Abstract
On Isla Isabela, Galápagos Archipelago, three so far unexplored lakes were investigated in the caldera of Cerro Azul, one of the most active volcanoes in the world. The lakes face recurrent desiccation and eruption events and showed distinct differences in their water chemistry. Thirty cores from the upper 15 cm of sediment indicate distinct differences in the composition of meiobenthic communities between the lakes. In total, 27 different aquatic metazoan species could be distinguished. Numerically, rotifers dominated in two of the lakes, with mean densities up to 4.56 × 106 individuals m−2 while the third lake was dominated by a gastrotrich of the genus Chaetonotus (0.67 × 106 individuals m−2). The largest lake harboured up to 14.4 × 106 nematodes m−2, which is the highest nematode density thus far reported for a freshwater habitat. The lakes yielded few nematode species (S = 7, N = 887) and calculation of the Shannon–Wiener index (H′) indicated an exceptionally low nematode diversity. The nematode community of one lake was clearly dominated by an undescribed suction-feeding Mesodorylaimus (59.6%), the community of the other lake by the epistrate feeder Achromadora pseudomicoletzkyi (89.3%), whereas the third lake surprisingly contained no nematodes. The benthic nematode biomasses for the two nematode-containing lakes differed by a factor 50. The food webs of the three lakes are presumed to have an exceptionable simply structure.
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Notes
Indeed, on 29 May 2008, park rangers reported signs of a new eruptive process at Cerro Azul volcano (http://www.darwinfoundation.org/en/newsroom/newsreleases/2008-05-30_vol_fcd_png).
References
Andrássy I (1956) Die Rauminhalts- und Gewichtsbestimmung der Fadenwürmer (Nematoda). Acta Zool Hung 2:1–15
Balsamo M, Todaro MA (2002) Gastrotricha. In: Rundle SD, Robertson A, Schmid-Araya JM (eds) Freshwater meiofauna: biology and ecology. Backhuys Publishers, Leiden, pp 45–61
Banfield AF, Behre C, Clair D (1956) Geology of Isabela (Albemarle) Island, Archipelago de Colón (Galápagos). Geol Soc Am Bull 67:215–234. doi:10.1130/0016-7606(1956)68[215:GOIAIA]2.0.CO;2
Beier S, Bolley M, Traunspurger W (2004) Predator-prey interactions between Dugesia gonocephala and free-living nematodes. Freshw Biol 49(1):77–86. doi:10.1046/j.1365-2426.2003.01168.x
Clarke KR, Green RH (1988) Statistical design and analysis for a “biological effects” study. Mar Ecol Prog Ser 46:213–226. doi:10.3354/meps046213
Clarke KR, Warwick RM (2001) Changes in marine communities: an approach to statistical analysis and interpretation. PRIMER-E, Plymouth
Colinvaux PA (1968a) Paleolimnological investigations in the Galápagos Archipelago. Not Galapagos 11:13–18
Colinvaux PA (1968b) Reconnaissance and chemistry of the lakes and bogs of the Galápagos Islands. Nature 219:590–594. doi:10.1038/219590a0
Colinvaux PA (1984) The Galápagos climate: present and past. In: Perry R (ed) Galapagos. Pergamon Press, Oxford, pp 55–69
Colinvaux PA, Schofield EK (1976a) Historical ecology in the Galápagos Islands. I. A holocene pollen record from El Junco Lake, Isla San Cristobal. J Ecol 64:989–1012. doi:10.2307/2258820
Colinvaux PA, Schofield EK (1976b) Historical ecology in the Galapagos Islands. II. A holocene spore record from El Junco Lake, Isla San Cristobal. J Ecol 64:1013–1028. doi:10.2307/2258821
Derycke S, Remerie T, Vierstraete A et al (2005) Mitochondrial DNA variation and cryptic speciation within the free-living marine nematode Pellioditis marina. Mar Ecol Prog Ser 300:91–103. doi:10.3354/meps300091
Eyualem A, Coomans A (1995) Freshwater nematodes of the Galápagos. Hydrobiologia 299(1):1–51. doi:10.1007/BF00016885
Fenchel T, Finlay BJ (2004) The ubiquity of small species: patterns of local and global diversity. Bioscience 54(8):777–784. doi:10.1641/0006-3568(2004)054[0777:TUOSSP]2.0.CO;2
Ferrington LC, Pehofer HE (1996) In star distribution and biomass of Chironomidae larvae in Lago El Junco, Isla San Cristobal, the Galápagos. Hydrobiologia 318(1/2):123–133. doi:10.1007/BF00014138
Gerecke R, Peck SB, Pehofer HE (1995) The invertebrate fauna of the inland waters of the Galápagos Archipelago (Ecuador)—a limnological and zoogeographical summary. Arch Hydrobiol Suppl 107(2):101–135
Hakenkamp CC, Morin A, Strayer DL (2002) The functional importance of freshwater meiofauna. In: Rundle SD, Robertson A, Schmid-Araya JM (eds) Freshwater meiofauna: biology and ecology. Backhuys Publishers, Leiden, pp 321–335
