Aquatic Environment and Biodiversity Annual Review 2012
Aquatic Environment and Biodiversity Annual Review 2012
Aquatic Environment and Biodiversity Annual Review 2012
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AEBAR <strong>2012</strong>: Marine <strong>Biodiversity</strong><br />
Leathwick, J.R.; Dey, K.L.; Julian, K. (2006c). Development of a marine environmental classification optimised for demersal fish. NIWA<br />
Client report HAM2006–063<br />
Leduc, D., A. A. Rowden, D. A. Bowden, P. K. Probert, C. A. Pilditch, <strong>and</strong> S. D. Nodder. (<strong>2012</strong>). Unimodal relationship between biomass<br />
<strong>and</strong> species richness of deep-sea nematodes: implications for the link between productivity <strong>and</strong> diversity. Marine Ecology<br />
Progress Series 454:53-64.<br />
Levin, L.A., Gambi, M.C., Barry, J.P., Genin, A. & Thrush, S. (2011). The Dayton legacy: baselines, benchmarks, climate, disturbance <strong>and</strong><br />
proof. Marine Ecology, 32:261-165.<br />
Link, J. (1999) Reconstructing Food Webs <strong>and</strong> Managing Fisheries. Ecosystem Approaches for Fisheries Management. Proceedings of the<br />
16th Lowell Wakefield Fisheries Symposium. AK-SG-99-01:571-588.<br />
Livingston ME (2009). Towards a National Marine <strong>Environment</strong> Monitoring Programme in New Zeal<strong>and</strong>. A discussion paper submitted to<br />
the <strong>Biodiversity</strong> Research Advisory Group Workshop on Marine <strong>Environment</strong>al Monitoring, July 2009. (Unpublished report held<br />
at MFishMPI, Wellington)<br />
Livingston, M. (2004). A sampling programme to construct <strong>and</strong> quantify food-webs in two key areas supporting important fish <strong>and</strong><br />
invertebrate species in New Zeal<strong>and</strong>. Final Research Report for Ministry of Fisheries Project ENV2002-07, Objective 1. NIWA.<br />
Lohrer, A.M., Chiaroni, L.D., Thrush, S.F., Hewitt, J.E. (2010). Isolated <strong>and</strong> interactive effects of two key species on ecosystem function<br />
<strong>and</strong> trophic linkages in New Zeal<strong>and</strong> soft-sediment habitats. New Zeal<strong>and</strong> <strong>Aquatic</strong> <strong>Environment</strong> <strong>and</strong> <strong>Biodiversity</strong> Report No. 44.<br />
69 p.<br />
Lohrer, A.M., Cummings, V.J., Thrush, S.F. (<strong>2012</strong>). Altered sea ice thickness <strong>and</strong> permanence affects benthic ecosystem functioning in<br />
coastal Antarctica. Ecosystems 10.1007/s10021-012-9610-7.<br />
Lohrer, A.M., Halliday, N.J., Thrush, S.F., Hewitt, J.E. & Rodil, I.F. (2010). Ecosystem functioning in a disturbance-recovery context:<br />
contribution of macrofauna to primary production <strong>and</strong> nutrient release on intertidal flats. Journal of Experimental Marine Biology<br />
<strong>and</strong> Ecology, 390:6-13.<br />
Lohrer, A.M., Hewitt, J.E., Hailes, S.F., Thrush, S.F., Ahrens, M. & Halliday, J. (2011). Contamination on s<strong>and</strong>flats <strong>and</strong> the decoupling of<br />
linked ecological functions. Austral Ecology, 36:378–388.<br />
Lohrer, A.M., Rodil, I.F., Townsend, M., Chiaroni, L.D., Hewitt, J.E., Thrush, S.F. (In press) Biogenic habitat transitions influence<br />
facilitation in a marine soft-sediment ecosystem. Ecology.<br />
Lohrer, A.M., Townsend, M., Rodil, I.F., Hewitt, J.E., Thrush, S.F. (In press) Detecting shifts in ecosystem functioning: the decoupling of<br />
fundamental relationships with increased pollutant stress on s<strong>and</strong>flats. Marine Pollution Bulletin.<br />
Lorrey, A. et al. (in press). Natural drivers of environmental change in New Zeal<strong>and</strong>’s marine environment during the last millennium. Final<br />
Research Report: ZBD200505 MS 6 Part A,<br />
Lörz, A.N. (2011a). Pacific Epimeriidae (Amphipoda: Crustacea): Epimeria. Journal of the Marine Biological Association of the United<br />
Kingdom 91(2): 471-477.<br />
Lörz, A.-N. (2011b). <strong>Biodiversity</strong> of an unknown New Zeal<strong>and</strong> habitat: bathyal invertebrate assemblages in the benthic boundary layer.<br />
Marine <strong>Biodiversity</strong> 41(2): 299-312.<br />
Lörz AN, Smith PJ, Linse K, Steinke D. (in press.) High genetic diversity within Epimeria georgiana (Amphipoda) from the southern Scotia<br />
Arc. Marine <strong>Biodiversity</strong> (PDF)<br />
Lörz A-N & Coleman O (2009), Living jems: jewel-like creatures from the deep. Water <strong>and</strong> Atmosphere 17(1) 16-17 2009<br />
Lörz A-N (2009): Synopsis of Amphipoda from two recent Ross Sea voyages with description of a new species of Epimeria (Epimeriidae,<br />
Amphipoda, Crustacea). Zootaxa (2167): 59-68<br />
Lörz A-N, Maas E, Linse K, <strong>and</strong> Coleman C.O. (2009)., Do circum-Antarctic species exist in peracarid Amphipoda? A case study in the<br />
