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E. Marine

Robertson, D.E. Marine Radioecology, Proc. 2nd European Nuclear Energy Agency Seminar. Hamburg Organisation for Economic Co-operation and Development 1971... [Pg.80]

Ferrer I, Goutan E, Marin C, Rey MJ, Ribalta T (2000) Brain-derived neurotrophic factor in Huntington disease. Brain Res 866(l-2) 257-261... [Pg.287]

Lipids are important biomarkers because they carry a strong carbon-number predominance that is inherited from their biosynthesis (e.g. buildup from acetate), and their homolog distribution can reflect biogenic origin (i.e. marine vs. terrestrial origin) They are generally derived from... [Pg.80]

Pardo, E., Marin, S., Ramos, A. J., and Sanchis, V. (2004). Occurrence of ochratoxigenic fungi and ochratoxin A in green coffee from different origins. Food Sci. Technol. 10, 45-50. [Pg.135]

Munoz-Guerra S, Fernandez CE, Benito E, Marin R, Garcia-Martin MG, Bermudez M, Galbis JA (2009) Polymer 50 2048-2057... [Pg.175]

Holder E, Marin V, Kozodaev D, Meier MAR, Lohmeijer BGG, Schubert US (2005) Macromol Chem Phys 206 989-997... [Pg.201]

Fig. 2.22. Comparison of measured levels and environmental quality criteria (EQCs) for nonylphenol (NP) in water, soil and sediments from the various sites, in South Korea (a) water (n = 172), (b) soil (n = 105), (c) freshwater sediment (n = 131), (d) brakish sediment (n = 47), (e) marine sediment (n = 93). Range indicates minimum (min), maximum (max), and arithmetic mean (avg.). Dotted lines represent Canadian EQCs proposed for marine water (WQC-m) and freshwater (WQC-f), and marine sediment (SQG-m) and freshwater sediment (SQG-f) (see the text). Fig. 2.22. Comparison of measured levels and environmental quality criteria (EQCs) for nonylphenol (NP) in water, soil and sediments from the various sites, in South Korea (a) water (n = 172), (b) soil (n = 105), (c) freshwater sediment (n = 131), (d) brakish sediment (n = 47), (e) marine sediment (n = 93). Range indicates minimum (min), maximum (max), and arithmetic mean (avg.). Dotted lines represent Canadian EQCs proposed for marine water (WQC-m) and freshwater (WQC-f), and marine sediment (SQG-m) and freshwater sediment (SQG-f) (see the text).
Winterfeldt, E., Marine natural products — synthetic exercises and biological activity, Pure Appl. Chem., 71, 1095, 1999. [Pg.149]

Hay, M. E., Marine-terrestrial contrasts in the ecology of plant chemical defenses against herbivores, Tr. Ecol. Evol., 6, 362, 1991. [Pg.254]

Russel, F.E., Marine toxins and venomous and poisonous marine plants and animals (invertebrates), Adv. Mar Biol., 21, 59, 1984. [Pg.562]

Inoue, S. and Yamazaki, N. Eds. 1982. Organic and Bioorganic Chemistry of Carbon Dioxide (Wiley, New York). Aresta, M. and Forti, G. Eds. 1987. Carbon Dioxide as a source of Carbon. Biochemical and Chemical Uses . (Reidel Publishing Company, Holland). Alvarez, R. Carmona, E. Marin, J.M. Poveda, M.L. Gutierrez-Puebla, E. and Monge, A. 1986. J. Am. Chem. Soc., 108,2286-2294. [Pg.102]

Valencia, E., Marin, A., and Hardy, G. (2001) Glutathione—nutritional and pharmacological viewpoints Part VI. Nutrition 18, 291-292. [Pg.257]

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