0000000000824860

AUTHOR

Marco Bartoli

showing 2 related works from this author

Seasonal cycle of benthic denitrification and DNRA in the aphotic coastal zone, northern Baltic Sea

2020

Current knowledge on the seasonality of benthic nitrate reduction pathways in the aphotic, density stratified coastal zone of the Baltic Sea is largely based on data from muddy sediments, neglecting the potential contribution of sandy sediments. To gain a more comprehensive understanding of seasonality in this part of the Baltic Sea coast, we measured rates of benthic denitrification, anammox and dissimilatory nitrate reduction to ammonium (DNRA) monthly in the ice-free period of 2016 in both sandy and muddy aphotic sediments, northwestern Gulf of Finland. No anammox was observed. The seasonal cycle of denitrification in both sediment types was related to the hydrography-driven development …

0106 biological sciencesDenitrification010504 meteorology & atmospheric sciencesMARINE-SEDIMENTSFIXED-NITROGENsedimentitANAMMOX01 natural scienceswater column density stratificationCoastal zoneorganic matterNUTRIENT FLUXESEcologykausivaihtelutnitraatitWater column density stratificationOceanographyBenthic zoneOrganic matterorgaaninen ainesSeasonal cycledenitrifikaatioSandy sedimentrannikkoalueetDISSIMILATORY NITRATE REDUCTIONNutrient fluxAquatic ScienceNITRIFICATIONNitrate reduction14. Life underwaterCoastal filter1172 Environmental sciencesEcology Evolution Behavior and Systematics0105 earth and related environmental sciencesbenthic−pelagic coupling010604 marine biology & hydrobiologyGeomorphologyISOTOPE PAIRING TECHNIQUENorthern Gulf of FinlandBenthic-pelagic couplingAMMONIUMgeomorphologysandy sedimentESTUARINE SEDIMENTNITROGEN REMOVALnitrate reductionBaltic sea13. Climate actionAphotic zonecoastal filteraineiden kiertoEnvironmental scienceNitrificationMarine Ecology Progress Series
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Economic modelling as a tool to support macroalgal bloom management: a case study (Sacca di Goro, Po river delta)

2003

During the last 20, years, intensive mollusk farming has been developed in coastal waters, mostly in sheltered bays and lagoons. Often, mollusk stocks are threatened by frequent anoxic events from macroalgal blooms. Here, a decision support tool is described to select the optimal short-term strategy to control algal biomasses. Even though long-term and detailed studies of the lagoon systems are required to provide reliable, biologically based policies, we have here developed a simplified analysis that overlooks most of the ecological complexity, but explicitly includes environmental variability and uncertainty in parameter estimation in the economic assessment of the performances of differe…

0106 biological sciences010501 environmental sciencesAquatic Sciencealgal bloom managementOceanography01 natural sciencesAquaculture14. Life underwaterGestion d'une floraison macroalgalebioeconomic analysis0105 earth and related environmental sciencesBiomass (ecology)geographyRiver deltageography.geographical_feature_categorybusiness.industryEcologyIntensive farming010604 marine biology & hydrobiologyAnalyse bio-économiqueUlva rigidaAnoxic watersModélisation stochastiqueFisheryTapes philippinarumAgricultureThreatened speciesEnvironmental sciencestochastic modellingbusinessBloomOceanologica Acta
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