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------ .''Phytoplankton'' 2nd Ed 1989 - Arthur Donald Boney Emeritus Professor of Botany University of Glasgow .PSU QK933.B66 1989 . pelagic zone: water column of the open ocean .p001 [[ https://en.wikipedia.org/wiki/Thallus | thallus ]], no organization into tissues such as vascular structure .p001 all [[ https://en.wikipedia.org/wiki/Algae | algae ]] contain [[ https://en.wikipedia.org/wiki/Chlorophyll_a | chlorophyll a ]], a poor absorber of green light .p003 [[ https://en.wikipedia.org/wiki/Harmful_algal_bloom#Red_tide | Red tides ]] toxic [[ https://en.wikipedia.org/wiki/Dinoflagellate | dinoflagellates ]] .p013 [[ https://en.wikipedia.org/wiki/Coccolith | coccolith ]] plates of calcium carbonate, perhaps protective against predation .p016 [[ https://en.wikipedia.org/wiki/Primary_production | Primary production ]] [[ https://en.wikipedia.org/wiki/Autotroph | autotroph ]] produces own food [[ https://en.wikipedia.org/wiki/Heterotroph | heterotroph ]] consumes producers .p017 Global primary production 1.4e14 to 1.8e14 kg/year dry matter, oceans only 35% of the total .'''why not 70%, proportional to ocean/land ratio?''' If land production remained the same, the total land plus ocean productivity could increase by a factor of 2.16 ... and that's before improving predation resistance and engineering new photosynthetic processes. .p018 [[ https://en.wikipedia.org/wiki/Photosynthetically_active_radiation | PAR ]] Photosynthetically active radiation .p018 Clear winter's day light intensity 20% of summer, 10% with clouds .p019 [[ | thylakoids ]] .p019 [[ | stroma ]] .p019 [[ | pyrenoids ]] .p019 [[ | phycobilin ]] .p019 [[ | carotines ]] .p019 [[ | xanthrophyl ]] .p019 [[ | ]] .p019 [[ | ]] .p021 [[ | ]] .p023 [[ | ]] .p023 [[ | ]] .p024 [[ | ]] .p026 [[ | ]] .p026 [[ | ]] .p029 [[ | ]] .p032 [[ | ]] .p033 [[ | ]] .p034 [[ | ]] .p034 [[ | ]] .p035 [[ | ]] .p035 [[ | ]] .p036 [[ | ]] .p036 [[ | ]] .p036 [[ | ]] .p037 [[ | ]] .p037 [[ | ]] .p037 [[ | ]] .p038 [[ | ]] .p038 [[ | ]] .p041 [[ | ]] .p041 [[ | ]] .p043 [[ | ]] .p079 [[ | ]] .p094 Measuring Primary Productivity .p0 [[ | ]] .p105 [[ | ]] ------ === Phytoplankton Productivity === ==== Carbon assimilation in marine and freshwater ecosystems ==== . P.J. le B. Williams, D.N. Thomas, C.S. Reynolds . . PSU QK933 .P52 2002 .p073 ref [[ | ]] .p086 [[ | ]] .p109 [[ | ]] .p111 [[ | ]] .p156 [[ | ]] .p157 [[ | ]] .p161 [[ | ]] .p163 [[ | ]] .p163 [[ | ]] .p170 [[ | ]] .plate 7.1 Global annual net primary production .p182 ref [[ | ]] .p182 ref [[ | ]] .p183 ref [[ | ]] .p225 [[ | ]] .p253 [[ | ]] .p254 [[ | ]] .p293 [[ | ]] .p299 [[ | ]] .p300 [[ | ]] .p307 [[ | ]] .p308 [[ | ]] .p308 [[ | ]] .p309 [[ | ]] .p311 [[ | ]] .p312 [[ | ]] .p313 [[ | ]] .p316 ref [[ | ]] .p322 [[ | ]] .p322 [[ | ]] .p324 [[ | ]] .p324 [[ | ]] .p325 [[ | ]] .p325 [[ | ]] .p325 [[ | ]] .p326 [[ | ]] .p374 ref78 natur .p375 [[ | ]] .p375 [[ | ]] |
- wiki.keithl.com/Phytoplankton
Phytoplankton Books
Algal Cultures and Phytoplankton Ecology
p158 Viruses (cyanophages) and myxobacteria causing lysis of blue-green algae
p226 ref J. A. Bassham and M. Calvin 1957 The Path of Carbon in Photosynthesis @PSU QK882.B3
p228 The seasonal variation in oceanic production as a problem in population dynamics D. H. Cushing 1959
- p229 Cushing 1959 no online source
- p229 M. R. Droop Heterotrophy of carbon 1974 Algal Physiology and Biochemistry
p232 E. Fogg et. al. 1973 459p The Blue-Green Algae WSU Vancouver Library purchased $16.08
p233 W.W.C. Gieskes Current 14C methods for measuring primary production: Gross underestimates in oceanic waters
p236 O Holm-Hansen, K Nishida, V Moses, M Calvin Journal of Experimental Botany, 1959 [[ https://escholarship.org/content/qt42q33467/qt42q33467_noSplash_4e281a8d4b5fc18255d66c9cee28ec22.pdf | Effects of Mineral Salts on Short-term Incorporation of Carbon Dioxide inChlorella] ]
p245 Trevor Platt D. V. Subba Rao 1970 Primary Production Measurements on a Natural Plankton Bloom
p245 Karen Glaus Porter 1976 https://www.science.org/doi/abs/10.1126/science.192.4246.1332
p260i Perspectives in Marine Biology 1958 PSU QH91.S8 1956 p299-322 Rohde& The Primary Production and Standing Crop of Phytoplankton
- p265i Oligotrophic refers to environments, particularly lakes and other aquatic systems, that have very low concentrations of nutrients such as nitrates, phosphates, and organic matter, resulting in limited biological productivity.
p266i Phagotrophy
p266i Primary Productivity
Phytoplankton 2nd Ed 1989 - Arthur Donald Boney Emeritus Professor of Botany University of Glasgow
- PSU QK933.B66 1989
- pelagic zone: water column of the open ocean
p001 thallus, no organization into tissues such as vascular structure
p001 all algae contain chlorophyll a, a poor absorber of green light
p003 Red tides toxic dinoflagellates
p013 coccolith plates of calcium carbonate, perhaps protective against predation
p016 Primary production autotroph produces own food heterotroph consumes producers
- p017 Global primary production 1.4e14 to 1.8e14 kg/year dry matter, oceans only 35% of the total
why not 70%, proportional to ocean/land ratio? If land production remained the same, the total land plus ocean productivity could increase by a factor of 2.16 ... and that's before improving predation resistance and engineering new photosynthetic processes.
p018 PAR Photosynthetically active radiation
- p018 Clear winter's day light intensity 20% of summer, 10% with clouds
p019 thylakoids
p019 stroma
p019 pyrenoids
p019 phycobilin
p019 carotines
p019 xanthrophyl
- p094 Measuring Primary Productivity
Phytoplankton Productivity
Carbon assimilation in marine and freshwater ecosystems
- P.J. le B. Williams, D.N. Thomas, C.S. Reynolds . . PSU QK933 .P52 2002
- plate 7.1 Global annual net primary production
- p374 ref78 natur