Tank bromeliads harbour aquatic microcosms with many endemic species among their leaves. We performed a set of experiments to determine which factors maintain the bromeliad aquatic fauna in isolation from neighbouring ponds. We cultivated three invertebrates species (an ostracod, an annelid and a cladoceran) from a pond surrounded by terrestrial bromeliads in Southeastern Brazil and introduced them inside cleaned bromeliads, using recipients with the same volume as controls. The pH, conductivity and organism densities were monitored in the bromeliad samples and controls for 41 days. The samples introduced inside the cleaned bromeliads showed a significant decrease in pH and conductivity compared to the controls. The pond organism populations introduced in the bromeliads presented a high extinction rate and a significant population decrease when compared to the ones introduced in the controls. We attributed the population decline experienced by the pond organisms to the oligotrophic conditions generated inside the tanks by the bromeliads due to the nutrient absorption. We suggest that the changes in water chemistry induced by the bromeliads could play an important role in isolating their microcosm communities from other freshwater systems. Other mechanisms that could produce the high rates of endemism in bromeliad fauna are discussed.
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References
Armbruster, P., R. A. Hutchinson & P. Cotgreave, 2002. Factors influencing community structure in a South American tank bromeliad fauna. Oikos 96: 225–234.
Benzing, D. H., 2000. Bromeliaceae: profile of an adaptative radiation. Cambridge University Press, Cambridge, UK.
Benzing, D. H. & A. Renfrow, 1974. The mineral nutrition of bromeliaceae. Botanical Gazette 135: 281–288.
Diesel, R., 1992. Maternal care in the bromeliad crab Metopaulias depressus: protection of larvae from predation by damselfly nymphs. Animal Behaviour 43: 803–812.
Diesel, R., 1997. Maternal control of calcium concentration in the larval nursery of the bromeliad crab Metopaulias depressus (Grapsidae). Proceedings of the Royal Society of London, Series B, Biological Sciences 264: 1403–1406.
Frank, J. H. & L. P. Lounibos, 1987. Phytotelmata: swamps or islands? The Florida Entomologist 70: 14–20.
Frank, J. H., S. Sreenivasan, P. J. Benshoff, M. A. Deyrup, G. B. Edwards, S. E. Halbert, A. B. Hamon, M. D. Lowman, E. L. Mockford, R. H. Scheffrahn, G. J. Steck, M. C. Thomas, T. J. Walker & W. C. Welbourn, 2004. Invertebrate animals extracted from native Tillandsia (Bromeliales: Bromeliaceae) in Sarasota County, Florida. The Florida Entomologist 87: 176–185.
Fish, D., 1983. Phytotelmata: terrestrial plants as hosts for aquatic insect communities. In Frank, J. H. & L. P. Lounibos (eds), Phytotelmata: flora and fauna. Plexus, New Jersey: 1–28.
Inselsbacher, E., C. A. Cambui, A. Richter, C. F. Stange, H. Mercier & W. Wanek, 2007. Microbial activities and foliar uptake of nitrogen in the epiphytic bromeliad Vriesea gigantea. The New Phytologist 175: 311–320.
Kitching, R. L., 2000. Food webs and container habitats: the natural history and ecology of Phytotelmata. Cambridge University Press, Cambridge.
Little, T. J. & P. D. N. Hebert, 1996. Endemism and ecological islands: the ostracods from Jamaican bromeliads. Freshwater Biology 36: 327–338.
Lopez, L. C. S., P. P. Rodrigues & R. I. Rios, 1999. Frogs and snakes as phoretic dispersal agents of bromeliad ostracods (Elpidium) and Annelids (Dero). Biotropica 31: 705–708.
Lopez, L. C. S., B. Filizola, I. Deiss & R. I. Rios, 2005. Phoretic behaviour of bromeliad annelids (Dero) and ostracods (Elpidium) using frogs and lizards as dispersal vectors. Hydrobiologia 549: 15–22.
Ngai, J. T. & D. S. Srivastava, 2006. Predators accelerate nutrient cycling in a bromeliad ecosystem. Science 314: 963.
Reich, A., J. J. Ewel, N. M. Nadkarni, T. Dawson & R. D. Evans, 2003. Nitrogen isotope ratios shift with plant size in tropical bromeliads. Oecologia 137: 587–590.
Schimdl, J., P. Sulzer & R. L. Kitching, 2008. The insect assemblage in water filled tree-holes in a European temperate deciduous forest: community composition reflects structural, trophic and physicochemical factors. Hydrobiologia 598: 285–303.
Srivastava, D. S., 2006. Habitat structure, trophic structure and ecosystem function: interactive effects in a bromeliad-insect community. Oecologia 149: 493–504.
Srivastava, D. S., J. Kolasa, J. Bengtsson, A. Gonzalez, S. P. Lawler, T. E. Miller, P. Munguia, T. Romanuk, D. C. Schneider & M. K. Trzcinski, 2004. Are natural microcosms useful model systems for ecology? Trends in Ecology and Evolution 19: 379–384.
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Lopez, L.C.S., Da Nóbrega Alves, R.R. & Rios, R.I. Micro-environmental factors and the endemism of bromeliad aquatic fauna. Hydrobiologia 625, 151–156 (2009). https://doi.org/10.1007/s10750-009-9704-1
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DOI: https://doi.org/10.1007/s10750-009-9704-1