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CARBON FIXATION AS BLUE CARBON AND CARBON SEQUESTRATION BY SEAGRASS AND…
CARBON FIXATION AS BLUE CARBON AND CARBON SEQUESTRATION BY SEAGRASS AND SEAWEED
CARBON FIXATION & SEQUESTRATION
INVOLVES CALVIN CYCLE
LONG TERM CARBON STORAGE
CARBON FIXATION IN SEAGRASS
BELOW GROUND AS ROOTS AND RHIZOMES
DECOMPOSES SLOWLY
AMOUNTS OF CHLOROPHYLL a PER UNIT OF TISSUE WEIGHT DECREASE WITH LEAF THICKNESS
IRRADIANCE LEVELS INCREASE, RATES OF CARBON FIXATION INCREASE UNTIL THE LIGHT SATURATION POINT IS REACHED
AT SATURATION LIGHT LEVELS CARBON FIXATION MAY EXCEED RESPIRATORY CARBON CONSUMPTION AROUND 5 TIMES
FUNCTIONAL EQUILIBRIUM
REDUCE THE MAINTENANCE COSTS OF THE NONPHOTOSYNTHETIC TISSUES
PROFIT FROM BELOWGROUND BIOMASS
MECHANISMS OF FIXATION & SEQUESTRATION
SEAGRASS IS C3 PLANT SO IT RELY ON RUBISCO ENZYME IN CALVIN CYCLE
SEDIMENT INPUTS
ALLOCHTHONOUES CARBON
AUTOCHTHONOUS CARBON
WHAT IS FIXATION & SEQUESTRATION
DIMINISH THE RELEASE OF CARBON DIOXIDE INTO ATMOSPHERE AND HELP REDUCE GLOBAL WARMING
CONVERT INORGANIC CARBON TO ORGANIC CARBON AND STORE IT
SEQUESTRATION RATES IN SEAGRASS
AVERAGE 220.7-20.1 gram carbon organic meter square per year
MEDIAN 164.4 gram carbon organic meter square per year
RANGE VALUE FROM 2094 TO 2124 gram carbon organic meter square per year
FACTORS INFLUENCING SEQUESTRATION
SHADING
GRAZING RATE
EUTROPHICATION
HIGH INTENSITY DISTURBANCES
CARBON SEQUESTRATION IN SEAWEED/KELP FOREST
INCREMENTAL BLADE EROSION
CONTAIN CARBON RESISTANT
CARBON SEQUESTRATION IN SEAGRASS
MAY BE SEASONAL
IN SUMMER SEAGRASS AT MAXIMUM DENSITY
IN WINTER RESUSPENSION GREATER THAN ACCUMULATION
EPIPHYTES FOSTER ACCUMULATION OF SEDIMENT
INCREASE THICKNESS BOUNDARY LAYER ON LEAF
MAY NOT APPLY IN HIGHLY EXPOSED WAVE LOCATIONS
STORED IN PLANT TISSUE, ROOTS AND SEDIMENT
UNDERESTIMATED DUE TO EXPORT OF THEIR PRIMARY PRODUCTION IN DISSOLVED AND PARTICULATE FORM