fractal branching of an arborescent sponge. Marine Biology, 138(3), 503–510. doi:10.1007/s002270000479
The fractal branching of an arborescent sponge
Abraham, E. R. (2001). The fractal branching of an arborescent sponge. Marine Biology, 138(3), 503–510. doi:10.1007/s002270000479
Abraham, E. R. (2001). The branching sponge Raspailia inaequalis. In Kaandorp, J. and Kübler, J. (eds.) The algorithmic beauty of seaweeds, sponges and corals (pp. 34–38). Berlin: Springer.
The branching sponge Raspailia inaequalis
Abraham, E. R. (2001). The branching sponge Raspailia inaequalis. In Kaandorp, J. and Kübler, J. (eds.) The algorithmic beauty of seaweeds, sponges and corals (pp. 34–38). Berlin: Springer.
Abraham, E. R. (2001). A Laplacian model of branching growth. In Kaandorp, J. and Kübler, J. (eds.) The algorithmic beauty of seaweeds, sponges and corals (pp. 109–113). Berlin: Springer.
A Laplacian model of branching growth
Abraham, E. R. (2001). A Laplacian model of branching growth. In Kaandorp, J. and Kübler, J. (eds.) The algorithmic beauty of seaweeds, sponges and corals (pp. 109–113). Berlin: Springer.
Abraham, E. R. (2001). Morphological analysis of a branching sponge. In Kaandorp, J. and Kübler, J. (eds.) The algorithmic beauty of seaweeds, sponges and corals (pp. 72–75). Berlin: Springer.
Morphological analysis of a branching sponge
Abraham, E. R. (2001). Morphological analysis of a branching sponge. In Kaandorp, J. and Kübler, J. (eds.) The algorithmic beauty of seaweeds, sponges and corals (pp. 72–75). Berlin: Springer.
Gibbs, M., Thrush, S., Sukias, J., Berkenbusch, K., Thompson, D., & Bury, S. (2001). Evaluation of terrestrial sediment spatial patterns throughout the Whitford embayment and its benthic food web using stable isotope techniques. Auckland Regional Council, Technical Publication No. 162. 32 p. Retrieved from http://www.aucklandcity.govt.nz/council/documents/technicalpublications/TP162_Food%20webs%20using%20stable%20isotopes_web.pdf
Evaluation of terrestrial sediment spatial patterns throughout the Whitford embayment and its benthic food web using stable isotope techniques
Gibbs, M., Thrush, S., Sukias, J., Berkenbusch, K., Thompson, D., & Bury, S. (2001). Evaluation of terrestrial sediment spatial patterns throughout the Whitford embayment and its benthic food web using stable isotope techniques. Auckland Regional Council, Technical Publication No. 162. 32 p. Retrieved from http://www.aucklandcity.govt.nz/council/documents/technicalpublications/TP162_Food%20webs%20using%20stable%20isotopes_web.pdf
Berkenbusch, K., & Rowden, A. A. (2000). Intraspecific burrow plasticity of an intertidal population of Callianassa filholi (Crustacea: Decapoda: Thalassinidea) in relation to environmental conditions. New Zealand Journal of Marine and Freshwater Research, 34(3), 397–408. doi:10.1080/00288330.2000.9516943
Intraspecific burrow plasticity of an intertidal population of Callianassa filholi (Crustacea: Decapoda: Thalassinidea) in relation to environmental conditions
Berkenbusch, K., & Rowden, A. A. (2000). Intraspecific burrow plasticity of an intertidal population of Callianassa filholi (Crustacea: Decapoda: Thalassinidea) in relation to environmental conditions. New Zealand Journal of Marine and Freshwater Research, 34(3), 397–408. doi:10.1080/00288330.2000.9516943
Berkenbusch, K., & Rowden, A. A. (2000). Latitudinal variation in the reproductive biology of the burrowing ghost shrimp Callianassa filholi (Decapoda: Thalassinidea). Marine Biology, 136, 497–504. doi:10.1007/s002270050709
Latitudinal variation in the reproductive biology of the burrowing ghost shrimp Callianassa filholi (Decapoda: Thalassinidea)
Berkenbusch, K., & Rowden, A. A. (2000). Latitudinal variation in the reproductive biology of the burrowing ghost shrimp Callianassa filholi (Decapoda: Thalassinidea). Marine Biology, 136, 497–504. doi:10.1007/s002270050709
Berkenbusch, K., Rowden, A. A., & Probert, P. K. (2000). Temporal and spatial variation in macrofauna community composition imposed by ghost shrimp Callianassa filholi bioturbation. Marine Ecology Progress Series, 192, 249–257. doi:10.3354/meps192249
Temporal and spatial variation in macrofauna community composition imposed by ghost shrimp Callianassa filholi bioturbation
Berkenbusch, K., Rowden, A. A., & Probert, P. K. (2000). Temporal and spatial variation in macrofauna community composition imposed by ghost shrimp Callianassa filholi bioturbation. Marine Ecology Progress Series, 192, 249–257. doi:10.3354/meps192249
Berkenbusch, K., & Rowden, A. A. (1999). Factors influencing sediment turnover by the burrowing ghost shrimp Callianassa filholi (Decapoda: Thalassinidea). Journal of Experimental Marine Biology and Ecology, 238(2), 283–292. doi:10.1016/S0022-0981(99)00019-2
Factors influencing sediment turnover by the burrowing ghost shrimp Callianassa filholi (Decapoda: Thalassinidea)
Berkenbusch, K., & Rowden, A. A. (1999). Factors influencing sediment turnover by the burrowing ghost shrimp Callianassa filholi (Decapoda: Thalassinidea). Journal of Experimental Marine Biology and Ecology, 238(2), 283–292. doi:10.1016/S0022-0981(99)00019-2
Berkenbusch, K., & Rowden, A. A. (1998). Population dynamics of the burrowing ghost shrimp Callianassa filholi on an intertidal sandflat in New Zealand (Decapoda: Thalassinidea). Ophelia, 49, 55–69. doi:10.1080/00785326.1998.10409373
Population dynamics of the burrowing ghost shrimp Callianassa filholi on an intertidal sandflat in New Zealand (Decapoda: Thalassinidea)
Berkenbusch, K., & Rowden, A. A. (1998). Population dynamics of the burrowing ghost shrimp Callianassa filholi on an intertidal sandflat in New Zealand (Decapoda: Thalassinidea). Ophelia, 49, 55–69. doi:10.1080/00785326.1998.10409373