Nitrogen incorporation by epiphytic algae via Vallisneria natans using 15N tracing in sediment with increasing nutrient availability
[摘要] We performed a tracer experiment using the stable isotope 15N to investigate nitrogen incorporation by epiphytic algae via its host plant, Vallisneria natans, from the sediment with increasing nutrients in the water column. 15N was added as 15NH4Cl to the sediment, and its fate was traced with increasing nutrient availability in the water column and sediment. Samples of epiphytic algae and V. natans were examined for δ15N. The results indicated that with increased nitrogen and phosphorus availability in the water column, the ability of epiphytic algae and the leaves of V. natans to utilize nitrogen originating from sediment was significantly decreased (p < 0.05), while the ability of the roots of V. natans to utilize nitrogen from sediment changed very little (p > 0.05). Under the same nutrient levels in the water column, the ability of the roots and leaves of V. natans to utilize nitrogen originating from sediment was higher in high-nutrient sediment than that in low-nutrient sediment (p < 0.05), while the ability of epiphytic algae to utilize nitrogen from sediment changed very little (p > 0.05). Thus, epiphytic algae and the tissues of V. natans can be arranged with respect to their accumulated 15N as follows: epiphytic algae < leaves < roots; nitrogen incorporation by epiphytic algae originating from sediment was negligible compared to the tissues of V. natans in this experiment. This suggested that when concentrations of nitrogen and phosphorus are >1.0 and 0.1 mg l-1 in the water column, respectively, sediment as a nitrogen source is negligible for the growth of epiphytic algae.
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[效力级别] [学科分类] 生物科学(综合)
[关键词] Nitrogen incorporation;Epiphytic algae;Vallisneria natans;15N labeling;Sediment [时效性]