Czasopismo
Tytuł artykułu
Autorzy
Treść / Zawartość
Pełne teksty:
Warianty tytułu
Języki publikacji
Abstrakty
Wydawca
Czasopismo
Rocznik
Tom
Opis fizyczny
p.48-57,fig.,ref.
Twórcy
autor
- Department of Biology, Faculty of Life Science, Surya University, South Tangerang, Indonesia
autor
- Research Center for Oceanography, Indonesiaan Institute of Science, North Jakarta, Indonesia
autor
- Fisheries Department, Faculty of Fisheries and Marine Science, Sumedang, Indonesia
Bibliografia
- [1] Wilas, J., Draszawka-Bołzan, B., & Cyraniak, E. Wastewater reuse. World News of Natural Sciences 5 (2016) 33-41
- [2] Zahir F, Rizwi SJ, Haq SK and Khan RH, Low dose mercury toxicity and human health. Environ. Toxicol. Pharmacol. 20(2) (2005) 351-60
- [3] World Health Organization. (1992). Cadmium vol. 134. Geneva. WHO: Environmental Health Criteria. Ceramic
- [4] Liao, Q. L., Liu, C., Wu, H. Y., Jin, Y., Hua, M., Zhu, B. W., ... & Huang, L. Association of soil cadmium contamination with ceramic industry: A case study in a Chinese town. Science of the Total Environment 514 (2015) 26-32
- [5] Huang, K., Li, J., & Xu, Z. Characterization and recycling of cadmium from waste nickel–cadmium batteries. Waste management 30(11) (2010) 2292-2298
- [6] Pérez, I., Romero, F. M., Zamora, O., & Gutiérrez-Ruiz, M. E. Magnetic susceptibility and electrical conductivity as a proxy for evaluating soil contaminated with arsenic, cadmium and lead in a metallurgical area in the San Luis Potosi State, Mexico. Environmental earth sciences 72(5) (2014) 1521-1531
- [7] Tiam, S. K., Lavoie, I., Doose, C., Hamilton, P. B., & Fortin, C. Morphological, physiological and molecular responses of Nitzschia palea under cadmium stress. Ecotoxicology 27(6) (2018) 675-688
- [8] Magelsir, H. M. I. Heavy metal toxicity-metabolism, absorption, distribution, excretion and mechanism of toxicity for each of the metals. World News of Natural Sciences 4 (2016) 20-32
- [9] Hameed, I. O., Adeniyi, I. F., Adesakin, T. A., & Aduwo, A. I. Phytoplankton Diversity and Abundance in Relation to Physico-chemical Parameters of Ifewara Reservoir, Southwestern Nigeria. World News of Natural Sciences, 24 (2019) 251-268
- [10] Nakov, T., Beaulieu, J. M., & Alverson, A. J. Insights into global planktonic diatom diversity: The importance of comparisons between phylogenetically equivalent units that account for time. The ISME Journal 12(11) (2018) 2807-2810
- [11] Halder, S. Bioremediation of Heavy Metals through Fresh Water Microalgae: A Review. Scholars Academic Journal of Biosciences 2(11) (2014) 825-830
- [12] Smol, J. P., & Stoermer, E. F. (2010). The Diatoms: Applications for the Environmental and Earth Sciences. Cambridge: Cambridge University Press
- [13] Raymont, J. E. (2014). Plankton & Productivity in the Oceans: Volume 1: Phytoplankton. Southhampton: Pergamon Press.
- [14] Kuczynska, P., Jemiola-Rzeminska, M., & Strzalka, K. Photosynthetic Pigments in Diatoms. Marine Drugs 13(9) (2015) 5847-5881
- [15] Chakilam, S. R. Metal Effects on Carotenoid Content of Cyanobacteria. International Journal of Botany 8(4) (2012) 192-197
- [16] Safafar, H., van Wagenen, J., Møller, P., & Jacobsen, C. Carotenoids, Phenolic Compounds and Tocopherols Contribute to the Antioxidative Properties of Some Microalgae Species Grown on Industrial Wastewater. Marine Drugs 13(12) (2015) 7339-7356
- [17] American Standard Testing and Material. (2006). Annual Book of ASTM Standards: Section Eleven, Water and Environmental Technology. Baltimore: Library of Congress Catalog.
- [18] ASEAN-Canada CPMS II. (1995). Protocol for Sublethal Toxicity Test Using Tropical Marine Organism. Regional Workshop on Chronic Toxicity Testing, 10 - 19. B
- [19] Hindarti, D., & Larasati, A. W. Copper (Cu) and Cadmium (Cd) toxicity on growth, chlorophyll-a and carotenoid content of phytoplankton Nitzschia sp. IOP Conference Series: Earth and Environmental Science 236(1) (2019) 012053
- [20] Parsons, T. R., Maita, Y., & Lalli, C. M. (1984). A Manual of Chemical and Biological Methods for Seawater Analysis. New York: Pergamon Press.
