Small Mediterranean coastal Lagoons Under Threat: Hydro-ecological Disturbances and Local Anthropogenic Pressures (Size Matters)
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F. Huneau | P. Cecchi | V. Pasqualini | Viviana Ligorini | E. Garel | N. Malet | M. Garrido | Eléa Crayol | Louise Simon | E. Crayol | É. Garel
[1] P. Cecchi,et al. Long-term ecological trajectories of a disturbed Mediterranean coastal lagoon (Biguglia lagoon): Ecosystem-based approach and considering its resilience for conservation? , 2022, Frontiers in Marine Science.
[2] Papuga Guillaume,et al. Mediterranean Temporary Lagoon: proposal for a definition of this endangered habitat to improve its conservation , 2022, Journal for Nature Conservation.
[3] P. Cecchi,et al. Phytoplankton dynamics and bloom events in oligotrophic Mediterranean lagoons: seasonal patterns but hazardous trends , 2022, Hydrobiologia.
[4] R. Rooney,et al. Trends and predictors of wetland conversion in urbanizing environments. , 2022, Journal of environmental management.
[5] Sébastien Robresco,et al. Natural and anthropogenic dynamics of the coastal environment in northwestern Corsica (western Mediterranean) over the past six millennia , 2022, Quaternary Science Reviews.
[6] F. Doblas-Reyes,et al. Supplementary material to "The Mediterranean climate change hotspot in the CMIP5 and CMIP6 projections" , 2021, Earth System Dynamics.
[7] P. Franzoi,et al. Environmental restoration by aquatic angiosperm transplants in transitional water systems: The Venice Lagoon as a case study. , 2021, The Science of the total environment.
[8] R. De Wit,et al. Diversity of property regimes of Mediterranean coastal lagoons in S. France; implications for coastal zone management , 2021 .
[9] S. Mas,et al. Environmental drivers of plankton communities in coastal waters: the central role of temperature revealed by co-occurrence networks , 2021 .
[10] M. Ghilardi. Geoarchaeology: Where Geosciences Meet the Humanities to Reconstruct Past Human–Environment Interactions. An Application to the Coastal Areas of the Largest Mediterranean Islands , 2021, Applied Sciences.
[11] A. Zingone,et al. Toxic marine microalgae and noxious blooms in the Mediterranean Sea: A contribution to the Global HAB Status Report. , 2020, Harmful algae.
[12] A. Hyman,et al. Effects of seawater exchange on water chemistry among coastal lakes with intermittent connections to the sea , 2020 .
[13] Á. Pérez-Ruzafa,et al. Coastal lagoons in focus: Their environmental and socioeconomic importance , 2020 .
[14] A. Lugliè,et al. Ecological, morphological and molecular characterization of Kryptoperidinium sp. (Dinophyceae) from two Mediterranean coastal shallow lagoons. , 2020, Harmful algae.
[15] C. Guerra,et al. Mediterranean wetland conservation in the context of climate and land cover change , 2020, Regional Environmental Change.
[16] S. Pouvreau,et al. A box-model of carrying capacity of the Thau lagoon in the context of ecological status regulations and sustainable shellfish cultures , 2020, Ecological Modelling.
[17] H. Rey-Valette,et al. A Multidisciplinary Approach for Restoration Ecology of Shallow Coastal Lagoons, a Case Study in South France , 2020, Frontiers in Ecology and Evolution.
[18] R. Kudela,et al. Return of the “age of dinoflagellates” in Monterey Bay: Drivers of dinoflagellate dominance examined using automated imaging flow cytometry and long‐term time series analysis , 2020, Limnology and Oceanography.
[19] S. Solari,et al. Analysis of Different Protocols for the Artificial Opening of the Laguna de Rocha Inlet , 2020, Journal of Coastal Research.
[20] F. Huneau,et al. Groundwater dependent ecosystems in coastal Mediterranean regions: Characterization, challenges and management for their protection. , 2020, Water research.
[21] W. Cramer,et al. CLIMATE AND ENVIRONMENTAL CHANGE IN THE MEDITERRANEAN BASIN Current situation and risks for the future , 2020 .
[22] F. Huneau,et al. Coupling isotope hydrology, geochemical tracers and emerging compounds to evaluate mixing processes and groundwater dependence of a highly anthropized coastal hydrosystem , 2019, Journal of Hydrology.
