PLoS ONE, ISSN 1932-6203, 02/2014, Volume 9, Issue 2, p. e88308
Increasing atmospheric CO2 concentrations are expected to impact pelagic ecosystem functioning in the near future by driving ocean warming and acidification....
Organic carbon | Temperature | Physiological effects | Carbon dioxide | Acidification | Environmental changes | Oceanography | Experiments | Synergistic effects | Plankton | Temperature effects | Physiology | Species | Seawater | Cell division | Carbon | Environmental impact | Biogeochemistry | Sensitivity | Fixation | Calcification | Marine ecosystems | Alkalinity | Photosynthesis | Carbon fixation
Organic carbon | Temperature | Physiological effects | Carbon dioxide | Acidification | Environmental changes | Oceanography | Experiments | Synergistic effects | Plankton | Temperature effects | Physiology | Species | Seawater | Cell division | Carbon | Environmental impact | Biogeochemistry | Sensitivity | Fixation | Calcification | Marine ecosystems | Alkalinity | Photosynthesis | Carbon fixation
Journal Article
PLOS ONE, ISSN 1932-6203, 02/2014, Volume 9, Issue 2, p. e88308
Increasing atmospheric CO2 concentrations are expected to impact pelagic ecosystem functioning in the near future by driving ocean warming and acidification....
PLANKTON | RESPONSES | BLOOMS | SATELLITE | EMILIANIA-HUXLEYI PRYMNESIOPHYCEAE | BERING-SEA | ORGANIC-CARBON | MULTIDISCIPLINARY SCIENCES | CO2 | CHEMISTRY | GEPHYROCAPSA-OCEANICA | Temperature | Carbon Dioxide - metabolism | Seawater - analysis | Calcification, Physiologic | Haptophyta - physiology | Seawater - chemistry | Carbon Dioxide - analysis | Photosynthesis
PLANKTON | RESPONSES | BLOOMS | SATELLITE | EMILIANIA-HUXLEYI PRYMNESIOPHYCEAE | BERING-SEA | ORGANIC-CARBON | MULTIDISCIPLINARY SCIENCES | CO2 | CHEMISTRY | GEPHYROCAPSA-OCEANICA | Temperature | Carbon Dioxide - metabolism | Seawater - analysis | Calcification, Physiologic | Haptophyta - physiology | Seawater - chemistry | Carbon Dioxide - analysis | Photosynthesis
Journal Article
PLoS ONE, ISSN 1932-6203, 02/2014, Volume 9, Issue 2, p. e88308
Journal Article
Biogeosciences, ISSN 1726-4170, 2013, Volume 10, Issue 1, pp. 161 - 180
Ocean acidification and carbonation, driven by anthropogenic emissions of carbon dioxide (CO2), have been shown to affect a variety of marine organisms and are...
CO2 CONCENTRATION | CHLOROPHYLL-A | GEOSCIENCES, MULTIDISCIPLINARY | TEMPERATURE | ORGANIC-CARBON | ECOLOGY | MESOCOSM EXPERIMENT | SEAWATER | MARINE-PHYTOPLANKTON | SEA | PHYTOPLANKTON COMMUNITY STRUCTURE | OCEAN ACIDIFICATION | Mesocosms | Analysis | Closed ecological systems | Calcium carbonate | Calcite crystals | Ocean acidification | Atmospheric carbon dioxide
CO2 CONCENTRATION | CHLOROPHYLL-A | GEOSCIENCES, MULTIDISCIPLINARY | TEMPERATURE | ORGANIC-CARBON | ECOLOGY | MESOCOSM EXPERIMENT | SEAWATER | MARINE-PHYTOPLANKTON | SEA | PHYTOPLANKTON COMMUNITY STRUCTURE | OCEAN ACIDIFICATION | Mesocosms | Analysis | Closed ecological systems | Calcium carbonate | Calcite crystals | Ocean acidification | Atmospheric carbon dioxide
Journal Article
Photosynthesis Research, ISSN 0166-8595, 9/2011, Volume 109, Issue 1, pp. 269 - 279
Inorganic carbon can be in short supply in freshwater relative to that needed by freshwater plants for photosynthesis because of a large external transport...
