Life table analysis reveals variation in thermal tolerance among three species of the Lecane genus (Rotifera: Monogononta)

Free Access

Issue		Ann. Limnol. - Int. J. Lim. Volume 53, 2017


Page(s)		253 - 259
DOI		https://doi.org/10.1051/limn/2017009
Published online		02 June 2017

APHA, American Public Health Association, 1995. Standard Methods for the Examination of Water and Wastewater, American Public Health Association (19th edn), American Public Health Association, Washington, DC, 541 p. [Google Scholar]
Begon M., Harper J.L. and Townsend C.P., 1996. Ecology: Individuals, Populations, and Communities (3rd edn), Blackwell Scientific, Malden, MA, USA, 1068 p. [Google Scholar]
De Zwart D., 2002. Observed regularities in SSDs for aquatic species. In: Posthuma L., Sutter II G. W. and Traas T. P. (eds.), Species Sensitivity Distributions in Ecotoxicology. Lewis Publishers, Boca Raton, FL, pp. 133–154. [Google Scholar]
Finesinger J.E., 1926. Effect of certain chemical and physical agents on fecundity and length of life and on their inheritance in a rotifer Lecane (Distyla) inermis (Bryce). J. Exp. Zoöl., 44, 63–94. [CrossRef] [Google Scholar]
Hernández-Rodríguez M.A., Rico-Martínez R., Santos-Medrano G.E., Velázquez-Rojas C.A. and Sánchez-Martínez V.G., 2000. Life table of the rotifer Lecane furcata (Murray, 1913). Scientiae Naturae, 3, 18–26. [Google Scholar]
Huey R.B. and Hertz P.E., 1984. Is a Jack-of-all-temperatures a master of none? Evolution, 38, 441–444. [CrossRef] [PubMed] [Google Scholar]
Huey R.B. and Slatkin M., 1976. Costs and benefits of lizard thermoregulation. Q. Rev. Biol., 51, 363–384. [CrossRef] [PubMed] [Google Scholar]
Hummon W.D. and Bevelhymer D.P., 1980. Life table demography of the rotifer Lecane tenuiseta under culture conditions and various age distributions. Hydrobiologia, 70, 25–28. [Google Scholar]
Janssen C.R., Ferrando-Rodrigo M.D. and Persoone G., 1993. Ecotoxicological studies with the freshwater rotifer Brachionus calyciflorus. I. Conceptual framework and applications. Dev. Hydrobiol., 83, 21–32. [CrossRef] [Google Scholar]
Klimek B., Fiałkowska E., Kocerba-Soroka W., Fyda J., Sobczyk M. and Pajdak-Stós A., 2013. The toxicity of selected trace metals to Lecane inermis rotifers isolated from activated sludge. Bull. Environ. Contam. Toxicol., 91, 330–333. [PubMed] [Google Scholar]
Krebs C.J., 1985. Ecología: Estudio de la distribución y la abundancia (2nd edn), Editorial Harla, Mexico City, Mexico, 753 p. [Google Scholar]
Mejía-Saavedra J., Sánchez-Armass S., Santos-Medrano G.E., González- Amaro R., Razo-Soto I., Rico-Martínez R. and Díaz-Barriga F., 2005. Effect of co- exposure to DDT and manganese on freshwater invertebrates: pore water from contaminated rivers and laboratory studies. Environ. Toxicol. Chem., 24, 2037–2044. [CrossRef] [PubMed] [Google Scholar]
Miller H.M., 1931. Alternation of generations in the rotifer Lecane inermis Bryce. Biol. Bull., 60, 345–381. [Google Scholar]
Nichols H.W., 1973. Growth media-freshwater. In: Stein J.R. (ed.), Handbook of Physiological Methods, Cambridge University Press, Cambridge, MA, 7–24. [Google Scholar]
Pérez-Legaspi I.A. and Rico-Martínez R., 1998. Effect of temperature and food concentration in two species of littoral rotifers. Hydrobiologia, 387/388, 341–348. [Google Scholar]
Pérez-Legaspi I.A. and Rico-Martínez R., 2001. Acute toxicity tests on three species of the genus Lecane (Rotifera: Monogononta). Hydrobiologia, 446/447, 375–381. [Google Scholar]
Pray F.A., 1965. Studies of the early development of the rotifer Monostyla cornuta Muller. Trans. Am. Microsc. Soc., 84, 210–216. [Google Scholar]
