Open Journal of Marine Science

Open Journal of Marine Science

ISSN Print: 2161-7384
ISSN Online: 2161-7392
www.scirp.org/journal/ojms
E-mail: ojms@scirp.org
"Effect of Salinity on Growth of Mussels, Mytilus edulis, with Special Reference to Great Belt (Denmark)"
written by Hans Ulrik Riisgård, Line Bøttiger, Daniel Pleissner,
published by Open Journal of Marine Science, Vol.2 No.4, 2012
has been cited by the following article(s):
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[1] Assessment of uncertain alternatives for co-located aquaculture and offshore wind farm in tasmania
Ocean …, 2022
[2] Combined effects of salinity and trematode infections on the filtration capacity, growth and condition of mussels
Marine Ecology …, 2022
[3] Feeding physiology of suspension-feeding bivalves: Inter-and intraspecific plasticity
2022
[4] Understanding acclimation and adaptation to salinity changes in benthic osmoconformers
2022
[5] Aquaculture systems inside of the energy storage lake, special interest in integrated multitrophic aquaculture
2021
[6] Salinity driven selection and local adaptation in Baltic Sea mytilid mussels
Schulze… - Frontiers in Marine …, 2021
[7] Effect of Environmental Change on Green Mussel Aquaculture Suitability in the Inner Gulf of Thailand Using GIS and Remote Sensing
2021
[8] Blue mussel (Mytilus spp.) cultivation in mesohaline eutrophied inner coastal waters: mitigation potential, threats and cost effectiveness
2021
[9] Estuarine oiling increases a long-term decline in mussel growth
Environmental Pollution, 2021
[10] Environmental Influence on Size Frequency Distributions of the Pacific Blue Mussel (Mytilus trossulus) in Two Glacially Influenced Estuaries
2021
[11] Large-Scale Laboratory Experiments on Mussel Dropper Lines in Ocean Surface Waves
2021
[12] Optimizing hatchery practices for genetic improvement of marine bivalves
2021
[13] Geographical variation in the carbon, nitrogen, and phosphorus content of blue mussels, Mytilus edulis
2021
[14] Environmental Habitat Mapping of Green Mussel: A GIS-Based Approach for Sustainable Aquaculture in the Inner Gulf of Thailand
2020
[15] Site selection of mussel mitigation cultures in relation to efficient nutrient compensation of fish farming
2020
[16] Does salinity variation increase synergistic effects of triclosan and carbon nanotubes on Mytilus galloprovincialis? Responses on adult tissues and sperms
2020
[17] Polycyclic aromatic hydrocarbons (PAHs) in mussels (Modiolus capax) from sites with increasing anthropogenic impact in La Paz Bay, Gulf of California
2020
[18] Modelling groundwater flooding in a lowland karst catchment
2020
[19] Potential and Feasibility of Mytilus spp. Farming Along a Salinity Gradient
2020
[20] Nitrogen and phosphorous content in blue mussels (Mytilus spp.) across the Baltic Sea
2020
[21] Evaluation of hemolymph biochemical properties, clearance rate, bacterial microbiota and expression of HSP genes of gulf pearl oyster Pinctada radiata in response …
2020
[22] An Assessment of Artificial Floating Islands as a Method of Habitat Creation in Marine Environments
2020
[23] Jordan M.; Jones, Laurence. 2021. Geographical variation in the carbon, nitrogen, and phosphorus content of blue mussels, Mytilus edulis
2020
[24] Forms of mercury in the Baltic mussel (Mytilus trossulus): Human and ecosystem health risk assessment
2019
[25] Mytilus edulis beds on littoral mixed substrata
2019
[26] Trace metal biomonitoring in the east Gippsland Lakes estuary using the barnacle Amphibalanus variegatus and mussel Mytilus edulis
2019
[27] Ecological impacts of groundwater discharge to Mediterranean coastal lagoons
2019
[28] The role of salinity in physiological responses of bivalves
2019
[29] Enhanced growth rates of the Mediterranean mussel in a coastal lagoon driven by groundwater inflow
2019
[30] The study amount of filtration of oyster Pinctada radiate at different salinities by using of phytoplankton Isochrysis aff galbana
2018
[31] Too much food may cause reduced growth of blue mussels (Mytilus edulis)–Test of hypothesis and new 'high Chl a BEG-model'
Journal of Marine Systems, 2018
[32] Evaluation of blue mussels (Mytilus edulis) as substrate for biogas production in Kalmar County (Sweden)
Biomass and Bioenergy, 2018
[33] Effects of salinity on the growth and mucous cells of the abalone Haliotis diversicolor Reeve, 1846
International Aquatic Research, 2018
[34] Investigating the rate of Filtration of pinctada radiata pearl cladding different salinity
2018
[35] study of amount filter feeding Pinctada radiata at different salinities using phytoplankton species Isochrysis aff galbana
2018
[36] بررسی میزان فیلتراسیون صدف مرواریدساز محار Pinctada radiata در شوری‌های مختلف‎
2018
[37] The effect of CO2 concentrations on blue mussel (Mytilus edulis) behaviour, health, mortality and detachment rates: a new potential way of anti-fouling
2018
[38] Production efficiency of mussel bottom culture
2017
[39] Population dynamics of subtidal blue mussels Mytilus edulis and the impact of cultivation
2017
[40] Divergent Responses of Larval and Juvenile Blue Mussels to Low Salinity Exposure
2017
[41] 盐度对宽壳全海笋稚贝存活与生长的影响
2017
[42] Influence of Pile Driving on the Clearance Rate of the Blue Mussel, Mytilus edulis (L.)
