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Climate Change, Rising temperatures can reduce the efficiency of enzymes…
Climate Change
Biochemistry
marine bacteria pH homeostasis - adjusts for decreased pH of oceans via mechanism of gene expression
metabolic changes
Metabolic Processes
Photosynthesis is the process by which green plants and some other organisms use sunlight to synthesize foods from carbon dioxide and water. Photosynthesis in plants generally involves the green pigment chlorophyll and generates oxygen as a byproduct.
Rising temperatures
Anemones that can acclimatize to rising ocean temperatures is the key to understanding how to apply it to other organisms
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ground-based measurements, such as those from flux towers, with satellite remote-sensing information, to provide closer to real-time monitoring of crop systems
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adaptation comes at a cost of limited energy for growth, therefore marine food chains may be disrupted.......
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ocean acidification
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oceans are expected to become 3 x more acidic by the end of the century due to the combustion of fossil fuels
Biogeochemistry: chemistry of the earth involves carbon, nitrogen, oxygen phosphorus and other minerals. - human activities such as mining and industry can change the earth's geochemistry. Biological processes and impact the geochemistry too.
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Population Dynamics
Acidification of oceans is causing widespread damage to the great barrier reef, altering many ecosystems
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Levels of picophytoplanton in Neuse river estuary drops significantly after hurricane and precipitation
Rising temperatures can reduce the efficiency of enzymes that drive photosynthesis, which affects the regulation of CO2 uptake and water loss.
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Rising temperatures can decrease electron transport rates, inhibit Rubisco activase (Rca), and decrease chlorophyll content. It can also induce membrane permeability which damages chloroplast thylakoid membranes
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