Nutritional geometry and macronutrient variation in the diets of gannets: the challenges in marine field studies (original) (raw)

• Adams N, Abrams R, Siegrfried W, Nagy K, Kaplan I (1991) Energy expenditure and food consumption by breeding Cape gannets Morus capensis. Mar Ecol Prog Ser 70:1–9
  Article Google Scholar
• Annett CA, Pierotti R (1999) Long-term reproductive output in western gulls: consequences of alternate tactics in diet choice. Ecology 80:288–297
  Article Google Scholar
• AOAC (2005) Official methods of analysis of AOAC International, 18th edn. AOAC International, Arlington
  Google Scholar
• Bunce A (2001) Prey consumption of Australasian gannets (Morus serrator) breeding in Port Phillip Bay, southeast Australia, and potential overlap with commercial fisheries. ICES J Mar Sci 58:904–915
  Article Google Scholar
• Chambers PG, Simpson SJ, Raubenheimer D (1995) Behavioural mechanisms of nutrient balancing in Locusta migratoria nymphs. Anim Behav 50:1513–1523
  Article Google Scholar
• Cherel Y, Hobson KA, Weimerskirch H (2000) Using stable-isotope analysis of feathers to distinguish moulting and breeding origins of seabirds. Oecologia 122:155–162
  Article Google Scholar
• Cherel Y, Hobson KA, Bailleul F, Groscolas R (2005) Nutrition, physiology, and stable isotopes: new information from fasting and molting penguins. Ecology 86:2881–2888
  Article Google Scholar
• Davies DH (1956) The South African pilchard (Sardinops ocellata) and maasbanker (Trachurus trachurus) bird predators, 1954–1955. South African Department of Commerce and Industry, Division of Fisheries Investigational Report 23
• Duffy DC, Jackson S (1986) Diet studies of seabirds: a review of methods. Colon Waterbird 9:1–17
  Article Google Scholar
• Ellis HI (1984) Energetics of free-ranging seabirds. In: Whittow GC, Rahn H (eds) Seabird energetics. Springer, New York, pp 203–234
• Evans P, Halliwell B (2001) Micronutrients: oxidant/antioxidant status. Br J Nutr 85:S67–S74
  Article CAS Google Scholar
• Fryxell JM, Lundberg P (1997) Individual behavior and community dynamics. Chapman and Hall, New York
  Book Google Scholar
• Furness RW (1978) Energy requirements of seabird communities: a bioenergetics model. J Anim Ecol 47:39–53
• Galef BG (1996) Food selection: problems in understanding how we choose foods to eat. Neurosci Biobehav Rev 20:67–73
  Article Google Scholar
• Garthe S, Montevecchi WA, Davoren GK (2011) Inter-annual changes in prey fields trigger different foraging tactics in a large marine predator. Limnol Oceanogr 56:802–812
  Article Google Scholar
• Grémillet D, Pichegru L, Kuntz G, Woakes AG, Wilkinson S, Crawford RJM, Ryan PG (2008) A junk-food hypothesis for gannets feeding on fishery waste. Proc R Soc Lond Biol 275:1149–1156
  Article Google Scholar
• Hamer KC, Phillips RA, Wanless S, Harris MP, Wood AG (2000) Foraging ranges, diets and feeding locations of gannets (Morus bassanus) in the North Sea: evidence from satellite telemetry. Mar Ecol Prog Ser 200:257–264
  Article Google Scholar
• Hamer KC, Humphreys EM, Wanless S, Garthe S, Hennicke J, Peters G, Phillips RA, Harris MP (2007) Annual variation in diets, feeding locations and foraging behaviour of gannets in the North Sea: flexibility, consistency and constraint. Mar Ecol Prog Ser 338:295–305
  Article Google Scholar
• Hawkins JM (1988) The Farewell Spit gannetry—a new sea level colony. Notornis 35:249–260
  Google Scholar
• Hegseth MN, Camus L, Helgason LB, Bocchetti R, Gabrielsen GW, Regoli F (2011) Hepatic antioxidant responses related to levels of PCBs and metals in chicks of three Arctic seabird species. Comp Biochem Physiol C Toxicol Pharmacol 154:28–35
  Article Google Scholar
• Jarvis MJF (1970) Interactions between man and the South African Gannet Sula capensis. Ostrich 40(Suppl. 8):497–513
  Google Scholar
• Lea MA, Cherel Y, Guinet C, Nichols PD (2002) Antarctic fur seals foraging in the polar frontal zone: inter-annual shifts in diet as shown from fecal and fatty acid analyses. Mar Ecol Prog Ser 245:281–297
