Underwater radiant energy absorbed by phytoplankton, detritus, dissolved organic matter, and pure water

Kishino, Motoaki; Booth, Charles R.; Okami, Noboru

doi:10.4319/lo.1984.29.2.0340

Cited by 60 publications

(65 citation statements)

References 13 publications

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“…Vários estudos neste campo foram feitos, destacando-se Grobbelaar & Stegmann (1976), Junk et al (1981, Ribeiro (1983), Kishino et al (1984). 0 material em suspensão também preocupa no que tange ao assoreamento contínuo do lago formado.…”

Section: Introductionunclassified

Variação Na Qualidade Óptica Da Água Do Sistema Rio-Reservatório Da Usina Hidrelétrica De Tucuruí/Pa

Januário¹,

Fisch²

1992

Acta Amaz.

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RESUMOEntre os anos de 1983 e 1986 foram coletadas informações sobre o comportamento áa penetração na água da radiação solar noe períodos anterior e posterior a formação do reservatório da usina hidrelétrica de Tucuruí, no Fará. Tais medidas foram obtidas em locais pré-fixados à montante da barragem, abrangendo as épocas chuvosa e seca. Fara cada série de dados foram calculadas a irradiância !, o coeficiente de atenuação Κ e a profundidade da zona eufótica. Erros associados aos cálculos também foram analisados.Através das análises efetuadas verificou-se que a atenuação da radiação solar pela água foi maior no período chuvoso, ocorrendo a situação inversa durante a estiagem.

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Section: Introductionunclassified

Variação Na Qualidade Óptica Da Água Do Sistema Rio-Reservatório Da Usina Hidrelétrica De Tucuruí/Pa

Januário¹,

Fisch²

1992

Acta Amaz.

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“…In several studies, using a number of approaches, the absorption spectra of particulate material from natural waters have been partitioned into two components: 1) the absorption by phytoplankton pigments, and 2) the absorption by what has been classified as "organic detritus" (e.g., Kiefer and SooHoo, 1982;Kishino et aL., 1984;Maske and Haardt, 1987). Spectrally, these two operational classes of organic chromophoresare quite different.…”

Section: Metals Release and Surface Alterationmentioning

confidence: 99%

Effects of solar ultraviolet radiation on biogeochemical dynamics in aquatic environments : report of a workshop, Marine Biological Laboratory, Woods Hole, Massachusetts, October 23-26, 1989

Blough¹,

Zepp²

1990

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“…Measurement of the spectral absorption coefficient for suspended particles in seawater has provided useful information since its introduction by Yentsch (1960), who has shown that this measurement can be quickly made using samples concentrated on glassfiber filters and a scanning spectrophotometer (see also Kiefer and SooHoo 1982;Kishino et al 1985;Mitchell and Kiefer 1988). In this technique, the particle absorption coefficient, a,(X) (units given in list of symbols), is computed from the difference between the optical density of a filter that contains suspended particles and a blank filter.…”

mentioning

confidence: 99%

“…Absorption by materials other than phytoplankton (e.g. detritus, bacteria, and dis-1500 solved substances) can also be variable, and there is as yet much discussion concerning the identity and origin of these materials (Kishino et al 1984;Smith and Baker 1978).…”

mentioning

confidence: 99%

“…The absorption coefficient can be described as a combination of the individual absorbances from three categories: water, suspended particles, and dissolved materials, and the contribution to the total absorption coefficient by the latter is quite variable (Austin and Petzold 1986;Kishino et al 1984;Smith and Baker 198 1). Phytoplankton absorption coefficients are subject to variability due to changes in crop size as well as cellular pigment concentration and composition (Yentsch 1960;Mitchell and Kiefer 1988).…”

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confidence: 99%

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A two‐component description of spectral absorption by marine particles

Morrow

Chamberlin

Kiefer

1989

Limnology & Oceanography

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Values for the spectral absorption coefficient of particles sampled in the Sargasso Sea (34"N, 7O"W) in 1987 were subjected to a multiple regression analysis to assess contributions to light absorption by phytoplankton and detritus. Specifically, values for the spectral absorption coefficient at a given wavelength were treated as a function of the values for absorption at 675 and 570 nm. The spectrum for slopes for the 675-nm component has a slope like that of phytoplankton, and the slopes for the 570-nm component resemble that of detritus. Individual spectra were then partitioned into phytoplankton and detrital spectral absorption coefficients with an algorithm that minimized the difference between the original spectrum and sum of the two components. The twocomponent model accounted for >90% of the observed spectral absorption coefficients for all samples collected within the upper 300 m of the water column. Profiles of the two components indicated that there was little variation in mean absorption coefficient for detritus with depth. In contrast, the greatest variability was accounted for by changes in the phytoplankton component, both with depth and seasonally during 1987. This seasonal variation is interpreted in terms of photoadaptation by cells to changes in the light and vertical mixing fields.Measurements of the spectral absorption coefficient of natural waters are not easily obtained. Although particle backscattering

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Underwater radiant energy absorbed by phytoplankton, detritus, dissolved organic matter, and pure water

Cited by 60 publications

References 13 publications

Variação Na Qualidade Óptica Da Água Do Sistema Rio-Reservatório Da Usina Hidrelétrica De Tucuruí/Pa

Variação Na Qualidade Óptica Da Água Do Sistema Rio-Reservatório Da Usina Hidrelétrica De Tucuruí/Pa

Effects of solar ultraviolet radiation on biogeochemical dynamics in aquatic environments : report of a workshop, Marine Biological Laboratory, Woods Hole, Massachusetts, October 23-26, 1989

A two‐component description of spectral absorption by marine particles

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