[23] A. Sfriso,et al. Aquatic Angiosperm Transplantation: A Tool for Environmental Management and Restoring in Transitional Water Systems , 2019, Water.
[24] A. Specchiulli,et al. Mediterranean Coastal Lagoons: The Importance of Monitoring in Sediments the Biochemical Composition of Organic Matter , 2019, International journal of environmental research and public health.
[25] F. Guilhaumon,et al. Phytoplankton strategies to exploit nutrients in coastal lagoons with different eutrophication status during re-oligotrophication , 2019, Aquatic Microbial Ecology.
[26] M. Simier,et al. Water temperature drives phytoplankton blooms in coastal waters , 2019, PloS one.
[27] F. Huneau,et al. Combinations of geoenvironmental data underline coastal aquifer anthropogenic nitrate legacy through groundwater vulnerability mapping methods. , 2019, The Science of the total environment.
[28] M. Ghezzo,et al. Connectivity between coastal lagoons and sea: Asymmetrical effects on assemblages' and populations' structure , 2019, Estuarine, Coastal and Shelf Science.
[29] Cheryl L. Doughty,et al. Evaluating regional resiliency of coastal wetlands to sea level rise through hypsometry‐based modeling , 2018, Global change biology.
[30] F. Huneau,et al. Delayed nitrate dispersion within a coastal aquifer provides constraints on land-use evolution and nitrate contamination in the past. , 2018, The Science of the total environment.
[31] Subhas Chandra Mukhopadhyay,et al. Detection methods of nitrate in water: A review , 2018, Sensors and Actuators A: Physical.
[32] David P. Hamilton,et al. Modelling interactive effects of multiple disturbances on a coastal lake ecosystem: Implications for management. , 2018, Journal of environmental management.
[33] N. Davidson,et al. Mediterranean wetlands outlook 2: Solutions for sustainable Mediterranean wetlands , 2018 .
[34] A. Irwin,et al. Warming and eutrophication combine to restructure diatoms and dinoflagellates. , 2018, Water research.
[35] F. Huneau,et al. Determination of dominant sources of nitrate contamination in transboundary (Russian Federation/Ukraine) catchment with heterogeneous land use , 2017, Environmental Monitoring and Assessment.
[36] E. Sacchi,et al. Integrated socio-hydrogeological approach to tackle nitrate contamination in groundwater resources. The case of Grombalia Basin (Tunisia). , 2017, The Science of the total environment.
[37] S. García-Ayllón. Integrated management in coastal lagoons of highly complexity environments: Resilience comparative analysis for three case-studies , 2017 .
[38] S. Mitchell,et al. Influence of flushing and other characteristics of coastal lagoons using data from Ghana , 2017 .
[39] A. Sfriso,et al. Role of environmental factors in affecting macrophyte dominance in transitional environments: The Italian Lagoons as a study case , 2017 .
[40] C. Lovejoy,et al. Wind drives microbial eukaryote communities in a temperate closed lagoon , 2017 .
[41] A. Huete,et al. Groundwater Dependent Ecosystems , 2016 .
[42] Lise Maciejewski,et al. État de conservation des habitats : propositions de définitions et de concepts pour l’évaluation à l’échelle d’un site Natura 2000 , 2016, Revue d'Écologie (La Terre et La Vie).
[43] E. Berdalet,et al. Harmful Algal Blooms : A scientific summary for policy makers , 2015 .
[44] Hans W. Paerl,et al. Harmful Algal Blooms , 2015 .
[45] M. Schlüter,et al. Principles for building resilience : sustaining ecosystem services in social-ecological systems , 2015 .
[46] D. Vaulot,et al. An improved protocol for flow cytometry analysis of phytoplankton cultures and natural samples , 2014, Cytometry. Part A : the journal of the International Society for Analytical Cytology.
[47] A. Cucco,et al. Toward homogenization of Mediterranean lagoons and their loss of hydrodiversity , 2014 .
[48] B. Grami,et al. Population dynamics of potentially harmful algal blooms in Bizerte Lagoon, Tunisia , 2014 .
