Aguilar-Rosas R., Aguilar-Rosas L. y Shimada, S. (2008). First Record of Ulva pertusa Kjellman (Ulvales, Chlorophyta) in the Pacific Coast of Mexico. Algae, 23, 201-207.
Baamondes S., Fernández, I., Lozano R. y Ugarte, J. (2007). Is the cryptic alien seaweed Ulva pertusa (Ulvales, Chlorophyta) widely distributed along European Atlantic coasts? Botánica Marina, 50, 267-274.
Betancourt, L. y Herrera-Moreno, A. (2001). Algas marinas bentónicas (Rhodophyta, Phaeophyta y Chlorophyta) conocidas para la Hispaniola. Revista Moscosoa, 12, 105-134
Bettiol, C., Stievano, L., Bertelle, M., Delfino, F., y Argese, E. (2008). Evaluation of microwaves-assisted extraction procedures for the determination of metal content and potential bioavailability in sediments. Applied Geochemistry, 23, 1140-1151.
Botebol, H., Sutak, R., Scheiber, I. F., Blaiseau, P. L., Bouget, F. Y., Camadro, J. M., y Lesuisse, E. (2014). Different iron sources to study the physiology and biochemistry of iron metabolism in marine micro-algae. Biometals, 27(1), 75-88.
Cameron, H., Mata, M. T. y Riquelme, C. (2018). The effect of heavy metals on the viability of Tetraselmis marina AC16-MESO and an evaluation of the potential use of this microalga in bioremediation. PeerJ, 6, e5295.
Cano Mallo, M. (2008). Bases biológicas de Ulva fasciata Delile, (Chlorophyta) para su posible explotación, al oeste de la Habana, Cuba. [Tesis de Doctorado, Universidad de la Habana (UH)]. https://aquadocs.org/handle/1834/3404.
Chakraborty, S., Bhattacharya, T., Singh, G. y Maity, J. P. (2014). Benthic macroalgae as biological indicators of heavy metal pollution in the marine environments: A biomonitoring approach for pollution assessment. Ecotoxicology and environmental safety, 100, 61-68.
Chen, B. & Zou, D. (2015). Altered seawater salinity levels affected growth and photosynthesis of Ulva fasciata (Ulvales, Chlorophyta) germlings. Acta Oceanológica Sinica, 34, 108-113.
Contreras Pérez, J. B., Mendoza Gómez, C. L., y Gómez, A. (2004). Determinación de metales pesados en aguas y sedimentos del Río Haina. Ciencia y Sociedad, 29(1) 38-71.
Cuizano, N. A. y Navarro, A. E. (2008). Biosorción de metales pesados por algas marinas: posible solución a la contaminación a bajas concentraciones. Anales de la Real Sociedad Española de Química, 2, 120-125.
De Arellano, G. A. V. R. (2007). Utilización de microalgas para la remoción de Cadmio y Zinc en efluentes de aguas residuales urbanas. Centro de Investigación Científica y de Educación Superior de Ensenada.
De Carvalho, C., Di Beneditto, A., Souza, C., Ramos, R. y Rezende, C. (2008). Heavy metal distribution in two cetacean species from Rio de Janeiro State, south-eastern Brazil. Journal of the Marine Biological Association of the United Kingdom, 88(6), 1117-1120.
Díaz, N. A., Ruiz, J. A. B., Reyes, E. F., Cejudo, A. G., Novo, J. J., Peinado, J. P., Melendez-Valdes, F. T. y Fiñana, I. T. (2010). Espectrofotometría: Espectros de absorción y cuantificación colorimétrica de biomoléculas. Universidad de Cordoba, (pp. 1-8).
Encinas, M. D. (2011). Medio ambiente y contaminación, principios básicos. Universidad del País Vasco, (pp. 1-119). https://addi.ehu.es/handle/10810/16784
El-Naggar, N. E. A., Hamouda, R. A., Mousa, I. E., Abdel-Hamid, M. S., y Rabei, N. H. (2018). Statistical optimization for cadmium removal using Ulva fasciata biomass: Characterization, immobilization and application for almost-complete cadmium removal from aqueous solutions. Scientific reports, 8(1), 1-17.
El Nemr, A., Khaled, A., y El-Sikaily, A. (2011). Heavy metal contamination in the seaweeds of Abu-Qir Bay, Egypt. Blue Biotechnology Journal, 1(2), 1-15.
Escobar, J. (2002). La contaminación de los ríos y sus efectos en las áreas costeras y el mar. Repositorio Cepal. http://hdl.handle.net/11362/6411
Espinoza, J. (2005). Fenología de macroalgas marinas. Hidrobiológica, 1, 109-122.
Fernández, F., Boluda, C. J., Olivera, J., Guillermo, L. A., Gómez, B., Echavarría, E. y Mendis Gómez, A. (2017). Análisis elemental prospectivo de la biomasa algal acumulada en las costas de la República Dominicana durante 2015. Centro azúcar, 44(1), 11-22.
