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Books on the topic 'Algae Physiology'

Author: Grafiati
Published: 4 June 2021
Last updated: 31 January 2023

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1

1955-, Douglas Susan E., Larkum A. W. D, and Raven John A, eds. Photosynthesis in algae. Boston: Kluwer Academic, 2003.

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2

Lobban, Christopher S. Seaweed ecology and physiology. Cambridge [England]: Cambridge University Press, 1994.

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3

Weykam, Gabriele. Photosynthese-Charakteristika und Lebensstrategien antarktischer Makroalgen =: Photosynthetic characteristics and life-strategies of Antarctic macroalgae. Bremerhaven: Alfred-Wegener-Institut für Polar- und Meeresforschung, 1996.

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4

Geider, Richard J. Algal photo-synthesis. New York: Chapman and Hall, 1992.

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5

1952-, Osborne Bruce A., ed. Algal photosynthesis. New York: Chapman and Hall, 1992.

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6

Geider, Richard J. Algal photosynthesis: The measurement of algal gas exchange. New York, NY: Chapman and Hall, 1991.

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7

Jacob, Andreas. Physiologie und Ultrastruktur der antarktischen Grünalge Prasiola crispa ssp. antarctica unter osmotischem Stress und Austrocknung =: Physiology and ultrastructure of the Antarctic green alga Prasiola crispa ssp. antarctica subjected to osmotic stress and desiccation. Bremerhaven: Alfred-Wegener-Institut für Polar- und Meeresforschung, 1992.

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8

Jacob, Andreas. Physiologie und Ultrastruktur der antarktischen Grünalge Prasiola crispa ssp. antarctica unter osmotischem Stress und Austrocknung =: Physiology and ultrastructure of the Antarctic green alga Prasiola crispa ssp. antarctica subjected to osmotic stress and desiccation. Bremerhaven: Alfred-Wegener-Institut für Polar-und Meeresforschung, 1992.

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9

J, Elster, ed. Algae and extreme environments: Ecology and physiology : proceedings of the international conference, 11-16 September 2000, Třeboň, Czech Republic. Berlin: J. Cramer, 2001.

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10

Mikami, Koji. Porphyra yezoensis: Frontiers in physiological and molecular biological research. Hauppauge, N.Y: Nova Science Publisher's, 2010.

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11

The evolution of the eye from algae and jellyfish to humans: How vision adapts to environment. Lewiston, NY: Edwin Mellen Press, 2010.

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12

Hudson, Arthur J. The evolution of the eye from algae and jellyfish to humans: How vision adapts to environment. Lewiston, N.Y: Edwin Mellen Press, 2010.

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13

Hudson, Arthur J. The evolution of the eye from algae and jellyfish to humans: How vision adapts to environment. Lewiston, N.Y: Edwin Mellen Press, 2010.

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14

C, Leadbeater Barry S., Riding Robert, and Systematics Association, eds. Biomineralization in lower plants and animals. Oxford: Published for the Systematics Association by Clarendon Press, 1986.

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15

Lobban, Christopher S. The physiological ecology of seaweeds. Cambridge [Cambridgeshire]: Cambridge University Press, 1985.

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16

Leo n, Rosa, Ph. D., Galva n. Aurora, and Ferna ndez Emilio, eds. Transgenic microalgae as green cell factories. New York, N.Y: Springer Science+Business Media/Landes Bioscience, 2007.

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17

1943-, Ben-Amotz Ami, Polle Jürgen E. W, and Subba Rao D. V, eds. The alga Dunaliella: Biodiversity, physiology, genomics and biotechnology. Enfield, N.H: Science Publishers, 2008.

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18

Compendium of trace metals and marine biota. Amsterdam: Elsevier, 2010.

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19

Raven, John A., S. Douglas, and Anthony W. D. Larkum. Photosynthesis in Algae. Springer London, Limited, 2012.

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20

Raven, John A., S. Douglas, and Anthony W. D. Larkum. Photosynthesis in Algae. Springer Netherlands, 2012.

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21

Raven, John A., S. Douglas, and Anthony W. D. Larkum. Photosynthesis in Algae. Springer, 2011.

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22

Lobban, Christopher S. Seaweed Ecology and Physiology. Cambridge University Press, 2014.

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23

Lobban, Christopher S., and Paul J. Harrison. Seaweed Ecology and Physiology. Cambridge University Press, 2011.

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24

Bischof, Kai, Christopher S. Lobban, Catriona L. Hurd, and Paul J. Harrison. Seaweed Ecology and Physiology. Cambridge University Press, 2014.

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25

Bischof, Kai, Christopher S. Lobban, Catriona L. Hurd, and Paul J. Harrison. Seaweed Ecology and Physiology. Cambridge University Press, 2014.

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26

Lobban, Christopher S., and Paul J. Harrison. Seaweed Ecology and Physiology. Cambridge University Press, 2009.

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27

Walker, N. A., and A. B. Hope. The Physiology of Giant Algal Cells. Cambridge University Press, 2011.

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28

Raven, John, John Beardall, and Mario Giordano. Evolutionary Physiology of Algae and Aquatic Plants. Cambridge University Press, 2004.

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29

Raven, John, John Beardall, and Mario Giordano. Evolutionary Physiology of Algae and Aquatic Plants. Cambridge University Press, 2004.

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30

Yao, Nanyu. Zao lei sheng li xue. Liaoning shi fan da xue shu gao bian ji shi fa xing, 1987.

