Pigment Formation and Growth in Blue-Green Algae in Crossed Gradients of Light Intensity and Temperature

1. The penetration of light into Windermere is dependent chiefly on the numbers of phytoplankton organisms in the epilimnion. 2. It appears that the greatest depth at which rooted aquatic plants can grow must therefore be affected by the abundance of phytoplankton. The rooted plants are most active during July and August. Observations show that at this time the presence of blue-green algae reduces the light intensity at the limit of submerged vegetation (4·3 metres) by more than 50 per cent.

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Vegetative survival, akinete formation and germination in three blue-green algae and one green alga in relation to light intensity, temperature, heat shock and UV exposure

Folia Microbiologica ◽

10.1007/bf02817618 ◽

2000 ◽

Vol 45 (5) ◽

pp. 439-446 ◽

Cited By ~ 32

Author(s):

S. C. Agrawal ◽

V. Singh

Keyword(s):

Heat Shock ◽

Light Intensity ◽

Green Algae ◽

Green Alga ◽

Uv Exposure ◽

Blue Green Algae ◽

Akinete Formation ◽

Temperature Heat ◽

Vegetative Survival

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The influence of daylength, light intensity and temperature on the growth rates of planktonic blue-green algae

British Phycological Journal ◽

10.1080/00071617600650181 ◽

1976 ◽

Vol 11 (2) ◽

pp. 151-163 ◽

Cited By ~ 134

Author(s):

R.H. Foy ◽

C.E. Gibson ◽

R.V. Smith

Keyword(s):

Light Intensity ◽

Green Algae ◽

Growth Rates ◽

Blue Green Algae

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Special aspects of nitrogen fixation by blue-green algae

Proceedings of the Royal Society of London Series B Biological Sciences ◽

10.1098/rspb.1969.0026 ◽

1969 ◽

Vol 172 (1029) ◽

pp. 357-366 ◽

Cited By ~ 46

Keyword(s):

Carbon Dioxide ◽

Nitrogen Fixation ◽

Light Intensity ◽

Green Algae ◽

Limited Extent ◽

Anabaena Cylindrica ◽

Fixed Nitrogen ◽

Normal Cells ◽

Blue Green Algae ◽

Reducing Potential

When carbon dioxide fixation was over 90 % inhibited by CMU , nitrogen fixation remained unaffected in nitrogen-starved cells of Anabaena cylindrica . In normal cells under the same conditions nitrogen fixation was about 50 % inhibited by CMU . These data suggest, first, that nitrogen fixation in this organism is independent of reducing potential generated by non-cyclic photo-electron transport and, secondly, that nitrogen fixation is stimulated by photosynthetically produced carbon skeletons to assimilate the fixed nitrogen. Although nitrogen fixation occurred to a limited extent in the dark, increasing light intensity stimulated nitrogen fixation both in the presence and absence of CMU . This suggests that light-generated ATP is required for nitrogen fixation in this alga. A ratio of pyruvate decarboxylation to nitrogen fixation of 3:1 has been established for A. cylindrica . This accords with the hypothesis that pyruvate acts as a hydrogen donor for nitrogen reduction and that provision of the required reductant is independent of photosynthesis in blue-green algae.

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Interactions of carbon and nitrogen metabolism with changing light intensity in natural populations and cultures of planktonic blue-green algae

10.2172/5465880 ◽

1978 ◽

Author(s):

A.K. Ward

Keyword(s):

Light Intensity ◽

Nitrogen Metabolism ◽

Green Algae ◽

Natural Populations ◽

Blue Green Algae ◽

Carbon And Nitrogen ◽

Carbon And Nitrogen Metabolism ◽

Changing Light

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Freeze-Fracture Replication in the Ultrastructure of Blue-Green Algae

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100060386 ◽

1967 ◽

Vol 25 ◽

pp. 74-75

Author(s):

L. V. Leak

Keyword(s):

Cell Wall ◽

Electron Microscope ◽

Green Algae ◽

Three Dimensional ◽

Freeze Fracture ◽

Electron Microscopic ◽

Photosynthetic Membranes ◽

Blue Green Algae ◽

Cell Biol ◽

Cellular Components

Electron microscopic observations of freeze-fracture replicas of Anabaena cells obtained by the procedures described by Bullivant and Ames (J. Cell Biol., 1966) indicate that the frozen cells are fractured in many different planes. This fracturing or cleaving along various planes allows one to gain a three dimensional relation of the cellular components as a result of such a manipulation. When replicas that are obtained by the freeze-fracture method are observed in the electron microscope, cross fractures of the cell wall and membranes that comprise the photosynthetic lamellae are apparent as demonstrated in Figures 1 & 2.A large portion of the Anabaena cell is composed of undulating layers of cytoplasm that are bounded by unit membranes that comprise the photosynthetic membranes. The adjoining layers of cytoplasm are closely apposed to each other to form the photosynthetic lamellae. Occassionally the adjacent layers of cytoplasm are separated by an interspace that may vary in widths of up to several 100 mu to form intralamellar vesicles.

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