5. LA COPIA PRIVADA
5.5 FUNDAMENTACIÓN DE LA EXISTENCIA DE LA COPIA PRIVADA
[1] Codd, GA; Azevedo, SMFO; Bagchi, SN; Burch, MD; Carmichael, WW; Harding,WR; Kaya, K; Utkilen, HC. CYANONET A Global Network for Cyanobacterial Bloom and
Toxin Risk Management Initial Situation Assessment and Recommendations. IHP-VI
Technical Documents in Hydrology.No. 76; UNESCO; Paris; 2005; 138p.
[2] Paerl, HW. Growth and reproductive strategies of freshwater blue-green algae (Cyanobacteria). In: Sandgren CD, editor. Growth and reproductive strategies of
freshwater phytoplankton. Cambridge: Cambridge University Press; 1988; 261-315.
[3] Azevedo, SMFO. South and Central America? Toxic Cyanobacteria. In: Codd, GA, editor. CYANONET A Global Network for Cyanobacterial Bloom and Toxin Risk
Management Initial Situation Assessment and Recommendations.IHP-VI Technical
Documents in Hydrology. No. 76. UNESCO, Paris; 2005; 115-126.
[4] Bouvy, M; Molica, RJR; Oliveira, S; Marinho, M; Beker, B. Dynamics of a toxic cyanobacterial bloom (Cylindrospermopsis raciborskii) in a shallow reservoir in the semi-arid region of Northeast Brazil. Aquatic Microbiology Ecology, 1999, 20, 285- 297.
[5] Magalhães, VF; Soares, RM; Azevedo, SMFO. Microcystin contamination in fish from the Jacarepaguá (RJ, Brazil): ecological implication and human health risk. Toxicon, 2001 39, 1077-1085.
[6] Komárvová-Legnerová, J. The tropical planktonic genus Cylindrospermpsis (Cyanophytes, cyanobacteria). In: Azevedo, MTP, editor. IV Congresso Latino
Americano de Ficologia, Brazil.Sociedade de Ficologia daAmérica Latina e Caribe.
Caxambú; 1998, 327-340.
[7] Woloszynskza, J. Das Phytoplankton einiger Javanian Seenmit Berucksichtigung des Sawa-Planktons – Buletin. International del'Académie des Science de Cracoviae -Serie
B,1912 6, 649-709.
[8] Seenayya G; Subba Raju, NS. On the ecology and systematic position of the alga known as Anabaenopsis raciborskii (Wolosz.) Elenk and a critical evaluation of the forms described under the genus Anabaenopsis. Taxonomy and biology of blue-green
algae, Universityof Madras, India, 1972; 52-57.
[9] Branco, CWC; Senna, PAC. Factors influencing the development of
Cylindrospermopsis raciborskii and Microscystis aeruginosain the Paranoá Reservoir. Algological Studies, 1994 75, 85-96.
[10] Dokulil, MT; Mayer, J. Population dynamics and photosynthetic rates of a
Cylindrospermopsis-Limnothrix association in a highly eutrophic urban lake, Alte
Donau, Vienna, Austria. Archiv Fuer Hydrobiologie Supplementband, 1996 117, 179– 195.
[11] Hawkins, PR. Factors Which Influence the Development of Blooms of
Cylindrospermopsis. Cylindrospermopsis – A New Toxic Algal Bloom Challenge for
Australia. Agricultural and Resource Management Council of Australia and New Zealand, Brisbane, Australia; 1996.
[12] Chapman, AD; Schelske, CL.Recent appearance of Cylindrospermopsis (cyanobacteria) in five hypereutrophic Florida lakes. Journal of Phycology, 1997 33, 191–195.
[13] Padisák J. Cylindrospermopsis raciborskii (Woloszynska) Seenayyaet Subba Raju, an expanding, hightly adaptive cyanobacterium: worldwide distribution and review of its ecology. ArchivfürHydrobiologie, 1997 4, 563-593.
[14] Wood, SA; Stirling, DJ. First identification of the cylindrospermopsin producing cyanobacteria Cylindrospermopsis raciborskii in New Zealand. New Zealand Journal
of Marine and Freshwater Research, 2003 37, 821–828.