Gao, G., Zhong, Z., Zhou, X. y Xu., J. (2016). Changes in morphological plasticity of Ulva prolifera under different environmental conditions: A laboratory experiment. Harmful Algae, 59, 51-58.
García, C., Moreno, J. L., Hernández Fernández, M. T. y Polo, A. (2002). Metales pesados y sus implicaciones en la calidad del suelo. Ciencia y Medio Ambiente, 1, 125-138.
Gautam, R., Sharma, S.y Chattopadhyaya, M. (2014). Heavy metals in water: Presence, Removal and Safety. The Royal Society of Chemistry.
Ge, S., y Champagne, P. (2017). Cultivation of the marine macroalgae Chaetomorpha linum in municipal wastewater for nutrient recovery and biomass production. Environmental science & technology, 51(6), 3558-3566.
Ghrefat, H., y Yusuf, N. (2006). Assessing Mn, Fe, Cu, Zn, and Cd pollution in bottom sediments of Wadi Al-Arab Dam, Jordan. Chemosphere, 65(11), 2114-2121.
González, M. E. C., Sosa, L., Moreira, A. R., Maya, H., Pérez, S., León, A. R. y Gómez, M. (2011). Concentración de arsénico en macroalgas de la Bahía de Cienfuegos, Cuba. Revista de Investigaciones Marinas, 26(1), 21-26.
Guiry, M.D y Guiry, G.M. (2020). Ulva fasciata Delile 1813. AlgaeBase. National University of Ireland. http://www.algaebase.org.
Haritonidis, S., y Malea, P. (1999). Bioaccumulation of metals by the green alga Ulva rigida from Thermaikos Gulf, Greece. Environmental Pollution, 104(3), 365-372.
Hughey, J. R., Maggs, C. A., Mineur, F., Jarvis, C., Miller, K. A., Shabaka, S. H. y Gabrielson, P. W. (2019). Genetic analysis of the Linnaean Ulva lactuca (Ulvales, Chlorophyta) holotype and related type specimens reveals name misapplications, unexpected origins, and new synonymies. Journal of phycology, 55(3), 503-508.
Ibrahim, W. M., Hassan, A. F. y Azab, Y. A. (2016). Biosorption of toxic heavy metals from aqueous solution by Ulva lactuca activated carbon. Egyptian journal of basic and applied sciences, 3(3), 241-249.
Jayakumar, S. H. B., Saravanane, R. y Sundararajan, T. (2011). Biodeterioration of coastal concrete structures by macroalgae Ulva fasciata. Journal of Marine Science and Technology, 19(2), 154-161.
Kalesh, N. S. y Nair, S. M. (2005). The accumulation levels of heavy metals (Ni, Cr, Sr, & Ag) in marine algae from southwest coast of India. Toxicological & Environmental Chemistry, 87(2), 135-146.
Kingsbury, J. M. (1962). The effect of waves on the composition of a population of attached marine algae. Bulletin of the Torrey Botanical Club, 89(3), 143-160.
Kumar, J. N., Oommen, C., y Kumar, R. N. (2009). Biosorption of heavy metals from aqueous solution by green marine macroalgae from Okha Port, Gulf of Kutch, India. American-Eurasian Journal of Agricultural & Environmental Science, 6(3), 317-323.
Kützing, F. T. (1845). Phycologia germanica, di Deutschlands Algen in bündigen Beschreibungen. Nebst einer Anleitung zum Untersuchen und Bestimmen dieser Gewächse für Anfänger. F. A. Brockhaus.
Labib, W., El-Dahhar, A. y Diab, M. H. (2014). Biochemical Analyses of the green seaweed Ulva fasciata from Alexandria coastal environments. Journal of the Arabian Aquaculture Society, 10(2), 99-119.
Lai, S. D., Chen, P. C. y Hsu, H. K. (2003). Benthic algae as monitors of heavy metals in various polluted rivers by energy dispersive X-ray spectrometer. Journal of Environmental Science and Health, 38(5), 855-866.
Martínez, A. H., y Sanz, C. P. (2009). Metodologías de extracción de metales pesados presentes en matrices medioambientales marinas (Posidonia oceánica, sedimentos, anélidos poliquetos): Propuesta de una nueva metodología no contaminante. Nereis: Revista Iberoamericana Interdisciplinar de Métodos, Modelización y Simulación, 2, 65-72.
Meenakshisundaram, G., Mairh, O. P., Karuppanan, E., y Subba Rao, P. Y. (1999). Effect of salinity, light intensity and nitrogen source on growth and composition of Ulva fasciata Delile (Chlorophyta, Ulvales). Indian Journal of Geo-Marine Sciences, 28, 70-73.
Mehta, S. K., y Gaur, J. P. (2005). Use of algae for removing heavy metal ions from wastewater: progress and prospects. Critical reviews in biotechnology, 25(3), 113-152.
Lee, W. y Wang, W. (2001), Metal accumulation in the green macroalga Ulva fasciata: effects of nitrate, ammonium and phosphate, Science of The Total Environment, 278, 11-22.
