Silicon Metabolism in Diatoms: Implications for Growth

Abstract: Diatoms are the world's largest contributors to biosilicification and are one of the predominant contributors to global carbon fixation. Silicon is a major limiting nutrient for diatom growth and hence is a controlling factor in primary productivity. Because our understanding of the cellular metabolism of silicon is limited, we are not fully knowledgeable about intracellular factors that may affect diatom productivity in the oceans. The goal of this review is to present an overview of silicon metabolism in dia… Show more

“…Diatoms, commonly found throughout the ocean, produce rigid external cell walls (or exoskeletons) formed from hydrated amorphous silica and range in diameters from 10-150 μm [117,118]. Despite their often microscopic size, the sheer biomass of diatoms causes them to account for 40% of the primary production of carbon [119] and the majority of biogenic silica (silica transformed from dissolved silicate into skeletal material) [120] in the oceans.…”

“…14c) [128]. The structure of the diatom exoskeleton is controlled by the availability of the necessary nutrient: silicic acid (the naturally available silica precursor in the oceans), causing both the strength and structure to diminish when depleted [117].…”

Structure and mechanical properties of selected protective systems in marine organisms

“…Diatoms, commonly found throughout the ocean, produce rigid external cell walls (or exoskeletons) formed from hydrated amorphous silica and range in diameters from 10-150 μm [117,118]. Despite their often microscopic size, the sheer biomass of diatoms causes them to account for 40% of the primary production of carbon [119] and the majority of biogenic silica (silica transformed from dissolved silicate into skeletal material) [120] in the oceans.…”

“…14c) [128]. The structure of the diatom exoskeleton is controlled by the availability of the necessary nutrient: silicic acid (the naturally available silica precursor in the oceans), causing both the strength and structure to diminish when depleted [117].…”

Structure and mechanical properties of selected protective systems in marine organisms

“…Si uptake kinetics of the present experiment belongs to one of the three classic models of Si uptake, surge uptake (Martin-Jézéquel et al, 2000). Surge uptake occurred when intracellular Si level was very low and the maximum uptake rate could be obtained in this process (Conway and Harrison, 1977;Conway et al, 1976).…”

“…The affinity differences in Si uptake can be influenced by various types of silicic acid transporter (SIT) genes and the synthesis of higher affinity transporters (Martin-Jézéquel et al, 2000). Thamatrakoln et al (2006) pointed that there were structural differences of SITs between centrics and pennates.…”

“…Leynaert et al (2009) observed that small size phytoplankton tended to dominate in nutrient-poor water columns, whereas large size phytoplankton dominated in nutrient-rich regions. Martin-Jézéquel et al (2000) found that silicification of diatoms can be influenced by light which improves Si uptake by promoting phytoplankton growth (Xu et al, 2009). In Monterey Bay, Si uptake of algae in upwelled waters increased with the growing light intensity (Kudela, 2008).…”

The relationship between light intensity and nutrient uptake kinetics in six freshwater diatoms

Pelagic primary productivity and upper ocean nutrient dynamics across Subarctic and Arctic Seas