[15] Briand, J-F; Leboulanger, JC; Humbert, J-F; Bernard, C;Dufour, P. Cylindrospermopsis
raciborskii (Cyanobacteria) invasion at mid latitudes: selection, wide physiological
tolerance, or global warming? Journal of Phycology, 2004 40, 231-238.
[16] Codd, GA; Morrison, LF; Metcalf, JS. Cyanobacterial toxins: risk management for health protection. Toxicology and Applied Pharmacology, 2005203, 264–272.
[17] Andrade, LF; Brunkow, RF; Xavier, CF; Domingues; LL. Fitoplâncton e características físico-químicas do reservatório de Itaipu, Paraná, BR. In: Tundisi, JG. (editor).
Limnologia e manejo de represas. EESC-USP/CRHEA/ACIESP; 1988; 205-268.
[18] Bouvy, M; Falcão, D; Marinho, M; Pagano, M; Moura, A. Occurrence of
Cylindrospermopsis (Cyanobacteria) in 39 Brazilian tropical reservoirs during the 1998
drought. Aquatic Microbiol Ecology, 2000 23, 13-27.
[19] Mello, S. Fitoplâncton da lagoa Imboassica (Macaé, RJ-Brasil): flora, estrutura de comunidade e variações espaciais e temporais. PhD thesis. Universidade Federal do Rio de Janeiro, Rio de Janeiro, Rio de Janeiro, Brazil, 2001; 154p.
[20] Marinho, MM; Huszar, VLM. Nitrogen availability and physical conditions as controlling factors of phytoplankton composition and biomass in a tropical reservoir (Southern Brasil). Archivfür Hydrobiologie, 2002153, 443-468.
[21] Soares, MCS; Rocha, MIA, Marinho, MM; Azevedo, SMFO; Branco, CWC; Huszar, VLM. Changes in species composition during annual cyanobacterial dominance in a tropical reservoir: physical factors, nutrients and grazing effects. Aquatic Microbiol
Ecology, 2009 57, 137–149.
[22] Delazari-Barroso, A; Barroso, GF; Azevedo, SMFO; Huszar, VLM. Physical regimes and nutrient limitation affecting phytoplankton growth in a meso-eutrophic water supply reservoir in southeastern Brazil. Lakes and Reservoirs, 2009 14, 269-278. [23] Lagos, PED. Fitoplâncton no reservatório Irai, PR com ênfase em Cianobactérias:
Variação Sazonal em relação as variáveis ambientais. Master thesis. Universidade Federal do Paraná, Paraná, Brazil. 2009; 104p.
[24] Laudares-Silva, RL. Aspectos limnológicos, variabilidade espacial e temporal na estrutura da comunidade fitoplanctônica da Lagoa do Peri, Santa Catarina, Brasil. Ph.D. thesis. Universidade Federal de São Carlos, São Carlos, São Paulo, Brazil, 1999; 220p. [25] Burford, MA; Mcneale, KL; Mckenzie-Smith, FJ. The role of nitrogen in promoting the
toxic cyanophyteCylindrospermopsis raciborskii in a subtropical water reservoir.
Freshwater Biology, 2006 51, 2143–2153.
[26] Tucci, A; Sant’anna, CL. Cylindrospermopsis raciborskii (Woloszynska) Seenayya and Subba Raju (Cyanobacteria): variação sazonal e relações com fatores ambientais em um reservatório eutrófico, São Paulo, SP, Brasil. Revista Brasileira de Botânica, 2003 26, 97-112.
[27] Fabbro, LD; Duivenvoorden, LJ. A two-part model linking multidimensional environmental gradients and seasonal succession of phytoplankton assemblages.
[28] Shafik, HM; Herodek, S; Présing, M; Vörös, L. Factors effecting growth and cell composition of cyanoprokaryote Cylindrospermopsis raciborskii (Woloszynska) Seenayya et Suba Raju. Algological Studies, 2001 103, 75-93.
[29] Briand, JF; Robillot, C; Quiblier-Lloberas, C; Humbert, JF; Coute, A; Bernard, C. Environmental context of Cylindrospermopsis raciborskii (Cyanobacteria) blooms in a shallow pond in France. Water Research, 2002 36, 3183–3192.
