Abstract
Small and shallow lakes make up most of the lake-covered area in the world, and immature Chironomidae generally constitute the dominant group among invertebrates in these systems, exhibiting a wide distribution and tolerance to various levels of water quality. The changes in trophic features associated with the dominance of different major primary producers (macrophyte and phytoplankton) are reflected in the functioning of these ecosystems and likely in their phytophilous Chironomidae species richness and abundance. These were thus studied in a Brazilian shallow lake over a 11-year period characterized by both clear and turbid water conditions in relation to water quality and dominant macrophytes. The results revealed differences in Chironomidae composition but not in richness associated with clear and turbid waters. The Goeldichironomus genera predominated during all years and for different macrophyte types (freefloating, floating leaf, and submerged). We attribute the variability of Chironomidae assemblages to changes in macrophyte dominance and water trophic status, such as the concentration of nutrients and chlorophyll-a, during the 11-year period. Submerged macrophytes were associated with clear waters and harbored the highest diversity, which emphasized the importance of these environmental conditions for preserving the biodiversity of Chironomidae in shallow lakes.
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Albertoni, E. F., L. J. Prellvitz & C. Palma-Silva, 2007. Macroinvertebrate fauna associated with Pistia stratiotes and Nymphoides indica in subtropical lakes (south Brazil). Brazilian Journal of Biology 67: 499–507.
Bazzanti, M., M. Seminara & S. Blidón, 1997. Chironomids (Diptera: Chironomidae) from three temporary ponds of different wet phase duration in Central Italy. Journal of Freshwater Ecology 21: 213–222.
Blindow, I., A. Hargeby & G. Andersson, 2002. Seasonal changes of mechanisms maintaining clear water in a shallow lake with abundant Chara vegetation. Aquatic Botany 72: 315–334.
Callisto, M., P. Moreno, J. F. Gonçalves Jr., J. J. F. Leal & F. A. Esteves, 2002. Diversity and biomass of Chironomidae (Diptera) larvae in an impacted coastal lagoon in Rio de Janeiro, Brazil. Brazilian Journal of Biology 62: 77–84.
Chorus, I. & J. Bartram, 1999. Water resources. In Chorus, I. & J. Bartram (eds), Toxic Cyanobacteria in Water: A Guide to Their Public Health Consequences, Monitoring and Management. E & FN Spon Inc., New York: 02–05.
Cyr, H. & J. A. Downing, 1988. The abundance of phytophilous invertebrates on different species of submerged macrophytes. Freshwater Biology 20: 365–374.
Davanso, R. C. S. & R. Henry, 2007. Composition and abundance of Chironomidae and Ephemeroptera in a lateral lake in the zone of Paranapanema River into Jurumirim Reservoir (State of São Paulo). Acta Limnologica Brasiliensia 19: 131–142.
Dibble, E. D. & S. M. Thomaz, 2006. A simple method to estimate spatial complexity in aquatic plants. Brazilian Archives of Biology and Technology 49: 421–428.
Downing, J. A. & C. M. Duarte, 2010. Abundance and size distribution of lakes ponds and impoundments. In Likens, G. E. (ed.), Lake Ecosystem Ecology. Elsevier, London: 220–229.
Dvorak, J., 1996. An example of relationships between macrophytes, macroinvertebrates and their food resources in a shallow eutrophic lake. Hydrobiologia 339: 27–36.
Epler, J. H. (ed.), 2001, Identification Manual for the Larval Chironomidae (Diptera) of North and South Carolina. A Guide to the Taxonomy of the Midges of the Southeastern United States, Including Florida. Special Publication SJ2001-SP13. North Carolina Department of Environment and Natural Resources, Raleigh, NC, and St. Johns River, 526 pp. http://home.earthlink.net/~johnepler/index.html.
Ferrington Jr, L. C., 2008. Global diversity of non-biting midges (Chironomidae; Insecta-Diptera) in freshwater. Hydrobiologia 595: 447–455.
