Articles citing this paper
Distribution and condition of pueruli of the spiny lobster Jasus edwardsii offshore from north-east New Zealand
Andrew G. Jeffs, Stephen M. Chiswell and John D. Booth
52(8) pp.1211 - 1216
41 articles found in Crossref database.
Lipid, fatty acid and protein content of late larval to early juvenile stages of the western rock lobster, Panulirus cygnus
Limbourn Andrew J., Nichols Peter D.
Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology. 2009 152(3). p.292
Fatty acid profiles of phyllosoma larvae of western rock lobster (Panulirus cygnus) in cyclonic and anticyclonic eddies of the Leeuwin Current off Western Australia
Wang M.,
O’Rorke R.,
Waite A.M.,
Beckley L.E.,
Thompson P., Jeffs A.G.
Progress in Oceanography. 2014 122 p.153
Lobsters: Biology, Management, Aquaculture and Fisheries (2006)
Early life history, recruitment processes and settlement of spiny lobsters
BOOTH JOHN D.
Fisheries science. 2002 68(sup1). p.384
Nutritional composition of potential zooplankton prey of spiny lobster larvae: a review
Wang Miao, Jeffs Andrew G.
Reviews in Aquaculture. 2014 6(4). p.270
Inducers of settlement and moulting in post-larval spiny lobster
Stanley Jenni A.,
Hesse Jan,
Hinojosa Iván A., Jeffs Andrew G.
Oecologia. 2015 178(3). p.685
The Achilles heel for spiny lobsters: the energetics of the non‐feeding post‐larval stage
Fitzgibbon Quinn P,
Jeffs Andrew G, Battaglene Stephen C
Fish and Fisheries. 2014 15(2). p.312
Identifying potential prey of the pelagic larvae of the spiny lobster Jasus edwardsii using signature lipids
Jeffs Andrew G,
Nichols Peter D,
Mooney Ben D,
Phillips Katrina L, Phleger Charles F
Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology. 2004 137(4). p.487
Determining the diet of larvae of the red rock lobster (Jasus edwardsii) using high-throughput DNA sequencing techniques
O’Rorke R.,
Lavery S. D.,
Wang M.,
Nodder S. D., Jeffs A. G.
Marine Biology. 2014 161(3). p.551
Resistance to starvation in settling spiny lobsters in warming coastal waters
Garcia-Echauri LL,
Liggins G, Jeffs A
Marine Ecology Progress Series. 2019 623 p.39
Analysis of fatty acids to examine larval and settlement biology of the Caribbean spiny lobster Panulirus argus
Briones-Fourzán P,
Espinosa-Magaña AF,
Lozano-Álvarez E, Jeffs A
Marine Ecology Progress Series. 2019 630 p.137
Reef Sound as an Orientation Cue for Shoreward Migration by Pueruli of the Rock Lobster, Jasus edwardsii
Hinojosa Ivan A.,
Green Bridget S.,
Gardner Caleb,
Hesse Jan,
Stanley Jenni A.,
Jeffs Andrew G., Thuesen Erik V.
PLOS ONE. 2016 11(6). p.e0157862
Rock lobster biology and ecology: contributions to understanding through the Leigh Marine Laboratory 1962–2012
MacDiarmid AB,
Freeman D, Kelly S
New Zealand Journal of Marine and Freshwater Research. 2013 47(3). p.313
Resistance to starvation of first-stage juveniles of the Caribbean spiny lobster
Espinosa-Magaña Alí,
Lozano-Álvarez Enrique, Briones-Fourzán Patricia
PeerJ. 2017 5 p.e2852
The Effect of Diet on the Biochemical Composition of Juvenile Artemia: Potential Formulations for Rock Lobster Aquaculture
Nelson Matthew M.,
Mooney Ben D.,
Nichols Peter D.,
Phleger Charles E,
Smith Greg G.,
Hart Piers, Ritar Arthur J.
Journal of the World Aquaculture Society. 2002 33(2). p.146
Post-settlement energy reserves in Panulirus cygnus: experimental effects of starvation on survival and nutritional condition
Limbourn A. J.,
Babcock R. C.,
Johnston D. J.,
Nichols P. D., Knott B.
Marine Biology. 2008 153(3). p.445
How do spiny lobster post‐larvae find the coast?
Jeffs Andrew G.,
Montgomery John C., Tindle Chris T.
New Zealand Journal of Marine and Freshwater Research. 2005 39(3). p.605
Distribution of mid‐ and late‐stageJasus edwardsiiphyllosomas: Implications for larval recruitment processes
Chiswell Stephen M., Booth John D.
New Zealand Journal of Marine and Freshwater Research. 2005 39(5). p.1157
Extracting DNA from whole organism homogenates and the risk of false positives in PCR based diet studies: A case study using spiny lobster larvae
O'Rorke R.,
Jeffs A.G.,
Fitzgibbon Q.,
Chow S., Lavery S.
Journal of Experimental Marine Biology and Ecology. 2013 441 p.1
Assessment of the lobster puerulus (Panulirus homarus and Panulirus ornatus, Decapoda: Palinuridae) resource of Indonesia and its potential for sustainable harvest for aquaculture
Priyambodo Bayu,
Jones Clive M., Sammut Jesmond
Aquaculture. 2020 528 p.735563
Cardiorespiratory ontogeny and response to environmental hypoxia of larval spiny lobster, Sagmariasus verreauxi
Fitzgibbon Quinn P.,
Ruff Nicole, Battaglene Stephen C.
Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology. 2015 184 p.76
Differing environmental drivers of settlement across the range of southern rock lobster (Jasus edwardsii) suggest resilience of the fishery to climate change
Hinojosa Ivan A.,
Gardner Caleb,
Green Bridget S.,
Jeffs Andrew,
Leon Rafael, Linnane Adrian
Fisheries Oceanography. 2017 26(1). p.49
Energetics of swimming to shore in the puerulus stage of a spiny lobster: Can a postlarval lobster afford the cost of crossing the continental shelf?
Wilkin John L., Jeffs Andrew G.
Limnology and Oceanography: Fluids and Environments. 2011 1(1). p.163
Lipid and fatty acid composition of likely zooplankton prey of spiny lobster (Jasus edwardsii) phyllosomas
Wang M.,
MacKenzie A.D., Jeffs A.G.
Aquaculture Nutrition. 2015 21(4). p.385
Vertical distribution and diurnal migration patterns ofJasus edwardsiiphyllosomas off the east coast of the North Island, New Zealand
Bradford Russell W.,
Bruce Barry D.,
Chiswell Stephen M.,
Booth John D.,
Jeffs Andrew, Wotherspoon Simon
New Zealand Journal of Marine and Freshwater Research. 2005 39(3). p.593
Metamorphosis of spiny lobsters (Panulirus argus and Panulirus guttatus) in the Yucatan Current as inferred from the distribution of pueruli and final stage phyllosomata
Briones‐Fourzán Patricia,
Candela Julio,
Carrillo Laura,
Espinosa‐Magaña Alí F.,
Negrete‐Soto Fernando,
Barradas‐Ortiz Cecilia,
Escalante‐Mancera Edgar,
Muñoz de Cote‐Hernández Rubén,
Martínez‐Calderón Rogelio, Lozano‐Álvarez Enrique
Limnology and Oceanography. 2021 66(9). p.3421
Advances in Marine Biology Volume 51 (2006)
Temporal variation in the specific dynamic action of juvenile New Zealand rock lobsters, Jasus edwardsii
Radford Craig A.,
Marsden Islay D., Davison William
Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology. 2004 139(1). p.1
Settlement patterns, size and growth of puerulus and juvenile rock lobsterJasus lalandiiat an oyster farm in Saldanha Bay, South Africa
Groeneveld J C,
Greengrass C L,
van Zyl D L, Branch G M
African Journal of Marine Science. 2010 32(3). p.501
Disentangling genetic from environmental effects on phenotypic variability of southern rock lobster (Jasus edwardsii) postlarvae
Villacorta‐Rath Cecilia,
Green Bridget S.,
Gardner Caleb,
Murphy Nick P.,
Souza Carla A., Strugnell Jan M.
Ecology and Evolution. 2022 12(11).
Condition of larvae of western rock lobster (Panulirus cygnus) in cyclonic and anticyclonic eddies of the Leeuwin Current off Western Australia
Wang Miao,
O'Rorke Richard,
Waite Anya M.,
Beckley Lynnath E.,
Thompson Peter, Jeffs Andrew G.
Marine and Freshwater Research. 2015 66(12). p.1158
Spiny lobster development: where does successful metamorphosis to the puerulus occur?: a review
Phillips Bruce Frank, McWilliam Paulette S.
Reviews in Fish Biology and Fisheries. 2009 19(2). p.193
Future ocean temperature impacting the survival prospects of post-larval spiny lobsters
García-Echauri Luvia Lorei,
Liggins Geoffrey,
Cetina-Heredia Paulina,
Roughan Moninya,
Coleman Melinda A., Jeffs Andrew
Marine Environmental Research. 2020 156 p.104918
Roles of vertical behavior in the open-ocean migration of teleplanic larvae: a modeling approach to the larval transport of Japanese spiny lobster
Miyake Y,
Kimura S,
Itoh S,
Chow S,
Murakami K,
Katayama S,
Takeshige A, Nakata H
Marine Ecology Progress Series. 2015 539 p.93
Lobsters: Biology, Management, Aquaculture and Fisheries (2006)
Mean and variability in the Wairarapa and Hikurangi Eddies, New Zealand
Chiswell Stephen M.
New Zealand Journal of Marine and Freshwater Research. 2005 39(1). p.121
Nutritional composition of potential zooplankton prey of the spiny lobster phyllosoma (Jasus edwardsii)
Wang Miao,
O'Rorke Richard,
Nodder Scott D., Jeffs Andrew G.
Marine and Freshwater Research. 2014 65(4). p.337
Changes in lipid and fatty acid composition of late larval and puerulus stages of the spiny lobster (Panulirus cygnus) across the continental shelf of Western Australia
Phillips Bruce F.,
Jeffs Andrew G.,
Melville-Smith Roy,
Chubb Chris F.,
Nelson Matthew M., Nichols Peter D.
Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology. 2006 143(2). p.219
Spiny lobster development: mechanisms inducing metamorphosis to the puerulus: a review
McWilliam Paulette S., Phillips Bruce F.
Reviews in Fish Biology and Fisheries. 2007 17(4). p.615
DNA identification of the phyllosoma diet ofJasus edwardsiiandScyllarussp. Z
Connell SC,
O'Rorke R,
Jeffs AG, Lavery SD
New Zealand Journal of Marine and Freshwater Research. 2014 48(3). p.416
Evolution of long larval life in the Australasian rock lobster Jasus edwardsii
Chiswell SM, Booth JD
Marine Ecology Progress Series. 2017 576 p.69