[30] Briand, JF; Leboulanger, C; Humbert, JF; Bernard, C; Dufour, P. Cylindrospermopsis
raciborskii (Cyanobacteria) invasion at mid-latitudes: selection, wide physiological
tolerance, or global warming? Journal of Phycology, 2004 40, 231-238.
[31] Présing, M; Herodek, S; Vörös, L; Kóbor, I. Nitrogen fixation, ammonium and nitrate uptake during a bloom of Cylindrospermopsis raciborskii in Lake Balaton. Archivfür
Hydrobiologie, 1996 136, 553-562.
[32] Huszar,VL; Silva, LHS; Marinho, MM; Domingos, P; Sant'anna, C. Cyanoprocaryote assembleges in eigth productive tropical Brazilian Waters.Hydrobiologia, 2000 424, 67-77.
[33] Istvánovics, V; Shafik, HM; Présing, M; Juhos, SV. Growth and phosphate uptake kinetics of the cyanobacterium, Cylindrospermopsis raciborskii, (Cyanophyceae) in throughflow cultures. Freshwater Biology, 2000 43, 257-275.
[34] Wu, Z; Shi, J; Li R. Comparative studies on photosynthesis and phosphate metabolism of Cylindrospermopsis raciborskii with Microcystis aeruginosa and Aphanizomenon
floes-aquae. Harmful Algae, 2009 910-915.
[35] Wiedner, C; Rücker, J; Brüggemann, R; Nixdorf, B. Climate change affects timing and size of populations of an invasive cyanobacterium in temperate regions. Oecologia, 2007 152, 473–484.
[36] Saker, ML; Grifiths, DJ. The effect of temperature on growth and cylindrospermopsin content of seven isolates of Cylindrospermopsisraciborskii (Nostocales, Cyanophyceae) from water bodies in northern Australia. Phycologia, 2000 39, 349–354.
[37] Castro, D; Vera, D; Lagos, N; García, C; Vásquez, M. The effect of temperature on growth and production of paralytic shellfish poisoning toxins by the cyanobacterium
Cylindrospermopsis raciborskii C10. Toxicon, 2004 44, 483–489.
[38] Chonudomkul, D; Yongmanitchai, W; Theeragool, G; Kawachi, M; Kasai, F; Kaya, K; Watanabe, MM. Morphology, genetic diversity, temperature tolerance and toxicity of
Cylindrospermopsis raciborskii (Nostocales, Cyanobacteria) strains from Thailand and
Japan. FEMS Microbiology Ecology, 2004 48, 345-355.
[39] Figueredo, CC; Giani, A; Bird, DF. Does allelopathy contribute to Cylindrospermopsis
raciborskii (Cyanobacteria) bloom occurrence and geographic expansion? Journal of Phycology, 2007 43, 256-265.
[40] Fabbro, LD; Duivenvoorden, LJ. Profile of a bloom of the cyanobacterium
Cylindrospermopsis raciborskii (Woloszynska) Seenaya and Subba Raju in the Fitzroy
River in tropical Central Queensland. Marine Freshwater Research, 1996 47, 685-694. [41] Ferrão-Filho, AS; Costa, SM; Ribeiro, MGL; Azevedo, SMFO. Effects of a saxitoxin-
producer strain of Cylindrospermopsis raciborskii (cyanobacteria) on the swimming movements of cladocerans. Environmental Toxicology, 2008 23, 161–168.
[42] Ferrão-Filho, AS; Soares, MCS; Magalhães, VF; Azevedo, SMFO. A rapid bioassay for detecting saxitoxins using a Daphnia acute toxicity test. Environmental Pollution, 2010
[43] Carneiro, RL; Alipio, CAN; Bisch, PM; Azevedo, SMFO; Pacheco, ABF. The inhibitory effect of calcium on Cylindrospermopsisraciborskii (CYANOBACTERIA) metabolism. Brazilian Journal of Microbiology, 2011 42, 1547-1559.
[44] Scheffer, M. Ecology of shallow lakes. Netherlands: Kluwer Academic Publishers;1998; 357p.
[45] TerBraak, CJF; Šmilauer, P. CANOCO Reference manual and CanoDraw for Windows User’s guide: Software for Canonical Community Ordination (version 4.5). Microcomputer Power, Ithaca, New York. 2002; 500p.
