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Advisor(s)
Abstract(s)
The invasive seaweed Rugulopteryx okamurae, native to East Asia, is spreading rapidly along the western Mediterranean and southern Portugal, severely affecting coastal biodiversity, ecosystem structure, and economic sectors such as fisheries and tourism. This study examined the nutrient up-take kinetics of R. ok amurae, including ammonium, nitrate, urea, amino acids, and phosphate, and their role in nitrogen and phosphorus budgets based on laboratory growth rates. R. ok amurae demonstrated the highest uptake for ammonium (Vmax = 57.95 μmol · g −1 DW · h −1), followed by urea (7.74 μmol · g −1DW · h −1), nitrate (5.37 μmol · g −1 DW · h −1), and amino acids (3.71 μmol · g −1DW · h −1). The species showed higher uptake affinity for urea (α = 1.8), which accounted for 70% of nitrogen uptake. Phosphate uptake was low, and total nitrogen uptake exceeded growth requirements. These findings suggest that R. okamurae relies on organic nitrogen (urea) and may guide toward effective management strategies to mitigate its spread in coastal ecosystems.
Description
Keywords
Inorganic Nitrogen Invasive Species Organic Nitrogen Phosphorus Rugulopteryx Okamurae Urea
Citation
Publisher
Wiley
CC License
Without CC licence