Ectoparasite infestation and host–parasite trophic relationship for Champsocephalus gunnari (Lonnberg, 1905) at South Orkney Islands, Antarctica

Behrmann-Godel J, Yohannes E (2015) Multiple isotope analyses of the pike tapeworm Triaenophorus nodulosus reveal peculiarities in consumer-diet discrimination patterns. J Helminthol 89:238–243

Bielecki A, Rokicka M, Ropelewska E, Dziekonska-Rynko J (2008) Leeches [Hirudinida: Piscicolidae]-parasites of Antarctic fish from Channichthyidae family. Wiad Parazytol 54:345–348

Brinkmann A (1948) Some new and remarkable leeches from the Antarctic seas. Sci Results Norw Antarctic Exped 1927-1928, I Kommisjon Hos Jacob Kybwad Oslo 29:1-20

Campbell LM, Hecky RE, Wandera SB (2003) Stable isotope analyses of food web structure and fish diet in Napoleon and Winam Gulfs, Lake Victoria. East Africa J Great Lakes Res 29:243–257

Caut S, Angulo E, Courchamp F (2009) Variation in discrimination factors (Δ15N and Δ13C): the effect of diet isotopic values and applications for diet reconstruction. J Appl Ecol 46:443–453

Deudero S, Pinnegar JK, Polunin NV (2002) Insights into fish host-parasite trophic relationships revealed by stable isotope analysis. Dis Aquat Organ 52:77–86

Dobson A, Lafferty KD, Kuris AM, Hechinger RF, Jetz W (2008) Homage to Linnaeus: how many parasites? How many hosts? P Natl Acad Sci USA 105:11482–11489

Doucett RR, Giberson DJ, Power G (1999) Parasitic association of Nanocladius (Diptera: Chironomidae) and Pteronarcys biloba (Plecoptera: Pteronarcyidae): insights from stable-isotope analysis. J N Am Benthol Soc 18:514–523

Dunne JA, Lafferty KD, Dobson AP, Hechinger RF, Kuris AM, Martinez ND, McLaughlin JP, Mouritsen KN, Poulin R, Reise K (2013) Parasites affect food web structure primarily through increased diversity and complexity. PLOS Biol 11:e1001579

Hebert CE, Shutt JL, Hobson KA, Weseloh DC (1999) Spatial and temporal differences in the diet of Great Lakes herring gulls (Larus argentatus): evidence from stable isotope analysis. Can J Fish Aquat Sci 56:323–338

Hecky R, Hesslein R (1995) Contributions of benthic algae to lake food webs as revealed by stable isotope analysis. J N Am Benthol Soc 14:631–653

Huxham M, Raffaelli D, Pike A (1995) Parasites and food web patterns. J Anim Ecol 168–176

Jackson AL, Inger R, Parnell AC, Bearhop S (2011) Comparing isotopic niche widths among and within communities: SIBER-stable isotope Bayesian ellipses in R. J Anim Ecol 80:595–602

Jakubowski M (1971) Bia3okrwisto æ i inne osobliwo ci ichtiofauny Antarktyki [White-blooded-ness and other peculiarities of the Antarctic ichthyofauna]. Przegl Zool 15:262–272

Janusz J, Sosinski J (1999) Eubrachiella antractica [Quidor, 1906] [Copepoda]-levels of infection in selected fish species of the family Nototheniidae. Acta Ichthyol Piscat 29:43–52

Johnson PT, Dobson A, Lafferty KD, Marcogliese DJ, Memmott J, Orlofske SA, Poulin R, Thieltges DW (2010) When parasites become prey: ecological and epidemiological significance of eating parasites. Trends Ecol Evol 25:362–371

Jones C, Damerau M, Deitrich K, Driscoll R, Kock K-H, Kuhn K, Moore J, Morgan T, Near T, Pennington J (2009) Demersal finfish survey of the South Orkney Islands. NOAA Tech Memo NMFS SWFSC 445:49–66

Kagami M, Miki T, Takimoto G (2014) Mycoloop: chytrids in aquatic food webs. Front Microbiol 5:166

Kanaya G, Solovyev MM, Shikano S, Okano J-I, Ponomareva NM, Yurlova NI (2019) Application of stable isotopic analyses for fish host-parasite systems: an evaluation tool for parasite-mediated material flow in aquatic ecosystems. Aquat Ecol 53:217–232

Kassambara A (2023) ggpubr: ‘ggplot2’ Based Publication Ready Plots. R package version 0.6.0, https://rpkgs.datanovia.com/ggpubr/

Kennicutt MC, Chown SL, Cassano JJ, Liggett D, Peck LS, Massom R, Rintoul S, Storey J, Vaughan D, Wilson T (2015) A roadmap for Antarctic and Southern Ocean science for the next two decades and beyond. Antarct Sci 27:3–18