[49] C. Leboulanger,et al. Impact of contaminated-sediment resuspension on phytoplankton in the Biguglia lagoon (Corsica, Mediterranean Sea) , 2013 .
[50] F. Torre,et al. Resilience and stability of Cymodocea nodosa seagrass meadows over the last four decades in a Mediterranean lagoon , 2013 .
[51] A. S. Hlaili,et al. Driving factors of the potentially toxic and harmful species of Prorocentrum Ehrenberg in a semi-enclosed Mediterranean lagoon (Tunisia, SW Mediterranean) , 2013 .
[52] P. Cecchi,et al. Effects of sample conservation on assessments of the photosynthetic efficiency of phytoplankton using PAM fluorometry , 2013 .
[53] A. Camacho,et al. Functional ecological patterns and the effect of anthropogenic disturbances on a recently restored Mediterranean coastal lagoon. Needs for a sustainable restoration , 2012 .
[54] A. Brito,et al. A phytoplankton tool for water quality assessment in semi-enclosed coastal lagoons: Open vs closed regimes , 2012 .
[55] Anne Courrat,et al. Three hundred ways to assess Europe's surface waters: An almost complete overview of biological methods to implement the Water Framework Directive , 2012 .
[56] M. Álvarez-Cobelas,et al. Trade-offs in plankton species richness arising from drought: insights from long-term data of a National Park wetland (central Spain) , 2012, Biodiversity and Conservation.
[57] L. Dubroca,et al. Marine diatoms sustain growth of bivalves in a Mediterranean lagoon , 2012 .
[58] N. Tanaka,et al. Impact of rubble mound groyne structural interventions in restoration of Koggala lagoon, Sri Lanka; numerical modelling approach , 2011 .
[59] Chris J. Kennedy,et al. The value of estuarine and coastal ecosystem services , 2011 .
[60] M. Carić,et al. Phytoplankton response to high salinity and nutrient limitation in the eastern Adriatic marine lakes , 2011 .
[61] A. Fiandrino,et al. Distribution of picophytoplankton and nanophytoplankton along an anthropogenic eutrophication gradient in French Mediterranean coastal lagoons , 2011 .
[62] Á. Pérez-Ruzafa,et al. Mediterranean coastal lagoons in an ecosystem and aquatic resources management context , 2011 .
[63] M. Losada,et al. Morphodynamics of intermittent coastal lagoons in Southern Spain: Zahara de los Atunes , 2010 .
[64] J. Downing,et al. Emerging global role of small lakes and ponds: little things mean a lot , 2010, Limnetica.
[65] P. Tréguer,et al. Climate-driven changes in coastal marine systems of western Europe , 2010 .
[66] B. Béjaoui,et al. Seasonal phytoplankton responses to environmental factors in a shallow Mediterranean lagoon , 2010 .
[67] Gustaaf M. Hallegraeff,et al. OCEAN CLIMATE CHANGE, PHYTOPLANKTON COMMUNITY RESPONSES, AND HARMFUL ALGAL BLOOMS: A FORMIDABLE PREDICTIVE CHALLENGE 1 , 2010 .
[68] V. Smith,et al. Patterns in nutrient limitation and chlorophyll a along an anthropogenic eutrophication gradient in French Mediterranean coastal lagoons , 2010 .
[69] S. Larned,et al. Contrasting effects of managed opening regimes on water quality in two intermittently closed and open coastal lakes , 2010 .
[70] D. Angeler,et al. Phytoplankton community similarity in a semiarid floodplain under contrasting hydrological connectivity regimes , 2010, Ecological Research.
[71] R. Hobbs,et al. Novel ecosystems: implications for conservation and restoration. , 2009, Trends in ecology & evolution.
[72] A. Baxevanis,et al. Potentially toxic epiphytic Prorocentrum (Dinophyceae) species in Greek coastal waters. , 2009 .
[73] C. Jauzein,et al. Oligotrophication and emergence of picocyanobacteria and a toxic dinoflagellate in Thau lagoon, southern France , 2009 .
[74] J. Lloret,et al. Is coastal lagoon eutrophication likely to be aggravated by global climate change , 2008 .
[75] M. Niedda,et al. Tidal, seiche and Wind Dynamics in a Small Lagoon in the Mediterranean Sea , 2007 .