Biochemistry, general | CO 2 | Elodeids | Plant Physiology | Plant Genetics & Genomics | Acclimation | Life Sciences | Macrophytes | Isoetids | Carbon-concentrating mechanism (CCM) | Regulation | Inorganic carbon | Plant Sciences | L ASCHERS | CO2 | PHOSPHOENOLPYRUVATE CARBOXYLASE | ASSIMILATION | CAM | CO2 UPTAKE | PLANT SCIENCES | PHOTOSYNTHETIC CHARACTERISTICS | LITTORELLA-UNIFLORA L | GAS-EXCHANGE | AQUATIC PLANT | Carbon - metabolism | Temperature | Carbon Dioxide - metabolism | Crassulaceae - chemistry | Acclimatization | Aquatic Organisms - physiology | Oxygen - metabolism | Crassulaceae - metabolism | Plants - metabolism | Biological Transport | Decarboxylation | Light | Photosynthesis - physiology | Bicarbonates - metabolism | Carbon Cycle - physiology | Fresh Water | Plant Physiological Phenomena | Aquatic Organisms - metabolism | Physiological aspects | Carbonates | Photosynthesis | Phytochemistry | Sediments (Geology) | Freshwater resources | Flowers & plants | Acids | Metabolism | Carbon
Biochemistry, general | CO 2 | Elodeids | Plant Physiology | Plant Genetics & Genomics | Acclimation | Life Sciences | Macrophytes | Isoetids | Carbon-concentrating mechanism (CCM) | Regulation | Inorganic carbon | Plant Sciences | L ASCHERS | CO2 | PHOSPHOENOLPYRUVATE CARBOXYLASE | ASSIMILATION | CAM | CO2 UPTAKE | PLANT SCIENCES | PHOTOSYNTHETIC CHARACTERISTICS | LITTORELLA-UNIFLORA L | GAS-EXCHANGE | AQUATIC PLANT | Carbon - metabolism | Temperature | Carbon Dioxide - metabolism | Crassulaceae - chemistry | Acclimatization | Aquatic Organisms - physiology | Oxygen - metabolism | Crassulaceae - metabolism | Plants - metabolism | Biological Transport | Decarboxylation | Light | Photosynthesis - physiology | Bicarbonates - metabolism | Carbon Cycle - physiology | Fresh Water | Plant Physiological Phenomena | Aquatic Organisms - metabolism | Physiological aspects | Carbonates | Photosynthesis | Phytochemistry | Sediments (Geology) | Freshwater resources | Flowers & plants | Acids | Metabolism | Carbon
Journal Article
Photosynthesis Research, ISSN 0166-8595, 9/2012, Volume 112, Issue 3, pp. 163 - 173
The seasonal temperature acclimation in crassulacean acid metabolism (CAM) and photosynthetic performance were investigated in the aquatic isoetid, Littorella...
Life Sciences | Biochemistry, general | Macrophyte | Plant Physiology | Crassulacean acid metabolism (CAM) | Photosynthesis | Season | Plant Sciences | Plant Genetics & Genomics | Acclimation | Temperature ( Q 10 ) | Temperature (Q | L ASCHERS | CAM-PLANT | PHOSPHOENOLPYRUVATE CARBOXYLASE | FRESH-WATER MACROPHYTES | PLANT SCIENCES | Temperature (Q) | INTERNAL CO2 | TEMPERATURE | PHOTOSYNTHETIC CHARACTERISTICS | LACUSTRIS L | INORGANIC CARBON | LOBELIA-DORTMANNA | Plant Shoots - physiology | Carbon - metabolism | Temperature | Plantago - radiation effects | Plant Shoots - radiation effects | Plant Leaves - radiation effects | Chlorophyll - metabolism | Plant Roots - physiology | Plantago - physiology | Light | Photosynthesis - physiology | Plantago - metabolism | Seasons | Plant Leaves - physiology | Plant Roots - radiation effects | Acclimatization - physiology | Physiological aspects | Phytochemistry | Plant biology | Metabolism | Habitats | Aquatic plants
Life Sciences | Biochemistry, general | Macrophyte | Plant Physiology | Crassulacean acid metabolism (CAM) | Photosynthesis | Season | Plant Sciences | Plant Genetics & Genomics | Acclimation | Temperature ( Q 10 ) | Temperature (Q | L ASCHERS | CAM-PLANT | PHOSPHOENOLPYRUVATE CARBOXYLASE | FRESH-WATER MACROPHYTES | PLANT SCIENCES | Temperature (Q) | INTERNAL CO2 | TEMPERATURE | PHOTOSYNTHETIC CHARACTERISTICS | LACUSTRIS L | INORGANIC CARBON | LOBELIA-DORTMANNA | Plant Shoots - physiology | Carbon - metabolism | Temperature | Plantago - radiation effects | Plant Shoots - radiation effects | Plant Leaves - radiation effects | Chlorophyll - metabolism | Plant Roots - physiology | Plantago - physiology | Light | Photosynthesis - physiology | Plantago - metabolism | Seasons | Plant Leaves - physiology | Plant Roots - radiation effects | Acclimatization - physiology | Physiological aspects | Phytochemistry | Plant biology | Metabolism | Habitats | Aquatic plants
Journal Article
Biogeosciences Discussions, ISSN 1810-6285, 09/2012, Volume 9, Issue 9, pp. 12543 - 12592
Ocean acidification and carbonation, driven by anthropogenic emissions of carbon dioxide (CO2), have been shown to affect a variety of marine organisms and are...