Heip C, Vincx M, Vranken G (1985) The ecology of marine nematodes. Oceanogr Mar Biol 23:399–489
Holopainen IJ, Paasivirta L (1977) Abundance and biomass of the meiozoobenthos in the oligotrophic and mesotrophic Lake Pääjyarvi, southern Finnland. Ann Zool Fenn 14:124–134
Ilow S, Weber D (1974) Fens and bogs in the Galápagos Islands. Hikobia 7:39–52
Jackson MH (1991) Galapagos: a natural history guide. University of Calgary Press, Calgary
Jacobs LJ (1984) The free-living inland aquatic nematodes of Africa: A review. Hydrobiologia 113:259–291. doi:10.1007/BF00026614
Krebs CJ (1994) Ecology: the experimental analysis of distribution and abundance. HarperCollins College Publishers, New York
Kung SP, Gaugler R, Kaya HK (1990) Influence of soil pH and oxygen on persistence of Steinernema spp. J Nematol 22(4):440–445
Loof PAA (1999) Nematoda: Adenophorea (Dorylaimida). Spektrum Akad. Verl., Heidelberg
MacArthur RH, Wilson EO (1967) The theory of island biogeography. Princeton University Press, Princeton
McBirney AR, Williams H (1969) Geology and petrology of the Galápagos Islands. The Geological Society of America, Boulder
Michiels I, Traunspurger W (2004) A three year study of seasonal dynamics of a zoobenthos community in a eutrophic lake. Nematology 6(5):655–669. doi:10.1163/1568541042843568
Michiels I, Traunspurger W (2005) Benthic community patterns and the composition of feeding types and reproductive modes in freshwater nematodes. Nematology 7(1):21–36. doi:10.1163/1568541054192234
Morgan GT, MacLean AA (1968) Influence of soil pH on an introduced population of Pratylenchus penetrans. Nematologica 14(2):311
Mouginis-Mark PJ, Snell H, Ellisor R (2000) GOES satellite and field observations of the 1998 eruption of Volcan Cerro Azul, Galapagos Islands. Bull Volc 62(3):188–198. doi:10.1007/s004450000078
Munro DC, Rowland SK (1996) Caldera morphology in the western Galápagos and implications for volcano eruptive behavior and mechanisms of caldera formation. J Volcanol Geotherm Res 72:85–100. doi:10.1016/0377-0273(95)00076-3
Muschiol D, Traunspurger W (2007) Life cycle and calculation of the intrinsic rate of natural increase of two bacterivorous nematodes, Panagrolaimus sp. and Poikilolaimus sp. from chemoautotrophic Movile Cave, Romania. Nematology 9(2):271–284. doi:10.1163/156854107780739117
Naumann T, Geist D (2000) Physical volcanology and structural development of Cerro Azul Volcano, Isabela Island, Galapagos: Implications for the development of Galapagos-type shield volcanoes. Bull Volc 61:497–514
Naumann T, Geist D, Kurz M (2002) Petrology and geochemistry of Volcan Cerro Azul: Petrologic diversity among the western Galapagos volcanoes. J Petrol 43(5):859–884. doi:10.1093/petrology/43.5.859
Nesteruk T (1996) Density and biomass of Gastrotricha in sediments of different types of standing waters. Hydrobiologia 324(3):205–208
Overgaard Nielsen C (1949) Studies on soil microfauna, II. The soil inhabiting nematodes. Nat Jutl 2:1–131
Peck SB (1991) The Galapagos Archipelago, Ecuador: with an emphasis on terrestrial invertebrates, especially insects; and an outline for research. In: Dudley EC (ed) The unity of evolutionary biology. Dioscorides Press, Portland, pp 319–336
Peck SB (1992) The dragonflies and damselflies of the Galápagos Islands, Ecuador. Psyche (Stuttg) 99:309–321
Peck SB (1994) Diversity and zoogeography of the non-oceanic Crustacea of the Galápagos Islands, Ecuador (excluding terrestrial Isopoda). Can J Zool 72:54–69
Peck SB (2001) Smaller orders of insects of the Galápagos Islands, Ecuador: evolution, ecology, and diversity. National Research Council of Canada Research Press, Ottawa
Peck SB, Balke M (1993) A synopsis of the Dytiscidae of the Galapagos Islands, Ecuador, with description of Rhantus galapagoensis sp. nov. (Coleoptera: Dytiscidae). Can Entomol 125(2):259–266
Peters L, Traunspurger W (2005) Species distribution of free-living nematodes and other meiofauna in littoral periphyton communities of lakes. Nematology 7(2):267–280. doi:10.1163/1568541054879520
Pfannkuche O, Thiel H (1988) Sample processing. In: Higgins RP, Thiel H (eds) Introduction to the study of meiofauna. Smithsonian Institution Press, Washington, DC, pp 134–145
Prejs K (1977) The nematodes of the root region of aquatic macrophytes, with special consideration of nematode groupings penetrating the tissues of roots and rhizomes. Ekol Polska 25(1):5–20