Ferrington Jr, L. C., M. B. Berg & W. P. Coffman, 2008. Chironomidae. In Merritt, R. W., K. W. Cummins & B. M. Berg (eds), An Introduction to the Aquatic Insects of North America. Kendall/Hunt Publishing Company, Dubuque: 847–1003.
Fu, Z., K. Yoshizawa, N. Yoshida, F. Kazama & K. Hirabayashi, 2012. Bathymetric distribution of chironomid larvae (Diptera: Chironomidae) in Lake Saiko, Japan. Lakes & Reservoirs: Research and Management 17: 55–64.
Golterman, H. L., R. S. Clymo & M. A. M. Ohmstad, 1978. Methods for Physical and Chemical Analysis of Freshwater. Blackwell Scientific Publ., Oxford.
Gross, E. M., S. Hilt, P. Lombardo & G. Mulderij, 2007. Searching for allelopathic effects of submerged macrophytes on phytoplankton—state of the art and open questions. Hydrobiologia 584: 77–88.
Higuti, J. & A. M. Takeda, 2002. Spatial and temporal variation in densities of Chironomidae larvae (Diptera) in two lagoons and two tributaries of the upper Paraná River floodplain, Brazil. Brazilian Journal of Biology 62: 807–818.
Higuti, J., I. A. Zviejkovski, M. A. Takahashi & V. G. Dias, 2005. Chironomidae Indicadora do Estado Trófico em Reservatórios. In Rodrigues, L., S. M. Thomaz, A. A. Agostinho & L. C. Gomes (eds), Biocenose em Reservatórios: Padrões espaciais e temporais. Rima, São Paulo: 135–145.
Jeffries, M. J., 2011. The temporal dynamics of temporary pond macroinvertebrate communities over a 10-year period. Hydrobiologia 661: 391–405.
Klein, A. H. F., 1998. Clima regional. In Seeliger, U., C. Odebrecht & J. P. Castello (eds), Os Ecossistemas Costeiro e Marinho do Extremo Sul do Brasil. Ecoscientia, Rio Grande: 5–7.
Kleyne, P. & S. Trivinho-Strixino, 2005. Chironomidae and other aquatic macroinvertebrates of a first order stream: community response after habitat fragmentation. Acta Limnologica Brasiliensia 17: 81–90.
Kumari, M., K. Kangur & M. Haldna, 2007. Variation of macrozoobenthos communities in the reed Phragmites australis belt of two large shallow lakes. Proceedings of Estonian Academy of Science: Biology and Ecology 56: 141–153.
Langdon, P. G., Z. Ruiz, K. P. Brodersen & I. D. L. Foster, 2006. Assessing lake eutrophication using chironomids: understanding the nature of community response in different lake type. Freshwater Biology 51: 562–577.
Mackereth, F. J. H., J. Heron & J. F. Talling, 1978. Water Analysis: Some Revised Methods for Limnologists. Freshwater Biological Association, Cumbria.
Mastrantuono, L., 1991. Zoobenthos associated with submerged macrophytes in littoral areas of Lake Vico (Italy): some relations between fauna structure and water quality. Limnetica 7: 153–162.
Meerhoff, M. & E. Jeppesen, 2009. Shallow lakes and ponds. In Likens, G. E. (ed.), Lake Ecosystem Ecology. Elsevier-Academic Press, San Diego: 343–375.
Mendes, H. F. & L. C. Pinho, 2011. Checklist of the Brazilian Chironomidae species. https://sites.google.com/site/brazilianchironomids/list.Last. Accessed April 11, 2012.
Palma-Silva, C., E. F. Albertoni, C. R. T. Trindade & S. S. Oliveira, 2008. Nymphoides indica (L.) O. Kuntze (Menyanthaceae) em um pequeno lago raso subtropical (Rio Grande, RS). Iheringia 63: 249–256.
Panatta, A., C. Stenert, E. M. Santos & L. Maltchik, 2007. Diversity and distribution of the chironomid larvae in wetlands in southern Brazil. Journal of the Kansas Entomological Society 80: 229–242.
