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Dissolved nitrogen uptake in the inner bay of Cadiz (Spain)Effect of nutrient availability on carbon and nitrogen incorporation and flows through benthic algae and bacteria in near-shore sandy sedimentStudying undisturbed autotrophic biofilms: still a technical challengeFate of macroalgae in benthic systems: Carbon and nitrogen cycling within the microbial communityNitrogen incorporation and retention by bacteria, algae, and fauna in a subtropical, intertidal sediment: An in situ 15N-labeling studyCarbon and nitrogen dynamics in shallow photic systems: Interactions between macroalgae, microalgae, and bacteriaDevelopment and application of a sediment toxicity test using the benthic cladoceran Chydorus sphaericusLong-term pigment dynamics and diatom survival in dark sedimentTracing carbon and nitrogen incorporation and pathways in the microbial community of a photic subtidal sandAnalysis of 15N incorporation into D-alanine: a new method for tracing nitrogen uptake by bacteriaFate of peptidoglycan in an intertidal sediment: an in situ 13C-labeling studyMicrobial uptake of dissolved organic and inorganic nitrogen in Randers FjordIncorporation of nitrogen from amino acids and urea by benthic microbes: role of bacteria versus algae and coupled incorporation of carbonFate of microbial nitrogen, carbon, hydrolysable amino acids, monosaccharides, and fatty acids in sedimentUPDATE of Analysis of 15N incorporation into D-alanine: A new method for tracing nitrogen uptake by bacteria (Veuger et al. 2005, Limnology and Oceanography Methods 3: 230-240)Kleptoplasts mediate nitrogen acquisition in the sea slug Elysia viridisDissolved organic matter uptake by temperate macrophytesDivergent composition of algal-bacterial biofilms developing under various external factorsA new method for tracing flows of nitrogen and carbon through bacteria and algae in aquatic microbial communities: Analysis of 15N- and 13C-incorporation into D-alanine and other hydrolysable amino acidsLong-term 15N-nitrogen retention in tidal freshwater marsh sediment: Elucidating the microbial contribution