[76] M. Hoppenrath,et al. Marine Phytoplankton. Selected microphytoplankton species from the North Sea around Helgoland and Sylt , 2007 .
[77] S. Tuncel,et al. A case study on trace metals in surface sediments and dissolved inorganic nutrients in surface water of Olüdeniz Lagoon-Mediterranean, Turkey. , 2007, Water research.
[78] A. Newton,et al. Boundary conditions for the European Water Framework Directive in the Ria Formosa lagoon, Portugal (physico-chemical and phytoplankton quality elements) , 2006 .
[79] Brian Walker,et al. A handful of heuristics and some propositions for understanding resilience in social-ecological systems , 2006 .
[80] S. Goldberg. Geochemistry, Groundwater and Pollution , 2006 .
[81] F. Barros,et al. Spatial patterns of macrofaunal assemblages in intermittently closed/open coastal lakes in New South Wales, Australia , 2005 .
[82] N. Garcia,et al. Response of coastal phytoplankton to ammonium and nitrate pulses: seasonal variations of nitrogen uptake and regeneration , 2003, Aquatic Ecology.
[83] J. Cloern. The relative importance of light and nutrient limitation of phytoplankton growth: a simple index of coastal ecosystem sensitivity to nutrient enrichment , 1999, Aquatic Ecology.
[84] A. Ovalle,et al. Effects of sand bar openings on some limnological variables in a hypertrophic tropical coastal lagoon of Brazil , 1998, Hydrobiologia.
[85] D. Sarno,et al. Phytoplankton biomass and species composition in a Mediterranean coastal lagoon , 1993, Hydrobiologia.
[86] J. Lund,et al. The inverted microscope method of estimating algal numbers and the statistical basis of estimations by counting , 1958, Hydrobiologia.
[87] G. Wikfors. A Taxonomic Guide to Some Common Marine Phytoplankton , 2003 .
[88] V. Smith. Eutrophication of freshwater and coastal marine ecosystems a global problem , 2003, Environmental science and pollution research international.
[89] C. Rocha,et al. Role of transient silicon limitation in the development of cyanobacteria blooms in the Guadiana estuary, south-western Iberia , 2002 .
[90] J. Cloern. Our evolving conceptual model of the coastal eutrophication problem , 2001 .
[91] Other. Directive 2000/60/EC of the European Parliament and of The Council of 23 October 2000 establishing a Framework for Community Action in the Field of Water Policy (Water Framework Directive) , 2000 .
[92] Roger Kerouel,et al. A simple and precise method for measuring ammonium in marine and freshwater ecosystems , 1999 .
[93] V. Smith,et al. Eutrophication: impacts of excess nutrient inputs on freshwater, marine, and terrestrial ecosystems. , 1999, Environmental pollution.
[94] T. Smayda,et al. Harmful algal blooms: Their ecophysiology and general relevance to phytoplankton blooms in the sea , 1997 .
[95] A. Crivelli,et al. Characteristics of Mediterranean wetlands , 1994 .
[96] B. Kjerfve. Coastal Lagoon Processes , 1994 .
[97] Jacques Neveux,et al. Spectrofluorometric assay of chlorophylls and phaeopigments using the least squares approximation technique , 1993 .
[98] D. C. Hillman,et al. The evaluation and comparison of ion chromatography, segmented flow analysis and flow injection analysis for the determination on nitrate in natural surface waters , 1989 .
[99] A. Sournia. Atlas du phytoplancton marin , 1986 .
[100] M. Brzezinski,et al. THE Si:C:N RATIO OF MARINE DIATOMS: INTERSPECIFIC VARIABILITY AND THE EFFECT OF SOME ENVIRONMENTAL VARIABLES 1 , 1985 .
[101] G. Ozolins,et al. WHO guidelines for drinking-water quality. , 1984, WHO chronicle.
[102] H. Caspers. Uehlinger, Verena: Étude statistique des méthodes de dénombrement planctonique. Archives des Sciences, Soc. de Phys. et d'Hist. nat. de Genève, Vol. 17, fasc. 2, 1964: 121–233 , 1965 .
[103] F. A. Richards,et al. The influence of organisms on the composition of sea-water , 1963 .
[104] H. Utermöhl. Zur Vervollkommnung der quantitativen Phytoplankton-Methodik , 1958 .