(A) Micro-phytoplankton and (B) Nano-phytoplankton densities (Mean ± SD) from surface and bottom waters in aeration canal (A1, A2), control canal (C1, C2) and Grand canal (CM, AM) in different months.</p
Estuaries are important ecosystems which are affected by a large range of environmental factors. It ...
<p>(A) Chlorophyll <i>a</i> concentrations from HPLC analysis in μg L<sup>-1</sup> at low (blue) and...
Supplementary Material of the article "Multi-scale temporal variation of marine femtoplankton and pi...
(A) Surface water micro-phytoplankton, (B) surface water nano-phytoplankton, (C) bottom water micro-...
Two-dimensional nMDS ordination plots of surface vs. bottom planktonic assemblages in aeration canal...
The dynamics of phytoplankton size structure were investigated in the freshwater, transitional and e...
<p>Annual cycle of mean abundances of the (A) Nanoplankton and (B) Microphytoplankton during SP (bla...
<p>(A) in marine coastal (CW) and transitional waters (TW) across the full size spectra (A); in the ...
<p>Top panel: The relative contribution of each of the five main phytoplankton groups in the WAP reg...
The Academy of Natural Sciences' Benedict Estuarine Research Laboratory has been responsible for mea...
The seasonal and inter-annual concentrations of phytoplankton were studied over a 50 month period in...
The contribution of three different cell size classes of picoplankton: 0.74-2 μm, nanoplankton:2–20 ...
Surface water (A) Aureoumbra lagunensis cell densities, (B) ammonium concentrations and (C) DO (%) i...
AbstractIn two reservoirs of different trophic state, the abundance of autotrophic picoplankton was ...
Rates of microzooplankton grazing and phytoplankton growth are seldom measured with respect to time,...
Estuaries are important ecosystems which are affected by a large range of environmental factors. It ...
<p>(A) Chlorophyll <i>a</i> concentrations from HPLC analysis in μg L<sup>-1</sup> at low (blue) and...
Supplementary Material of the article "Multi-scale temporal variation of marine femtoplankton and pi...
(A) Surface water micro-phytoplankton, (B) surface water nano-phytoplankton, (C) bottom water micro-...
Two-dimensional nMDS ordination plots of surface vs. bottom planktonic assemblages in aeration canal...
The dynamics of phytoplankton size structure were investigated in the freshwater, transitional and e...
<p>Annual cycle of mean abundances of the (A) Nanoplankton and (B) Microphytoplankton during SP (bla...
<p>(A) in marine coastal (CW) and transitional waters (TW) across the full size spectra (A); in the ...
<p>Top panel: The relative contribution of each of the five main phytoplankton groups in the WAP reg...
The Academy of Natural Sciences' Benedict Estuarine Research Laboratory has been responsible for mea...
The seasonal and inter-annual concentrations of phytoplankton were studied over a 50 month period in...
The contribution of three different cell size classes of picoplankton: 0.74-2 μm, nanoplankton:2–20 ...
Surface water (A) Aureoumbra lagunensis cell densities, (B) ammonium concentrations and (C) DO (%) i...
AbstractIn two reservoirs of different trophic state, the abundance of autotrophic picoplankton was ...
Rates of microzooplankton grazing and phytoplankton growth are seldom measured with respect to time,...
Estuaries are important ecosystems which are affected by a large range of environmental factors. It ...
<p>(A) Chlorophyll <i>a</i> concentrations from HPLC analysis in μg L<sup>-1</sup> at low (blue) and...
Supplementary Material of the article "Multi-scale temporal variation of marine femtoplankton and pi...
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