  Article Google Scholar
• Lenky C, Eisert R, Oftedal OT, Metcalf V (2012) Proximate composition and energy density of nototheniid and myctophid fish in McMurdo Sound and the Ross Sea, Antarctica. Polar Biol 35:717–724
  Article Google Scholar
• Lucas A, Morales J, Velando A (2014) Differential effects of specific carotenoids on oxidative damage and immune response of gull chicks. J Exp Biol 217:1253–1262
  Article CAS Google Scholar
• Machovsky-Capuska GE, Vaughn RL, Würsig B, Katzir G, Raubenheimer D (2011a) Dive strategies and foraging effort in the Australasian gannet Morus serrator revealed by underwater videography. Mar Ecol Prog Ser 442:255–261
  Article Google Scholar
• Machovsky-Capuska GE, Dwyer SL, Alley MR, Stockin KA, Raubenheimer D (2011b) Evidence for fatal collisions and kleptoparasitism while plunge diving in gannets. Ibis 153:631–635
  Article Google Scholar
• Machovsky-Capuska GE, Howland HC, Vaughn RL, Würsig B, Raubenheimer D, Hauber ME, Katzir G (2012) Visual accommodation and active pursuit of prey underwater in a plunge diving bird: the Australasian gannet. Proc R Soc B 279:4118–4125
  Article Google Scholar
• Machovsky-Capuska GE, Hauber ME, Libby E, Amiot C, Raubenheimer D (2013) The contribution of private and public information in foraging by Australasian gannets. Anim Cogn 17:849–858
  Article Google Scholar
• Machovsky-Capuska GE, Hauber ME, Dassis M, Libby E, Wikelski MC, Schuckard R, Melville D, Cook W, Houston M, Raubenheimer D (2014) Foraging behaviour and habitat use of chick-rearing Australasian Gannets in New Zealand. J Ornithol 155:379–387
  Article Google Scholar
• Manighetti B, Carter L (1999) Across-shelf sediment dispersal, Hauraki Gulf, New Zealand. Mar Geol 160:271–300
  Article Google Scholar
• Mayntz D, Raubenheimer D, Salomon M, Toft S, Simpson SJ (2005) Nutrient-specific foraging in invertebrate predators. Science 307:111–113
  Article CAS Google Scholar
• Mayntz D, Nielsen VH, Sørensen A, Toft S, Raubenheimer D, Hejlesen C, Simpson SJ (2009) Balancing of protein and lipid intake by a mammalian carnivore, the mink Mustela vison. Anim Behav 77:349–355
  Article Google Scholar
• Meynier L, Stockin KA, Bando MKH, Duignan PJ (2008) Stomach contents of common dolphin (Delphinus sp.) from New Zealand waters. NZ J Mar Freshw 42:257–268
  Article Google Scholar
• Montevecchi WA, Ricklefs RE, Kirkham IR, Gabaldon D (1984) Growth energetics of nestling northern gannets (Sula bassanus). Auk 101:334–341
  Google Scholar
• Nelson JB (2005) Pelicans, cormorants and their relatives. Oxford University Press, Oxford
  Google Scholar
• Nie Y, Zhang Z, Raubenheimer D, Elser JJ, Wei W, Wei F (2014) Obligate herbivory in an ancestrally carnivorous lineage: the giant panda and bamboo from the perspective of nutritional geometry. Funct Ecol. doi:10.1111/1365-2435.12302
  Google Scholar
• Paddack MJ, Cowen RK, Sponaugle S (2006) Grazing pressure of herbivorous coral reef fishes on low coral-cover reefs. Coral Reefs 25:461–472
  Article Google Scholar
• Paulin C, Stewart A, Roberts C, McMillan P (1989) New Zealand Fish: a complete guide. In: National museum of New Zealand miscellaneous series no. 19
• Petry MV, Fonseca VSD, Scherer AL (2007) Analysis of stomach contents from the black-browed albatross, Thalassarche melanophris, on the coast of Rio grande do sul, southern Brazil. Polar Biol 30:321–325
  Article Google Scholar
• Pichegru L, Ryan P, van der Lingen C, Coetzee J, Ropert-Coudert Y, Grémillet D (2007) Foraging behaviour and energetics of Cape gannets Morus capensis feeding on live prey and fishery discards in the Benguela upwelling system. Mar Ecol Prog Ser 350:127–136
  Article Google Scholar
• Polis GA, Holt RD (1992) Intraguild predation—the dynamics of complex trophic interactions. Trends Ecol Evol 7:151–154
  Article CAS Google Scholar
• Polis GA, Myers CA, Holt RD (1989) The ecology and evolution of intraguild predation: potential competitors that eat each other. Annu Rev Ecol Syst 20:297–330
  Article Google Scholar