Mendoza De Cid, L. (1993). Determinación de elementos químicos en las aguas del río Ozama mediante la técnica de fluorescencia ‹te rayos-X por reflexión total (TRXRF). Revista Ciencia y Sociedad, 16(1), 49.
Narukawa, T., Inagaki, K., Zhu, Y., Kuroiwa, T., Narushima, I., Chiba, K. y Hioki, A. (2012). Preparation and certification of Hijiki reference material, NMIJ CRM 7405-a, from the edible marine algae hijiki (Hizikia fusiforme). Analytical and Bioanalytical Chemistry, 402(4), 1713-1722.
Navarro-Aviñó, J. P., Alonso, I. A., y López-Moya, J. R. (2007). Aspectos bioquímicos y genéticos de la tolerancia y acumulación de metales pesados en plantas. Revista Ecosistemas, 16(2) https://www.revistaecosistemas.net/index.php/ecosistemas/article/view/125
Nicolai, E. y Preston, R. D. (1952). Cell-wall studies in the Chlorophyceae. I. A general survey of submicroscopic structure in filamentous species. Proceedings of the Royal Society of London. Series B-Biological Sciences, 140(899), 244-274.
Phillips, D. J. H. (1977). The use of biological indicator organisms to monitor trace metal pollution in marine and estuarine environments. A review. Environmental Pollution, 13, 281–317.
Pourkhabbaz, H. R., Hedayatzadeh, F., y Cheraghi, M. (2016). Evaluation of the correlation between heavy metals in Chaetomorpha sp. and water and sediment in the pond drinking water treatment plants in karoon river area. Journal of Oceanography, 7(27), 69-78.
Quiroz-González, N., León-Álvarez, D., y Rivas-Acuña, M. (2017). Nuevos registros de algas verdes marinas (Ulvophyceae) para Tabasco, México. Acta Botánica Mexicana, 118, 121-138.
Rai, L. C., Gaur, J. P. y Kumar, H. D. (1981). Phycology and heavy‐metal pollution. Biological Reviews, 56(2), 99-151.
Romera, E., González, F., Ballester, A., Blázquez, M. L. y Munoz, J. A. (2007). Comparative study of biosorption of heavy metals using different types of algae. Bioresource technology, 98(17), 3344-3353.
Rosas, J. G. (2014). Saberes matemáticos asociados a la curva de calibración en el análisis químico: Un caso [Tesis de Doctorado, Instituto Politécnico Nacional].
Rybak, A., Messyasz, B. y Leska, B. (2013). The accumulation of metal (Co, Cr, Cu, Mn and Zn) in freshwater Ulva (Chlorophyta) and its habitat. Ecotoxicology, 22, 558-573.
Tamayo, A. I. B., Guas, A. M. E., Leyte-Vidal, J. J. P., y Maccini, M. (2014). Analytical method for heavy metal determination in algae and turtle eggs from Guanahacabibes Protected Sea Park. Journal of Electrochemical Science and Engineering, 4(4), 145-154.
Shams El-Din, N. G., Mohamedein L. I. y El-Moselhy Kh. M. (2014). Seaweeds as bioindicators of heavy metals off a hot spot area on the Egyptian Mediterranean Coast during 2008-2010. Environmental Monitoring and Assessment, 186, 5865-5881.
Tejada-Tejada, P., Rodríguez-Rodríguez, Y., Rodríguez, L. E., Perdomo, O. P. y Boluda, C. J. (2019). Quantification of heavy metals in Sargassum natans and Sargassum fluitans arrived to the coasts of Dominican Republic during 2019. Caribbean Science and Innovation Meeting.
Tsutsui, I., Kanjanaworakul, P., Srisapoome, P., Aue-umneoy, D. y Hamano, K. (2010). Growth of giant tiger prawn, Penaeus monodon Fabricius, under co-culture with a discarded filamentous seaweed, Chaetomorpha ligustica (Kützing) Kützing, at an aquarium-scale. Aquaculture international, 18(4), 545-553.
Villares, R., Puente, X. y Carballeira, A. (2001). Ulva and Enteromorpha as Indicators of Heavy Metal Pollution. Hydrobiologia, 462, 221-232.
Wichard, T., Charrier B., Mineur, F., Bothwell, J. H., De Clerck, O. y Coates, J. C. (2015). The green seaweed Ulva: a model system to study morphogenesis. Frontiers in Plant Science, 6, 1-8.
Zhang, J., Huo, Y., Yu, K., Chen, Q., He, Q., Han, W. y He, P. (2013a). Growth characteristics and reproductive capability of green tide algae in Rudong coast, China. Journal of applied phycology, 25(3), 795-803.
Zhang, J. H., Huo, Y. Z., Zhang, Z. L., Yu, K. F., He, Q., Zhang, L. H., Yang, L. L., Xu, R. y He, P. M. (2013b). Variations of morphology and photosynthetic performances of Ulva prolifera during the whole green tide blooming process in the Yellow Sea. Marine Environmental Research, 92, 35-42.