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31

Grossman, Arthur R., John A. Raven, and Anthony W. D. Larkum. Photosynthesis in Algae: Biochemical and Physiological Mechanisms. Springer International Publishing AG, 2021.

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32

Robinson, D. G., W. Wiessner, and R. C. Starr. Compartments in Algal Cells and Their Interaction. Springer, 2012.

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33

Robinson, D. G., W. Wiessner, and R. C. Starr. Compartments in Algal Cells and Their Interaction. Springer London, Limited, 2011.

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34

J, Rogers L., and Gallon J. R, eds. Biochemistry of the algae and cyanobacteria. Oxford [England]: Clarendon Press, 1988.

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35

Scheper, T. Bioprocess And Algae Reactor Technology, Apoptosis (Advances in Biochemical Engineering and Biotechnology). Edited by T. Scheper. SPRINGER-VERLAG, 1998.

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36

Kirchman, David L. Microbial primary production and phototrophy. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198789406.003.0006.

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This chapter is focused on the most important process in the biosphere, primary production, the turning of carbon dioxide into organic material by higher plants, algae, and cyanobacteria. Photosynthetic microbes account for roughly 50% of global primary production while the other half is by large, terrestrial plants. After reviewing the basic physiology of photosynthesis, the chapter discusses approaches to measuring gross and net primary production and how these processes affect fluxes of oxygen and carbon dioxide into and out of aquatic ecosystems. It then points out that terrestrial plants have high biomass but relatively low growth, while the opposite is the case for aquatic algae and cyanobacteria. Primary production varies greatly with the seasons in temperate ecosystems, punctuated by the spring bloom when the biomass of one algal type, diatoms, reaches a maximum. Other abundant algal types include coccolithophorids in the oceans and filamentous cyanobacteria in freshwaters. After the bloom, small algae take over and out-compete larger forms for limiting nutrients because of superior uptake kinetics. Abundant types of small algae include two coccoid cyanobacteria, Synechococcus and Prochlorococcus, the latter said to be the most abundant photoautotroph on the planet because of its large numbers in oligotrophic oceans. Other algae, often dinoflagellates, are toxic. Many algae can also graze on other microbes, probably to obtain limiting nitrogen or phosphorus. Still other microbes are mainly heterotrophic but are capable of harvesting light energy. Primary production in oxic environments is carried out by oxygenic photosynthetic organisms, whereas in anoxic environments with sufficient light, it is anaerobic anoxygenic photosynthesis in which oxygen is not produced. Although its contribution to global primary production is small, anoxygenic photosynthesis helps us understand the biophysics and biochemistry of photosynthesis and its evolution on early Earth. These microbes as well as aerobic phototrophic and heterotrophic microbes make up microbial mats. These mats can provide insights into early life on the planet when a type of mat, “stromatolites,” covered vast areas of primordial seas in the Proterozoic.
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37

(Editor), L. J. Rogers, and John R. Gallon (Editor), eds. Biochemistry of the Algae and Cyanobacteria (Proceedings of the Phytochemical Society of Europe). Oxford University Press, USA, 1989.

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38

C, Leadbeater Barry S., Riding Robert, and Systematics Association, eds. Biomineralization in lower plants and animals: Proceedings of an international symposium held at the University of Birmingham, April 1985. Oxford [Oxfordshire]: Published for the Systematics Association by the Clarendon Press, 1986.

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39

Algal Development. Springer Verlag, 1987.

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40

(Editor), Milton Fingerman, and Rachakonda Nagabhushanam (Editor), eds. Recent Advances in Marine Biotechnology: Aquaculture-Fishes (Recent Advances in Marine Biotechnology). Science Publishers, 2000.

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41

(Editor), Milton Fingerman, and Rachakonda Nagabhushanam (Editor), eds. Biomaterials and Bioprocessing (Recent Advances in Marine Biotechnology). Science Publishers, 2003.

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42

1928-, Fingerman Milton, Nagabhushanam Rachakonda, and Thompson Mary-Frances, eds. Recent advances in marine biotechnology. Enfield, N.H: Science Pub., 1997.

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43

1928-, Fingerman Milton, and Nagabhushanam Rachakonda, eds. Aquaculture. Enfield, NH: Science Publishers, 2000.

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44

1928-, Fingerman Milton, Nagabhushanam Rachakonda, and Thompson Mary-Frances, eds. Biofilms, bioadhesion, corrosion, and biofouling. Enfield, NH: Science Publishers, 1999.

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45

1928-, Fingerman Milton, and Nagabhushanam Rachakonda, eds. Bioremediation. Enfield, NH: Science Publishers, 2003.

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46

(Editor), Milton Fingerman, and Rachakonda Nagabhushanam (Editor), eds. Immunobiology and Pathology (Recent Advances in Marine Biotechnology). Science Publishers, 2000.

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47

Thompson, Mary-Frances, and Rachakonda Nagabhushanam. Environmental Marine Biotechnology (Recent Advances in Marine Biotechnology , Vol 2). Science Publishers, 1999.

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48

(Editor), Milton Fingerman, and Rachakonda Nagabhushanam (Editor), eds. Molecular Genetics of Marine Organisms (Recent Advances in Marine Biotechnology). Science Publishers, 2004.

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49

(Editor), Milton Fingerman, and Rachakonda Nagabhushanam (Editor), eds. Aquaculture: Seaweeds and Invertebrates (Recent Advances in Marine Biotechnology). Science Publishers, 2000.

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