Peckham, S. D., J. W. Chipman, T. M. Lilles & S. I. Dodson, 2006. Alternate stable states and the shape of the lake trophic distribution. Hydrobiologia 571: 401–407.
Rossaro, B., L. Marziali, A. C. Cardoso, A. Solimini, G. Free & R. Giacchini, 2007. A biotic index using benthic macroinvertebrates for Italian lakes. Ecological Indicators 7: 412–429.
Sahuquillo, M., M. R. Miracle, M. Rieradevall & R. Kornijów, 2008. Macroinvertebrates assemblages on reed beds, with special attention to Chironomidae (Diptera), in Mediterranean shallow lakes. Limnetica 27: 239–250.
Scheffer, M., 1998. Ecology of Shallow Lakes. Chapman & Hall, London.
Scheffer, M. & E. H. van Nes, 2007. Shallow lakes theory revisited: various alternative regimes driven by climate, nutrients, depth and lake size. Hydrobiologia 584: 455–466.
Scheffer, M., S. Szabo, A. Gragnani, E. H. van Nes, S. Rinaldi, N. Kautsky, J. Norberg, R. M. M. Roijackers & R. J. M. Franken, 2003. Floating plant dominance as a stable state. Proceedings of the National Academy of Science of the United States of America 100: 4040–4045.
Silva, J. S., W. T. Silveira, E. F. Albertoni & C. Palma-Silva, 2010. Diversity of Chironomidae (Diptera) in decomposing Nymphoidesindica (L.) Kuntze in two subtropical lakes with different trophic conditions. Panamerican Journal of Aquatic Sciences 5: 557–571.
Tarkowska-Kukuryk, M., 2006. Water soldier Stratiotes aloides L. (Hydrocharitaceae) as a substratum for macroinvertebrates in a shallow eutrophic lake. Polish Journal of Ecology 54: 441–451.
Tarkowska-Kukuryk, M., 2010. Epiphytic chironomids on rigid hornwort (Ceratophyllum demersum L.)—the relation between the community structure and lake status. Oceanological and Hydrobiological Studies 39: 117–133.
Tarkowska-Kukuryk, M., 2011. Composition and distribution of epiphytic midges (Diptera: Chironomidae) in relation to emergent macrophytes cover in shallow lakes. Polish Journal of Ecology 59: 141–151.
Tarkowska-Kukuryk, M. & R. Kornijów, 2008. Influence of spatial distribution of submerged macrophytes on Chironomidae assemblages in shallow lakes. Polish Journal of Ecology 56: 569–579.
Trindade, C. R. T., L. M. Furlanetto & C. Palma-Silva, 2009. Nycthemeral cycles and seasonal variation of limnological factors of a subtropical shallow lake (Rio Grande, RS–Brazil). Acta Limnologica Brasiliensia 21: 35–44.
Van de Meutter, F., R. Stoks & L. de Meester, 2005. The effect of turbidity state and microhabitat on macroinvertebrate assemblages: a pilot study of six shallow lakes. Hydrobiologia 542: 379–390.
Wright, I. A. & S. Burgin, 2007. Species richness and distribution of eastern Australian lake chironomids and chaoborids. Freshwater Biology 52: 2354–2368.
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The authors are grateful to the members of the Laboratory of Limnology of the Institute of Biological Sciences of the Federal University of Rio Grande for laboratory and field help, to CAPES for the scholarship granted to the first author, to Dr. Luiz U. Hepp for his critical review of the manuscript, to Dr. Norma C. Bueno for identifying Chara zeylanica, and the constructive remarks provided by Editor Dr. Mariana Meerhoff and the three anonymous referees.
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da Silva, J.S., Albertoni, E.F. & Palma-Silva, C. Temporal variation of phytophilous Chironomidae over a 11-year period in a shallow Neotropical lake in southern Brazil. Hydrobiologia 742, 129–140 (2015). https://doi.org/10.1007/s10750-014-1972-8
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DOI: https://doi.org/10.1007/s10750-014-1972-8