Journal Article
Functional Plant Biology, ISSN 1445-4408, 07/2010, Volume 37, Issue 8, pp. 737 - 747
Crassula helmsii (T. Kirk) Cockayne is an invasive aquatic plant in Europe that can suppress many native species because it can grow at a large range of...
Journal Article
Freshwater Biology, ISSN 0046-5070, 01/2009, Volume 54, Issue 1, pp. 105 - 118
Journal Article
Functional Plant Biology, ISSN 1445-4408, 2010, Volume 37, Issue 8, pp. 737 - 747
Crassula helmsii (T. Kirk) Cockayne is an invasive aquatic plant in Europe that can suppress many native species because it can grow at a large range of...
bicarbonate uptake | Crassulacean acid metabolism | freshwater macrophyte | photosynthesis | acclimation | CLUSIA-MINOR L | FRESH-WATER MACROPHYTES | ACID METABOLISM | PLANT SCIENCES | INTERNAL CO2 | UNIFLORA L ASCHERS | SEASONAL-CHANGES | LITTORELLA-UNIFLORA | GAS-EXCHANGE | CONCENTRATING MECHANISMS
bicarbonate uptake | Crassulacean acid metabolism | freshwater macrophyte | photosynthesis | acclimation | CLUSIA-MINOR L | FRESH-WATER MACROPHYTES | ACID METABOLISM | PLANT SCIENCES | INTERNAL CO2 | UNIFLORA L ASCHERS | SEASONAL-CHANGES | LITTORELLA-UNIFLORA | GAS-EXCHANGE | CONCENTRATING MECHANISMS
Journal Article
Freshwater Biology, ISSN 0046-5070, 01/2009, Volume 54, Issue 1, pp. 105 - 118
Summary 1. The ecophysiological significance of Crassulacean acid metabolism (CAM) in the invasive aquatic macrophyte Crassula helmsii was studied in an...
depth gradient | light | photosynthesis | carbon concentrating mechanism | inorganic carbon | Carbon concentrating mechanism | Inorganic carbon | Photosynthesis | Depth gradient | Light | CO2 | FRESH-WATER MACROPHYTES | CAM | MARINE & FRESHWATER BIOLOGY | GROWTH | PLANTS | LITTORELLA-UNIFLORA | PHOTOSYNTHETIC RESPONSES | UNIFLORA L ASCHERSON | Hydrology | Physiological aspects | Budget | Ecology | Research
depth gradient | light | photosynthesis | carbon concentrating mechanism | inorganic carbon | Carbon concentrating mechanism | Inorganic carbon | Photosynthesis | Depth gradient | Light | CO2 | FRESH-WATER MACROPHYTES | CAM | MARINE & FRESHWATER BIOLOGY | GROWTH | PLANTS | LITTORELLA-UNIFLORA | PHOTOSYNTHETIC RESPONSES | UNIFLORA L ASCHERSON | Hydrology | Physiological aspects | Budget | Ecology | Research
Journal Article
Aquatic Botany, ISSN 0304-3770, 2008, Volume 89, Issue 1, pp. 50 - 56
In this study the effect of ontogenetic drift on crassulacean acid metabolism (CAM) was investigated in the aquatic CAM-isoetid . The results of this study...
Crassulacean acid metabolism | Ontogeny | Littorella uniflora | Inorganic carbon | Carbon-conserving mechanism (CCM) | Oligotrophic lake | AQUATIC PLANTS | carbon-conserving mechanism (CCM) | L ASCHERS | CARBOXYLASE ACTIVITY | CO2 | LEAVES | LIGHT | crassulacean acid metabolism | oligotrophic lake | ontogeny | FRESH-WATER MACROPHYTES | PLANT SCIENCES | MARINE & FRESHWATER BIOLOGY | GAS-EXCHANGE | PHOTOSYNTHESIS | inorganic carbon
Crassulacean acid metabolism | Ontogeny | Littorella uniflora | Inorganic carbon | Carbon-conserving mechanism (CCM) | Oligotrophic lake | AQUATIC PLANTS | carbon-conserving mechanism (CCM) | L ASCHERS | CARBOXYLASE ACTIVITY | CO2 | LEAVES | LIGHT | crassulacean acid metabolism | oligotrophic lake | ontogeny | FRESH-WATER MACROPHYTES | PLANT SCIENCES | MARINE & FRESHWATER BIOLOGY | GAS-EXCHANGE | PHOTOSYNTHESIS | inorganic carbon
Journal Article
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