genus Epimeria Costa, 1851 (Crustacea: Peracarida: Epimeriidae). Zookeys (18): 91-128 SI<br />
Lörz, A.N.; Berkenbusch, K.; Nodder, S.; Ahyong, S.; Bowden, D.; McMillan, P.; Gordon, D.; Mills, S.; Mackay, K.;. (<strong>2012</strong>a). A review of<br />
deep-sea benthic biodiversity associated with trench, canyon <strong>and</strong> abyssal habitats below 1500 m depth in New Zeal<strong>and</strong> waters.<br />
New Zeal<strong>and</strong> aquatic environment <strong>and</strong> biodiversity report ; Ministry of Fisheries, Wellington. 133 p.<br />
Lörz, A.N.; Linse, K.; Smith, P.; Steinke, D. (<strong>2012</strong>b). First evidence for underestimated biodiversity of Rhachotropis (Crustacea,<br />
Amphipoda) with description of a new species. PloS ONE 7(3): e32365.<br />
Lörz, AN (2010) Deep-sea Rhachotropis (Crustacea: Amphipoda: Eusiridae) from New Zeal<strong>and</strong> <strong>and</strong> the Ross Sea with key to the Pacific,<br />
Indian Ocean <strong>and</strong> Antarctic species. ZOOTAXA, (2482): 22-48<br />
Lundquist, CJ. Thrush, SF. Coco, G. Hewitt, JE (2010). Interactions between distributions <strong>and</strong> dispersal decrease persistence thresholds of a<br />
marine benthic community. Mar. Ecol. Prog. Ser. 413: 217-228.<br />
Maas, E. M.; Voyles, K.M.; Pickmere, S.; Hall, J.A.; Bowden, D.A.; Clark, M.R. (2010). Bacterial <strong>and</strong> Archaeal diversity <strong>and</strong> exo-enzyme<br />
activity in Ross Sea, Antarctica sediments. Poster presented at SAME 11- Symposium on <strong>Aquatic</strong> Microbial Ecology, Piran,<br />
Slovenia, 30th August - 4th September 2010.<br />
Maas, E.W.; Law, C.S.; Hall, J.A.; Pickmere, S.; Currie, K.I.; Chang, F.H.; Voyles, K.M.; Caird, D. (<strong>2012</strong>). Effect of ocean acidification on<br />
bacterial abundance, activity <strong>and</strong> diversity in the Ross Sea <strong>Aquatic</strong> Microbial Ecology (in review).<br />
Maas, E.W.; Voyles, K.M.; Caird, D.; Pickmere, S.; Hall, J.A. (<strong>2012</strong>). Bacterioplankton abundance, activity <strong>and</strong> diversity in the Ross Sea<br />
Antarctica. <strong>Aquatic</strong> Microbial Ecology (in review).<br />
MacDiarmid A, editor. (2007). A summary of the biodiversity in the New Zeal<strong>and</strong> Marine Ecoregion. Wellington: WWF-New Zeal<strong>and</strong>;.<br />
The treasures of the sea: Ngā taonga a Tangaroa.<br />
MacDiarmid, A. Stewart, R (<strong>2012</strong>). Ross Sea <strong>and</strong> Balleny Isl<strong>and</strong>s biodiversity: routine observations <strong>and</strong> opportunistic sampling of biota<br />
made during a geophysical survey to the Ross Sea in 2006. . <strong>Aquatic</strong> <strong>Environment</strong> <strong>and</strong> <strong>Biodiversity</strong> Report No. XX, 99 p.<br />
MacDiarmid, A.; McKenzie, A.; Sturman, J.; Beaumont, J.; Mikaloff-Fletcher, S.; Dunne, J. (<strong>2012</strong>). Assessment of anthropogenic threats to<br />
New Zeal<strong>and</strong> marine habitats New Zeal<strong>and</strong> <strong>Aquatic</strong> <strong>Environment</strong> <strong>and</strong> <strong>Biodiversity</strong> Report No. 93.255 p.<br />
MacDiarmid, A.B.; Cleaver, P; Stirling, B. (in press). Historical evidence for exploitation of the marine environment in the Hauraki Gulf<br />
<strong>and</strong> along the Otago/Catlins shelf 1790- 1930 <strong>Aquatic</strong> <strong>Environment</strong> <strong>and</strong> <strong>Biodiversity</strong> Report No XX.,<br />
MacDiarmid, AB Smith I, Paul L, Francis M, McKenzie A, Parsons D, Hartill B, Stirling B, Cleaver et al (in press) A complete history of<br />
the exploitation of an ecologically important inshore finfish species in the Hauraki Gulf, New Zeal<strong>and</strong>: a synthesis of<br />
archaeological, historical <strong>and</strong> fisheries data. <strong>Aquatic</strong> <strong>Environment</strong> <strong>and</strong> <strong>Biodiversity</strong> Report XX, 25 p.<br />
McKenzie, A; MacDiarmid, AB (in press). Biological parameters <strong>and</strong> biomass estimates for some commercial fish stocks in the Hauraki<br />
Gulf <strong>and</strong> Otago-Catlins shelf for the period 1930-2006. <strong>Aquatic</strong> <strong>Environment</strong> <strong>and</strong> <strong>Biodiversity</strong> Report XX, 97 p.<br />
McMillan, P.J.; Francis, M.P.; G.D., J.; Paul, L.J.; Marriott, P.J.; Mackay, E.; Wood, B.A.; Griggs, L.H.; Sui, H.; Wei, F. (2011a). New<br />
Zeal<strong>and</strong> fishes. Volume 1: A field guide to common species caught by bottom <strong>and</strong> midwater fishing. New Zeal<strong>and</strong> <strong>Aquatic</strong><br />
<strong>Environment</strong> <strong>and</strong> <strong>Biodiversity</strong> Report 68.<br />
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