[46] Reynolds, CS. Non-determinism to probability, or N: P in the community ecology of phytoplankton. Archivfür Hydrobiologie, 1999146, 23–35.
[47] Nürnberg, G. Trophic state of clear and colored, soft- and hardwater lakes with special consideration of nutrients, anoxia, phytoplankton and fish. Lake and Reservoir
Management, 1996 12, 432-447.
[48] Šmilauer, P. Exploratory analysis of paleoecological data using the program CanoDraw.
Journal of Paleolimnology, 1994 12, 163-169.
[49] Huszar, V; Caraco, N; Roland, F; Cole, J. Nutrient– chlorophyll relationships in tropical–subtropical lakes: Do temperate models fit? Biogeochemistry, 2006 79, 239– 250.
[50] Whitton, B; Potts, M. The ecology of cyanobacteria. Netherlands: Kluwer Academic Publishers; 2000; 111p.
[51] Hecky, R; Kling, HJ. Phytoplankton ecology of the great lakes in the drift valleys of central Africa. Archivfür Hydrobiologie, 1987 25, 197-228.
[52] Harris, GP; Baxter, G. Interannual variability in phytoplankton biomass and species composition in a subtropical reservoir. Freshwater Biology, 1996 35, 545-560.
[53] Kosten, S; Huszar, VLM; Mazzeo, N; Scheffer, M ; Steinberg, LSL; Jeppesen, E. Lake and watershed characteristics rather than climate influence nutrient limitation in shallow lakes. Ecological Applications, 2009 19, 1791-1804.
[54] Bonilla, S;Aubriot, L;Soares, MCS;Piana, MG; Fabre, A;Huszar, VL; Lurling, M; Antonialedes, D;Padisák, J; Kruk, C. What drives the distribution of the bloom forming cyanobacteria Planktothrixagardhii and Cylindrospermopsis raciborskii? FEMS
Microbiol Ecology, 2011 79, 594–607.
[55] Costa, IA. Dinâmica de populações de cianobactérias em reservatório eutrofizado no semi-árido nordestino brasileiro. PhD thesis, Universidade Federal de São Carlos, São Carlos, São Paulo, Brazil, 2003; 232p.
[56] Chellappa, N; Costa, MAM. Dominant and co-existing species of cyanobacteria from a eutrophicated reservoir of Rio Grande do Norte State, Brazil. Acta Oecologica, 2003
24, S3-S10.
[57] Dantas, EW. Ecologia da comunidade de algas planctônicas em reservatórios de Pernambuco (Nordeste, Brasil). PhD thesis. Universidade Federal Rural de Pernambuco, Recife, Pernambuco, Brazil, 2010; 143p.
[58] Dantas, EW; Moura, NA; Bittencourt-Oliveira, MC. Cyanobacterial blooms in stratified and destratified eutrophic reservoirs in semi-arid region of Brazil. Anais da Academia
Brasileira de Ciências, 2011 83, 1327-1338.
[59] Ferreira, A. Dinâmica do fitoplâncton de um reservatório hipereutrófico (reservatório Tapacurá, Recife, PE), com ênfase em Cylindrospermopsisraciborskii e seus
morfótipos. MSc thesis, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Rio de Janeiro, Brazil, 2002; 79p.
[60] Bressan, FA. Fatores reguladores da dominância de Cylindrospermopsisraciborskii (Woloszynska) Seenayya and Subba-Raju no Reservatório Tabocas. MSc thesis, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Rio de Janeiro, Brazil; 2001; 35p.
[61] Figueredo, CC; Giani, A. Phytoplankton community in the tropical lake of Lagoa Santa (Brazil): conditions favoring a persistent bloom of Cylindrospermopsis raciborskii.
Limnologica, 2009 39; 264-272.
[62] Figueredo, CC. Dominância de Cylindrospermopsis raciborskii (Woloszynska) Seenaya and Subba Raju na lagoa central de Lagoa Santa (MG). PhD thesis, Universidade Federal de Minas Gerais, Belo Horizonte, Minas Gerais, 2007;151p.
Editor: Aloysio Da S. Ferrão-Filho © 2013 Nova Science Publishers, Inc.
Chapter 5