• Raubenheimer D (2011) Toward a quantitative nutritional ecology: the right-angled mixture triangle. Ecol Monogr 81:407–427
  Article Google Scholar
• Raubenheimer D, Jones SA (1996) Nutritional imbalance in an extreme generalist omnivore: tolerance and recovery through complementary food selection. Anim Behav 71:1253–1262
  Article Google Scholar
• Raubenheimer D, Simpson SJ (2006) The challenge of supplementary feeding: can geometric analysis help save the kakapo? Notornis 53:100–111
  Google Scholar
• Raubenheimer D, Mayntz D, Simpson SJ, Toft S (2007) Nutrient-specific compensation following diapause in a predator: implications for intraguild predation. Ecology 88:2598–2608
  Article Google Scholar
• Raubenheimer D, Machovsky-Capuska GE, Gosby AK, Simpson S (2014) The nutritional ecology of obesity: from humans to companion animals. Br J Nutr. doi:10.1017/S0007114514002323
• Richoux NB, Jaquemet S, Bonnevie BT, Cherel Y, McQuaid CD (2010) Trophic ecology of grey-headed albatrosses from Marion Island, Southern Ocean: insights from stomach contents and diet tracers. Mar Biol 157:1755–1766
  Article Google Scholar
• Robertson D (1992) Diet of the Australasian gannet Morus serrator (G.R. Gray) around New Zealand. N Z J Ecol 16:77–81
  Google Scholar
• Ropert-Coudert Y, Grémillet D, Kato A, Ryan P, Naito Y, Le Maho Y (2004) A fine-scale time budget of Cape gannets provides insights into the foraging strategies of coastal seabirds. Anim Behav 67:985–992
  Article Google Scholar
• Rothman JM, Raubenheimer D, Chapman CA (2011) Nutritional geometry: gorillas prioritize non-protein energy while consuming surplus protein. Biol Lett 7:847–849
  Article CAS Google Scholar
• Rubio V, Sanchez F, Zamora S, Madrid J (2008) Endogenous modification of macronutrient selection pattern in sea bass (Dicentrarchus labrax). Physiol Behav 95:32–35
  Article CAS Google Scholar
• Rubio VC, Navarro DB, Madrid JA, Sanchez-Vazquez FJ (2009) Macronutrient self-selection in Solea senegalensis fed macronutrient diets and challenged with dietary protein dilutions. Aquaculture 291:95–100
  Article CAS Google Scholar
• Schuckard R, Melville DS, Cook W, Machovsky-Capuska GE (2012) Diet of the Australasian gannet (Morus serrator) at Farewell Spit, New Zealand. Notornis 59:66–70
  Google Scholar
• Simpson SJ, Raubenheimer D (2012) The nature of nutrition: an integrative framework from animal adaptation to human obesity. Princeton University Press, Princeton
  Google Scholar
• Stephens DW, Krebs JR (1986) Foraging theory. Princeton University Press, Princeton
  Google Scholar
• Votier SC, Bearhop S, MacCormick A, Ratcliffe N, Furness RW (2003) Assessing the diet of great skuas, Catharacta skua, using five different techniques. Polar Biol 26:20–26
  Google Scholar
• Votier SC, Bearhop S, Witt MJ, Inger R, Thompson D, Newton J (2010) Individual responses of seabirds to commercial fisheries revealed using GPS tracking, stable isotopes and vessel monitoring systems. J Appl Ecol 47:487–497
  Article Google Scholar
• Wanless S, Harris MP, Redman P, Speakman JR (2005) Low energy values of fish as a probable cause of a major seabird breeding failure in the North Sea. Mar Ecol Prog Ser 294:1–8
  Article Google Scholar
• Westoby M (1974) An analysis of diet selection by large generalist herbivores. Am Nat 108:290–304
  Article Google Scholar
• Westoby M (1978) What are biological bases of varied diets? Am Nat 112:627–631
  Article Google Scholar
• Wilder SM, Eubanks MD (2010) Might nitrogen limitation promote omnivory among carnivorous arthropods? Comment. Ecology 91:3114–3117
  Article Google Scholar
• Wingham EJ (1985) Food and feeding range of the Australasian gannet Morus serrator (gray). Emu 85:231–239
  Article Google Scholar
• Wingham E (1989) Energy requirements of Australasian gannets Morus serrator (Gray) at a breeding colony. Emu 89:65–70
  Article Google Scholar
• Work TM (2000) Avian necropsy manual for biologists in remote refuges. US Geological Survey, National Wildlife Health Centre, Hawaii Field Station, Honolulu
  Google Scholar