Robertson AL (2002) Changing times: the temporal dynamics of freshwater benthic microcrustacea. In: Rundle SD, Robertson A, Schmid-Araya JM (eds) Freshwater meiofauna: biology and ecology. Backhuys Publishers, Leiden, pp 261–278
Rowland SK, Harris AJ, Wooster MJ et al (2003) Volumetric characteristics of lava flows from interferometric radar and multispectral satellite data: The 1995 Fernandina and 1998 Cerro Azul eruptions in the western Galapagos. Bull Volc 65(5):311–330. doi:10.1007/s00445-002-0262-x
Rudnick DT, Elmgren R, Frithsen JB (1985) Meiofaunal prominence and benthic seasonality in a coastal marine ecosystem. Oecologia 67(2):157–168. doi:10.1007/BF00384279
Rundle SD, Bilton DT, Galassi D et al (2002) The geographical ecology of freshwater meiofauna. In: Rundle SD, Robertson A, Schmid-Araya JM (eds) Freshwater meiofauna: biology and ecology. Backhuys Publishers, Leiden, pp 279–294
Russell CC (1986) The feeding habits of a species of Mesodorylaimus. J Nematol 18(4):641
Schatz H (1998) Oribatid mites of the Galapagos Islands – faunistics, ecology and speciation. Exp Appl Acarol 22(7):373–409. doi:10.1023/A:1006097928124
Schmid PE, Schmid-Araya JM (2002) Trophic relationships in temporary and permanent freshwater meiofauna. In: Rundle SD, Robertson A, Schmid-Araya JM (eds) Freshwater meiofauna: biology and ecology. Backhuys Publishers, Leiden, pp 295–319
Schmid-Araya JM (1998) Rotifers in interstitial sediments. Hydrobiologia 387–388:231–240. doi:10.1023/A:1017033525199
Seinhorst JW (1962) On the killing, fixation and transferring to glycerin of nematodes. Nematologica 8:29–32
Strayer D (1985) The benthic micrometazoans of Mirror Lake, New Hampshire. Arch Hydrobiol Suppl 72:287–426
Strayer D, Likens GE (1986) An energy budget for the zoobenthos of Mirror Lake, New Hampshire. Ecology 67(2):303–313. doi:10.2307/1938574
Traunspurger W (1997) Bathymetric, seasonal and vertical distribution of the feeding-types of nematodes in an oligotrophic lake. Vie Milieu 47(1):1–7
Traunspurger W (2002) Nematoda. In: Rundle SD, Robertson A, Schmid-Araya JM (eds) Freshwater meiofauna: biology and ecology. Backhuys Publishers, Leiden, pp 63–104
Traunspurger W, Michiels I, Eyualem A (2006) Composition and distribution of free-living freshwater nematodes: Global and local perspectives. In: Eyualem A, Traunspurger W, Andrássy I (eds) Freshwater nematodes: ecology and taxonomy. CABI Publishing, Oxfordshire, pp 46–76
Underwood AJ (1997) Experiments in ecology. Cambridge University Press, Cambridge
Wallace RL, Ricci C (2002) Rotifera. In: Rundle SD, Robertson A, Schmid-Araya JM (eds) Freshwater meiofauna: biology and ecology. Backhuys Publishers, Leiden, pp 15–44
Warwick RM, Price R (1979) Ecological and metabolic studies from free-living nematodes from an estuarine mud-flat. Estuar Coast Mar Sci 9:257–271. doi:10.1016/0302-3524(79)90039-2
Yeates GW, Bongers T (1999) Nematode diversity in agroecosystems. Agric Ecosyst Environ 74(1–3):113–135. doi:10.1016/S0167-8809(99)00033-X
Acknowledgements
Work in the field was accomplished with the kind permission of the Galápagos National Park. Preparation for the collecting trip and the later work in the laboratory were kindly supported by the CDRS, with special thanks to Ana Mireya Guerrero, Jorge Luis Rentería and Dr. Alan Tye. Many thanks to the wonderful Galápagos crew, especially Thomas Bartolomaeus. The following persons kindly helped with the taxonomic determination of the various meiobenthic groups: Anton Brancelj (Cladocera), Ralf Deichsel (Acari), Anno Faubel (Platyhelminthes), Diana Galassi (Copepoda), Reinhard Gerecke (Acari), Alexander Kieneke (Gastrotricha), Peter Martin (Acari), Claude Meisch (Ostracoda), Nicola Reiff (Diptera), Helmut Rogg (Coleoptera, Heteroptera and Odonata), Heinrich Schatz (Acari), Tarmo Timm (Annelida) and Aldo Zullini (Nematoda). Lars Peters, Jenny M. Schmidt-Araya and three anonymous reviewers made valuable comments on earlier versions of the manuscript.
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Muschiol, D., Traunspurger, W. Life at the extreme: meiofauna from three unexplored lakes in the caldera of the Cerro Azul volcano, Galápagos Islands, Ecuador. Aquat Ecol 43, 235–248 (2009). https://doi.org/10.1007/s10452-008-9202-y
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DOI: https://doi.org/10.1007/s10452-008-9202-y