Bostrychia scorpioides (Rhodophyta: Ceramiales) and Catenella caespitosa (Rhodophyta: Gigartinales) were segregated but slightly overlapping in the narrow intertidal of the Palmones River Estuary (Southern Spain). This study investigated whether there were interspecific differences in nutrient uptake capabilities and how meaningful these were to zonation. Uptake kinetics of ammonium, nitrate, and phosphate were measured over successive time intervals across a range of environmentally realistic concentrations. The interactions between ammonium and nitrate in mixed N source uptake were also tested. Using internal N and P content, turnover rates were calculated for each species for periods of emersion and submersion. Nutrient uptake kinetics were saturable for almost all nutrients except for ammonium in B. scorpioides, which showed surge uptake responses through linear kinetics. V-max and affinity progressively decreased over 3 h for all nutrients in C. caespitosa and only for phosphate in B. scorpioides. At high dissolved inorganic nitrogen concentrations both species exhibited greater uptake rates for ammonium than nitrate; although, similar N uptake rates were obtained at the low ones. Ammonium contributed to the total N uptake in B. scorpioides to a greater extent; whereas, in C. caespitosa, this only occurred at high N concentrations. In mixed N source uptake experiments, ammonium and nitrate uptake rates by B. scorpioides decreased when the other N source was equimolarly supplied, while in C. caespitosa these interactions were absent. Catenella caespitosa showed a V-max and affinity for phosphate fourfold higher than for B. scorpioides, with greater interspecific differences than those found for N uptake. Catenella caespitosa renewed internal nutrients faster and was more dependent on the external nutrient supply than B. scorpioides, which can withstand longer periods without nutrient supply due to its slower nutrient turnover rate. Different capabilities for nutrient acquisition in the two species suggested an adaptation to the nutrient availability at each intertidal position.

• 出版日期2013-11