Rand G.M. and Petrocelli S.R., 1985. Fundamentals of Aquatic Toxicology: Methods and Applications, Washington Hemisphere Publishing Corporation, Washington, DC, 670 p. [Google Scholar]
Rico-Martínez R. and Snell T.W., 1997. Mating behavior in eight rotifer species: using cross-mating tests to study species boundaries. Hydrobiologia, 356, 165–173. [Google Scholar]
Rico-Martínez R., Velázquez-Rojas C.A., Pérez-Legaspi I.A. and Santos- Medrano G.E., 2000. The use of aquatic invertebrate toxicity tests and invertebrate enzyme biomarkers to assess toxicity in the states of Aguascalientes and Jalisco, Mexico. In: Butterworth F.M., Gunatilake A. and Gonsebatt-Bonaparte M.E. (eds.), Biomonitors and Biomarkers as Indicators of Environmental Change, Vol. 2, Plenum Press, New York, 427–438. [Google Scholar]
Rico-Martínez R., Pérez-Legaspi I.A., Arias-Almeida J.C. and Santos- Medrano G.E., 2013. Rotifers in Ecotoxicology. In: Férard J.F. and Blaise C. (eds.), Encyclopedia of Aquatic Ecotoxicology, Springer, Berlin, 973–996. [CrossRef] [Google Scholar]
Robles-Vargas D., Montoya-Castillo S.M., Avelar-González F.J., Jáuregui- Rincón J., Rodríguez-Valadez F.J. and Rico-Martínez R., 2012. Assessment of the quality and toxicity of the discharges of a wastewater treatment plant and alternatives to improve its operation. J. Environ. Health A, 47, 589–597. [CrossRef] [Google Scholar]
Santos-Medrano G.E., Ramírez-López E.M., Hernández-Flores S., Azuara-Medina P.M. and Rico-Martínez R., 2007. Determination of toxicity levels in the San Pedro River Watershed, Aguascalientes, Mexico. J. Environ. Health A, 42, 1403–1410. [CrossRef] [Google Scholar]
Segers H., 1995. Guides to the Identification of the Microinvertebrates of the Continental Waters of the World: Volume 2: Rotifera: The Lecanidae (Monogonota), SPB Academic Publishing, Leyden, The Netherlands, 226 p. [Google Scholar]
Segers H. and Rico-Martínez R., 2000. The male of Lecane bulla (Gosse, 1851): new support for the synonymy of Lecane Nitzsch, Monostyla Ehrenberg and Hemimonostyla Bartos. J. Nat. Hist., 34, 679–683. [CrossRef] [Google Scholar]
Serrania-Soto C.R., Sarma S.S.S. and Nandini S., 2011. Studies on comparative population growth of some species of the rotifer Lecane (Rotifera). J. Environ. Biol., 32, 523–527. [Google Scholar]
Torres-Guzmán F., Avelar-González F.J. and Rico-Martínez R., 2010a. Implementing Lecane quadridentata acute toxicity tests to assess the toxic effects of selected metals (Al, Fe and Zn). Ecotoxicol. Environ. Saf., 73, 287–295. [EDP Sciences] [Google Scholar]
Torres-Guzmán F., Avelar-González F.J. and Rico-Martínez R., 2010b. An assessment of chemical and physical parameters, several contaminants including metals, and toxicity in the seven major wastewater treatment plants in the state of Aguascalientes, Mexico. J. Environ. Health A, 45, 2–13. [CrossRef] [Google Scholar]
United States Environmental Protection Agency, 1985. Methods for Measuring the Acute Toxicity of Effluents to Freshwater and Marine Organisms. EPA/600/4-85/013, Washington, DC, USA, 275 p. [Google Scholar]
United States Environmental Protection Agency (EPA), 2002. Short-term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Marine and Estuarine Organisms (3rd edn). EP-821-R-02-014, Washington, DC, 464 p. [Google Scholar]
Wallace R.L., Snell T.W., Nogrady T. and Ricci C., 2006. Guides to the identification of the microinvertebrates of the continental waters of the world: Volume 23. In: Segers H. (ed.), Rotifera Volume 1 Biology, Ecology and Systematics (2nd edn), Kenobi Productions, Ghent, Belgium, 299 p. [Google Scholar]

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