Transparent exopolymenrs

Biogeosciences

Iuculano, F., C.M. Duarte, N. Marbá, and S. Agustí. 2017. Seagrass as major source of transparent exopolymer particles in the oligotrophic Mediterranean coast. Biogeosciences , 14, 5069-5075, https://doi.org/10.5194/bg-14-5069-2017

Iuculano, F., C.M. Duarte, N. Marbá, and S. Agustí.
seagrass, exopolymer, oligotrophic
2017
​The role of seagrass, Posidonia oceanica, meadows as a source of transparent exopolymer particles (TEPs) to Mediterranean coastal waters was tested by comparing the TEP dynamics in two adjacent coastal waters in the oligotrophic NW Mediterranean Sea, one characterized by oligotrophic
open-sea waters and the other accumulating seagrass leaf litter, together with an experimental examination of TEP release by seagrass litter. TEP concentrations ranged from 4.6 to 90.6 μgXG (xanthan gum) Eq L-1, with mean (SE) values of 38.7 (2.02) μgXGEq L-1 in the site devoidof seagrass litter, whereas the coastal beach site accumulating leaf litter had > 10-fold mean TEP concentrations of 487.02 (72.8) μgXGEq L-1. Experimental evaluation confirmed high rates of TEP production by P. oceanica litter, allowing calculations of the associated TEP yield.
We demonstrated that P. oceanica is an important source of TEPs to the Mediterranean Sea, contributing an estimated 76 GgC as TEPs annually. TEP release by P. oceanica seagrass explains the elevated TEP concentration relative to the low chlorophyll a concentration in the Mediterranean Sea.