2016
[43] Cultural biology of the blue mussel, Mytilus edulis (Linnaeus, 1758) in inland saline water in Western Australia
2016
[44] Environmental influence on mussel (Mytilus edulis) growth–A quantile regression approach
Estuarine, Coastal and Shelf Science, 2016
[45] A massive ingression of the alien species Mytilus edulis L.(Bivalvia: Mollusca) into the Mediterranean Sea following the Costa Concordia cruise-ship disaster
2016
[46] Integrated biomarker responses in the hepatopancreas of the bivalve, Mactra veneriformis (Reeve, 1854) from the Yellow River Estuary, China
2016
[47] The influence of hypo‐osmotic stress on the regenerative capacity of the invasive polychaete Marenzelleria viridis from its native range
Marine Ecology, 2016
[48] Fucus serratus and large Mytilus edulis on variable salinity lower eulittoral rock
2016
[49] Mytilus edulis beds with hydroids and ascidians on tide-swept exposed to moderately wave-exposed circalittoral rock
2016
[50] Mytilus edulis beds on sublittoral sediment
2016
[51] PENINGKATAN FUNGSI BOEZEM MOROKREMBANGAN SEBAGAI PENGOLAH AIR LIMBAH PERKOTAAN MENGGUNAKAN SISTEM ALGA–BAKTERI
2016
[52] Investigating the filtration rate of the Pretty-blocked Venus Circenita callipyga by the microalga Isochrysis aff galbana at different temperatures and …
New York Science …, 2015
[53] Mytilus edulis beds on reduced salinity tide-swept infralittoral rock
2015
[54] Mytilus edulis and Fucus vesiculosus on moderately exposed mid eulittoral rock
2015
[55] Mytilus edulis, Fucus serratus and red seaweeds on moderately exposed lower eulittoral rock
2015
[56] Trematode infections reduce clearance rates and condition in blue mussels Mytilus edulis
2015
[57] Growth potential of blue mussels (M. edulis) exposed to different salinities evaluated by a Dynamic Energy Budget model
Journal of Marine Systems, 2015
[58] Assessing cockle shells (Anadara granosa) for reconstruction subdaily environmental parameters: Implication for paleoclimate studies
Historical Biology, 2015
[59] Investigating the filtration rate of the Pretty-blocked Venus Circenita callipyga by the microalga Isochrysis aff galbana at different temperatures and salinities
2015
[60] Growth and Respiration in Blue Mussels (Mytilus spp.) from Different Salinity Regimes
Journal of Shellfish Research, 2015
[61] Environmental factors and seasonal variation in density of mussel larvae (Mytilus edulis) in Danish waters
Open Journal of Marine Science, 2015
[62] Littoral mussel beds on sediment
2015
[63] Assessing the sensitivity of blue mussel beds to pressures associated with human activities.
2014
[64] Somatic growth of mussels Mytilus edulis in field studies compared to predictions using BEG, DEB, and SFG models
Journal of Sea Research, 2014
[65] Allometric equations for maximum filtration rate in blue mussels Mytilus edulis and importance of condition index
Helgoland Marine Research, 2014
[66] Museum guests as contributors to regional food innovation
Museum Management and Curatorship, 2014
[67] The mussel filter–pump–present understanding, with a re‐examination of gill preparations
Acta Zoologica, 2014
[68] Effect of salinity-changing rates on filtration activity of mussels from two sites within the Baltic Mytilus hybrid zone: the brackish Great Belt (Denmark) and the low saline Central Baltic Sea
Open Journal of Marine Science, 2014
[69] Dwarfism of blue mussels in the low saline Baltic Sea—growth to the lower salinity limit
Mar. Ecol. Prog. Ser, 2014
[70] Potential for production of ‘mini-mussels’ in Great Belt (Denmark) evaluated on basis of actual and modeled growth of young mussels Mytilus edulis
Aquaculture International, 2014
[71] Effect of Salinity-Changing Rates on Filtration Activity of Mussels from Two Sites within the Baltic Mytilus Hybrid Zone: The Brackish Great Belt (Denmark) and …
2014
[72] Physiological capacities of Gammarid amphipods to survive environmental change
2014
[73] Effect of salinity on filtration rates of mussels Mytilus edulis with special emphasis on dwarfed mussels from the low-saline Central Baltic Sea
2013
[74] Fluorometer controlled apparatus designed for long-duration algal-feeding experiments and environmental effect studies with mussels
Journal of Marine Biology, 2013
[75] Assessment of Financial Feasibility of Farming Blue Mussel in the Great Belt by the 'Smart Farm System'
2013
[76] イか c9
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