- [21] Saragih, H. S., Rudiyanti, S., & Haeruddin, H. Toxicity of Shrimp Washing Liquid Waste from the Kobong Market, Semarang Against the Growth of Microalgae Chlorella sp. Management of Aquatic Resources Journal 7(1) (2018) 99-109
- [22] El-Naggar, A. H., & Sheikh, H. M. Response of the green microalga Chlorella vulgaris to the oxidative stress caused by some heavy metals. Life Sci J 11(10) (2014) 1349-1357
- [23] Arunakumara, K. K. I. U., & Zhang, X. Heavy metal bioaccumulation and toxicity with special reference to microalgae. Journal of Ocean University of China 7(1) (2008) 60-64
- [24] Hamed, S. M., Selim, S., Klöck, G., & AbdElgawad, H. Sensitivity of two green microalgae to copper stress: growth, oxidative and antioxidants analyses. Ecotoxicology and Environmental Safety 144 (2017) 19-25
- [25] Yuan, P., Zhou, Q., & Hu, X. The phases of WS2 nanosheets influence uptake, oxidative stress, lipid peroxidation, membrane damage, and metabolism in algae. Environmental Science & Technology 52(22) (2018) 13543-13552
- [26] Veerapandiyan, N., Lenin, T., Sampathkumar, P., Sundaram, A. A., & Sangeetha, S. P. Acute toxicity on growth and chlotophyll a content of diatom Odontella aurita. Journal of Science Inventions Today 3(6) (2014) 725-736
- [27] Arunakumara, K. K. I. U., & Zhang, X. Heavy metal bioaccumulation and toxicity with special reference to microalgae. Journal of Ocean University of China 7(1) (2008) 60-64.
- [28] Purbonegoro, T. Effect of Cadmium (Cd) Heavy Metals on Metabolism and Photosynthesis in the Sea. Oseana 33(1) (2008) 25-31
- [29] Boyanov, M. I., Kelly, S. D., Kemner, K. M., Bunker, B. A., Fein, J. B., & Fowle, D. A. Adsorption of cadmium to Bacillus subtilis bacterial cell walls: a pH-dependent X-ray absorption fine structure spectroscopy study. Geochimica et Cosmochimica Acta 67(18) (2003) 3299-3311
- [30] Huanxiao, Y. H. W. Accumulation and Effect of Cadmium on Green Algae. Acta Scientiae Circumstantiae, 01 (1990).
- [31] Küpper, H., Küpper, F., & Spiller, M. Environmental relevance of heavy metal-substituted chlorophylls using the example of water plants. Journal of Experimental Botany 47(2) (1996) 259-266
- [32] Soto, P., Gaete, H., & Hidalgo, M. E. Assessment of catalase activity, lipid peroxidation, chlorophyll-a, and growth rate in the freshwater green algae Pseudokirchneriella subcapitata exposed to copper and zinc. Latin American Journal of Aquatic Research 39(2) (2011) 280-285
- [33] Bagjuz, A. Suppression of Chlorella vulgaris Growth by Cadmium, Lead, and Copper Stress and Its Restoration by Endogenous Brassinolide. Archives of Environmental Contamination and Toxicology 60 (2011) 406-416
- [34] Pfeiffer, T., Camagajevac, I., Maronic, D., & Maksimovic, I. Regulation of photosynthesis in algae under metal stress. Environment and Photosynthesis: A Future Prospect (2018) 261-286
- [35] Rebhun, S., & Ben-Amotz, A. Antagonistic effect of manganese to cadmium toxicity in the alga Dunaliella salina. Marine Ecology Progress Series 42(1) (1988) 97-104
- [36] Koutsaftis, A., & Aoyama, I. The interactive effects of binary mixtures of three antifouling biocides and three heavy metals against the marine algae Chaetoceros gracilis. Environmental Toxicology: An International Journal, 21(4) (2006) 432-439
- [37] Saleh, B. Physiological response of the green algae Ulva lactuca (Chlorophyta) to heavy metals stress. Journal of Stress Physiology & Biochemistry, 11(3) (2015) 38-51
- [38] Domingo, G., Bracale, M., & Vannini, C. (2019). Phytotoxicity of silver nanoparticles to aquatic plants, algae, and microorganisms. In Nanomaterials in Plants, Algae and Microorganisms (pp. 143-168). Academic Press.
- [39] Ernst, W. O. (1998). Effects of Heavy Metals in Plants at The Cellular and Organismic Level, In: Ecotoxicology. John Wiley & Sons, Inc and Spektrum Akedemischer Verlag, 32.
- [40] Setiawati, M. D. (2009). Cadmium and Lead Toxicity Test in Chaetoceros gracilis Microalgae. Bogor, Jawa Barat, Indonesia.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.agro-ced6d4c8-0360-41d0-bb03-fce22533506c