3 research outputs found

    ISOTOPIC FRACTIONATION DURING CELLULOSE SYNTHESIS IN 2 MANGROVE SPECIES - SALINITY EFFECTS

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    Carbon, non-exchangeable hydrogen, and oxygen isotope ratios of cellulose of Avicennia germinans and Rhizophora mangle plants hydroponically grown under different salinities (0, 18, 45% sea water, but with irrigation waters having the same isotopic ratios) were measured to determine the possibility of using isotopic ratios of plant tissues as biological recorders of sea level rise. There was a large variability in the delta-D values of leaf nitrated cellulose between different treatments and even within a single treatment for both A. germinans and R. mangle. Thus, delta-D values of non-exchangeable hydrogens of cellulose cannot be used as a historical tracer for utilization of ocean water or freshwater by mangroves. In contrast, delta-O-18 values of cellulose were not significantly different between different salinity treatments for both mangroves, indicating that delta-O-18 of cellulose can be used as a sea water tracer. Delta-C-13 values of cellulose did not vary directly with salinity as has been observed with other plants. Delta-C-13 values of cellulose from A. germinans were the lowest for plants growing at 18% sea water, with cellulose from plants growing in 0 and 45% sea water having significantly higher delta-C-13 values. delta-C-13 values of cellulose from R. mangle were the highest for plants grown in 45% sea water, with plants grown in 0 and 18% sea water having equally lower delta-C-13 values

    Evolution of mangrove research in an extreme environment: Historical trends and future opportunities in Arabia

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