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  • hydrophobic organic contaminants  (1)
  • luxury storage  (1)
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  • 1
    Electronic Resource
    Electronic Resource
    A comparative study of microalgae isolated from flooded rice paddies: light-limited growth, C fixation, growth efficiency and relative N and P requirement (1991)
    Springer
    Journal of applied phycology 3 (1991), S. 211-220 
    Details
    ISSN: 1573-5176
    Keywords: light-limited growth ; carbon fixation ; growth efficiency ; N:P ratio ; luxury storage ; rice paddy
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology
    Notes: Abstract Seven unialgal isolates from rice paddies,Ankistrodesmus convolutus, Chlorella sp.,Scenedesmus quadricauda, Frustulia vulgaris, Anabaena sp.,Microcystis aeruginosa andPhormidium mucicola, were investigated for their light-limited growth and photosynthetic characteristics, growth efficiency, and relative requirement for N and P as well as their storage potentials. The maximum growth rate (μmax) ranged from 1.27 to 2.72 d−1 among species. The slope of light-limited growth (αg) showed only small interspecies differences (0.126–0.204 d−1 W−1 m2) except inS. quadricauda (0.092 d−1 W−1 m2). Similarly, the ratio of μmax to αg, Ik(g), varied within a narrow range (8.7–13.9 W m−2) with the exception ofS. quadricauda (19.5 W m−2). The slope of the photosynthetic curve based on chlorophylla (chla), αp(a), was significantly higher in cyanobacteria (0.118–0.189 mg C mg chla −1h−1W−1m2) than in other species (0.070–0.094 mg C mg chla −1h−1W−1m2). The maximum photosynthetic rate based on chla (Pmax(a)) was similar (2.95–3.83 mg C mg chla −1 h−1) with the exception of a high value (6.17 mg C mg chla −1 h−1) inM. aeruginosa. A significant correlation (P〈0.001) existed between αp(a) and Pmax(a). The C-specific maximum photosynthetic rate (Pmax(c)) was inversely correlated to the C/chla ratio. Growth efficiency (μeff), the efficiency to retain photosynthetically-fixed C for growth, showed an interspecies variation ranging from 73–93% and was correlated to the μmax:Pmax(c) ratio. Cyanobacteria exhibited higher efficiency than others. The ratio of Pmax:αp, Ik(p), was higher than Ik(g) by 2.0 to 3.8 times. The optimum N:P ratio, determined as the ratio of minimum cell quotas of N to P (qoN:qoP), showed a wide interspecies variability. It was highest inP. mucicola (54) and lowest inF. vulgaris (10). The maximum storage capacity for excess P and N also varied among species; the maximum capacity for P ranged from 2 to 14 times of its immediate need and the capacity for N varied from 1.2 to 4 times.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00003579
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  • 2
    Electronic Resource
    Electronic Resource
    Sorption of hydrophobic organic contaminants and trace metals on phytoplankton and implications for toxicity assessment (1992)
    Springer
    Journal of aquatic ecosystem stress and recovery 1 (1992), S. 175-191 
    Details
    ISSN: 1573-5141
    Keywords: sorption kinetics ; hydrophobic organic contaminants ; trace metals ; toxicity assessment
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology
    Notes: Abstract The partitioning of trace metals and hydrophobic organic contaminants to phytoplankton determines their toxicity as well as their fate and transport in aquatic ecosystems. Accurate impact assessments, therefore, depend on a good understanding of the factors regulating the sorption of these compounds to biotic particles. The accumulation of chlorinated organic compounds in phytoplankton is generally considered as being due solely to physical sorption, described by reversible equilibrium models based on Langmuir or Freundlich isotherms. On the other hand, the uptake of trace metals is a two phase process: a fast sorption component viewed as an ionexchange or a covalent bonding process with cell surface ligands, followed by an intracellular transport phase that is dependent on cellular metabolic activity. The uptake of inorganic and hydrophobic organic pollutants and their bioaccumulation are influenced in a complex manner by duration of exposure and cell density, by environmental factors such as pH, the concentration of cations and of dissolved and colloidal organic matter, as well as by phytoplankton physiological condition. High concentrations of H+, Ca2+, and Mg2+ ions will reduce trace metal sorption by directly competing for uptake sites on the cell's surface, whereas the presence of dissolved organic carbon such as natural and synthetic chelators and phytoplankton exudates will reduce the bioavailability of both trace metals and hydrophobic organic contaminants. Thus, the impact of toxic contaminants on phytoplankton may be determined as much by the factors influencing uptake and partitioning as by the potency of the toxicants and interspecies differences in sensitivity. Recommendations for improving toxicity assessments are presented.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00044714
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    Paper (German National Licenses)
    Fulltext
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