Kock K-H, Everson I (1997) Biology and ecology of mackerel icefish, Champsocephalus gunnari: an Antarctic fish lacking hemoglobin. Comp Biochem Physiol A Physiol 118:1067–1077

Kock K-H, Kellermann A (1991) Reproduction in Antarctic notothenioid fish. Antarct Sci 3:125–150

Kock K, Wilhelms S, Everson I, Groger J (1994) Variations in the diet composition and feeding intensity of mackerel icefish Champsocephalus gunnari at South Georgia (Antarctic). Mar Ecol Prog Ser 108:43–58

Kovaleva AA, Rodiuk GN, Grudnev MA (2002) Myxosporeans (Cnidospora: Myxosporea) of Antarctic fishes. Parazitologiia 36:502–513

Kuhn T, Zizka VMA, Muenster J, Klapper R, Mattiucci S, Kochmann J, Klimpel S (2018) Lighten up the dark: metazoan parasites as indicators for the ecology of Antarctic crocodile icefish (Channichthyidae) from the north-west Antarctic Peninsula. PeerJ 6:e4638

Kvach Y, Ondračková M, Bryjová A, Jurajda P (2017) Parasites as biological tags of divergence in central European gudgeon populations (Actinopterygii: Cyprinidae: Gobioninae). Biologia 72:671–679

Lea M-A, Nichols PD, Wilson G (2002) Fatty acid composition of lipid-rich myctophids and mackerel icefish (Champsocephalus gunnari)-Southern Ocean food-web implications. Polar Biol 25:843–854

Lönnberg E (1905) The fishes of the Swedish South Polar expedition. Lithographisches Institut des Generalstabs, Stockholm

MacKenzie K, Campbell N, Mattiucci S, Ramos P, Pinto A, Abaunza P (2008) Parasites as biological tags for stock identification of Atlantic horse mackerel Trachurus trachurus L. Fish Res 89:136–145

MacNeil MA, Skomal GB, Fisk AT (2005) Stable isotopes from multiple tissues reveal diet switching in sharks. Mar Ecol Prog Ser 302:199–206

Marcogliese DJ (2003) Food webs and biodiversity: are parasites the missing link. J Parasitol 89:106–113

Marcogliese DJ (2004) Parasites: small players with crucial roles in the ecological theater. EcoHealth 1:151–164

Marcogliese DJ (2005) Parasites of the superorganism: are they indicators of ecosystem health? Int J Parasitol 35:705–716

Munoz G, George-Nascimento M (2007) Two new species of Ascarophis (Nematoda: Cystidicolidae) in marine fishes from Chile. J Parasitol 93:1178–1188

Nachev M, Jochmann MA, Walter F, Wolbert JB, Schulte SM, Schmidt TC, Sures B (2017) Understanding trophic interactions in host-parasite associations using stable isotopes of carbon and nitrogen. Parasit Vectors 10:1–9

Navarro J, Albo-Puigserver M, Coll M, Saez R, Forero MG, Kutcha R (2014) Isotopic discrimination of stable isotopes of nitrogen (δ15N) and carbon (δ13C) in a host-specific holocephalan tapeworm. J Helminthol 88:371–375

Parker E, Jones CD, Arana PM, Alegría NA, Sarralde R, Gallardo F, Phillips AJ, Williams BW, Dornburg A (2020) Infestation dynamics between parasitic Antarctic fish leeches (Piscicolidae) and their crocodile icefish hosts (Channichthyidae). Polar Biol 43:665–677

Pasquaud S, Elie P, Jeantet C, Billy I, Martinez P, Girardin M (2008) A preliminary investigation of the fish food web in the Gironde estuary, France, using dietary and stable isotope analyses. Estuar Coast Shelf S 78:267–279

Patil I (2021) Visualizations with statistical details: the ‘ggstatsplot’ approach. J Open Source Softw 6:3167

Persson M, Larsson P, Stenroth P (2007) Fractionation of δ15N and δ13C for Atlantic salmon and its intestinal cestode Eubothrium crassum. J Fish Biol 71:441–452

Pinnegar J (2001) Unusual stable isotope fractionation patterns observed for fish host–parasite trophic relationships. J Fish Biol 59:494–503

Post DM (2002) Using stable isotopes to estimate trophic position: models, methods, and assumptions. Ecology 83:703–718

Power M, Klein GM (2004) Fish host-cestode parasite stable isotope enrichment patterns in marine, estuarine and freshwater fishes from northern Canada. Isotopes Environ Health Stud 40:257–266

Quidor A (1906) Sur les copépodes recueillis par la mission Charcot dans les mers Antarctiques. Bulletin du Musée National d’Histoire Naturelle de Paris 12:27–33

R Core Team (2020) R: a language and environment for statistical computing. R Foundation for Statistical Computing. https://www.R-project.org/

Reid K, Hill SL, Diniz TC, Collins MA (2005) Mackerel icefish Champsocephalus gunnari in the diet of upper trophic level predators at South Georgia: implications for fisheries management. Mar Ecol Prog Ser 305:153–161

Robinson SA, Forbes MR, Hebert CE (2010) Mercury in parasitic nematodes and trematodes and their double-crested cormorant hosts: bioaccumulation in the face of sequestration by nematodes. Sci Total Environ 408:5439–5444

Rokicki J, Zdzitowiecki K (1991) Dynamics of Eubrachiella antarctica (Quidor, 1906) (Copepoda) occurrence in Notothenia rossii marmorata (Fischer, 1885). Acta Ichthyol Piscat 21:45–52

Ruhl HA, Hastings PA, Zarubick LA, Jensen RM, Zdzitowiecki K (2003) Fish populations of port foster, Deception Island, Antarctica and vicinity. Deep Sea Res. II Top Stud Oceanogr 50:1843–1858

Sabadel AJ, MacLeod CD (2022) Stable isotopes unravel the feeding mode-trophic position relationship in trematode parasites. J Anim Ecol 91:484–495

Santoro M, Mattiucci S, Cipriani P, Bellisario B, Romanelli F, Cimmaruta R, Nascetti G (2014) Parasite communities of icefish (Chionodraco hamatus) in the Ross Sea (Antarctica): influence of the host sex on the helminth infracommunity structure. PLoS ONE 9:e88876

Siegel V (1980a) Parasite tags for some Antarctic channichthyid fish. Arch Fischereiwiss 31:97–103

Siegel V (1980b) Quantitative investigations on parasites of Antarctic channichthyid and nototheniid fishes. Meeresforschung 28:146–156

Sosinski J, Janusz J (1986) The occurrence of the parasite Eubrachiella gaini (Quidor, 1913) in Antarctic fishes of the family Chaenichthyidae. Acta Ichthyol Piscat 16:87–105

Sosinski J, Janusz J (2000) Infection variability of the parasitic copepod Eubrachiella antarctica (Quidor, 1906) on fishes in the Atlantic sector of the Antarctic. Bull Sea Fish Inst 2:25–42

Sures B, Reimann N (2003) Analysis of trace metals in the Antarctic host-parasite system Notothenia coriiceps and Aspersentis megarhynchus (Acanthocephala) caught at King George Island. South Shetland Islands Polar Biol 26:680–686

Syväranta J, Lensu A, Marjomäki T, Oksanen S, Jones RI (2013) An empirical evaluation of the utility of convex hull and standard ellipse areas for assessing population niche widths from stable isotope data. PLoS ONE 8:e56094

Thieltges DW, Goedknegt MA, O’Dwyer K, Senior AM, Kamiya T (2019) Parasites and stable isotopes: a comparative analysis of isotopic discrimination in parasitic trophic interactions. Oikos 128:1329–1339

Thompson RM, Mouritsen KN, Poulin R (2005) Importance of parasites and their life cycle characteristics in determining the structure of a large marine food web. J Anim Ecol 74:77–85

Timi JT, Poulin R (2020) Why ignoring parasites in fish ecology is a mistake. Int J Parasitol 50:755–761

Vander Zanden MJ, Cabana G, Rasmussen JB (1997) Comparing trophic position of freshwater fish calculated using stable nitrogen isotope ratios (δ15N) and literature dietary data. Can J Fish Aquat Sci 54:1142–1158

Vander Zanden MJ, Shuter BJ, Lester NP, Rasmussen JB (2000) Within-and among-population variation in the trophic position of a pelagic predator, lake trout (Salvelinus namaycush). Can J Fish Aquat Sci 57:725–731

Wickham H (2016) ggplot2: elegant graphics for data analysis. Springer, New York

Wickham H, Averick M, Bryan J, Chang W, McGowan LDA, François R, Grolemund G, Hayes A, Henry L, Hester J (2019) Welcome to the tidyverse. J Open Source Softw 4:1686

Williams H, MacKenzie K, McCarthy A (1992) Parasites as biological indicators of the population biology, migrations, diet, and phylogenetics of fish. Rev Fish Biol Fisher 2:144–176

Zdzitowiecki K, Pisano E (1996) New records of Digenea infecting elasmobranch and teleost fish off Heard Island (Kerguelen sub-region, sub-Antarctic). J Appl Ichthyol 43:265–272