scholarly journals Detrimental Effect of Moon Jellyfish Aurelia aurita on Cooling of Sea Water in the Fish Hold of Set Net Fishing Boat.

1998 ◽  
Vol 64 (6) ◽  
pp. 1046-1052 ◽  
Author(s):  
Yoko Hayashi
Keyword(s):  
Detrimental Effect ◽  
Sea Water ◽  
Aurelia Aurita ◽  
Moon Jellyfish ◽  
Fishing Boat

scholarly journals Shorter, warmer winters may inhibit production of ephyrae in a population of the moon jellyfish Aurelia aurita

Hydrobiologia ◽  
2020 ◽  
Author(s):  
Alexandra Loveridge ◽  
Cathy H. Lucas ◽  
Kylie A. Pitt
Keyword(s):  
Incubation Time ◽  
Life Stage ◽  
Aurelia Aurita ◽  
The Moon ◽  
Minimum Period ◽  
Moon Jellyfish ◽  
Winter Conditions ◽  
Scyphozoan Jellyfish ◽  
Significant Production ◽  
Planula Larvae

AbstractScyphozoan jellyfish blooms display high interannual variability in terms of timing of appearance and size of the bloom. To understand the causes of this variability, the conditions experienced by the polyps prior to the production of ephyrae in the spring were examined. Polyps reared from planula larvae of Aurelia aurita medusae collected from southern England (50°49′58.8; − 1°05′36.9) were incubated under orthogonal combinations of temperature (4, 7, 10 °C) and duration (2, 4, 6, 8 weeks), representing the range of winter conditions in that region, before experiencing an increase to 13 °C. Timing and success of strobilation were recorded. No significant production of ephyrae was observed in any of the 2- and 4-week incubations, or in any 10 °C incubation. Time to first ephyra release decreased with longer winter incubations, and more ephyrae were produced following longer and colder winter simulations. This experiment indicates that A. aurita requires a minimum period of cooler temperatures to strobilate, and contradicts claims that jellyfish populations will be more prevalent in warming oceans, specifically in the context of warmer winter conditions. Such investigations on population-specific ontogeny highlights the need to examine each life stage separately as well as in the context of its environment.

scholarly journals Enhancement of jellyfish (Aurelia aurita) populations by extensive aquaculture rafts in a coastal lagoon in Taiwan

2008 ◽  
Vol 65 (3) ◽  
pp. 453-461 ◽  
Author(s):  
Wen-Tseng Lo ◽  
Jennifer E. Purcell ◽  
Jia-Jang Hung ◽  
Huei-Meei Su ◽  
Pei-Kai Hsu
Keyword(s):  
Coastal Lagoon ◽  
Coastal Waters ◽  
Natural Experiment ◽  
Water Exchange ◽  
Larval Settlement ◽  
Aurelia Aurita ◽  
Trophic Conditions ◽  
Moon Jellyfish ◽  
Southwestern Taiwan ◽  
Human Construction

Abstract Lo, W-T., Purcell, J. E., Hung, J-J., Su, H-M., and Hsu, P-K. 2008. Enhancement of jellyfish (Aurelia aurita) populations by extensive aquaculture rafts in a coastal lagoon in Taiwan. – ICES Journal of Marine Science, 65: 453–461. Blooms of the moon jellyfish, Aurelia aurita, often occur in coastal waters that are heavily affected by human construction, such as harbours. Tapong Bay is a hypertrophic lagoon in southwestern Taiwan that was studied between August 1999 and September 2004. The removal of extensive oyster-culture rafts in June 2002 provided a “natural” experiment to examine the effects of aquaculture on processes and communities in the lagoon. The removal caused many changes in the ecosystem, including increases in flushing, light penetration, dissolved oxygen, salinity, chlorophyll a, primary production, and zooplankton, but decreases in nutrients, periphyton, and dramatically reduced populations of bivalves, zooplanktivorous fish, and jellyfish (A. aurita). We conclude that environmental and trophic conditions were favourable for jellyfish throughout the study period. Therefore, we believe that aquaculture rafts enhanced jellyfish populations by three probable mechanisms: the rafts provided substrate and shading for the larval settlement and polyp colony formation, and the rafts restricted water exchange in the lagoon. Aquaculture is increasing rapidly in Asia, and the problems associated with jellyfish may also increase.

Significant envenomation by Aurelia aurita, the moon jellyfish

Toxicon ◽  
1988 ◽  
Vol 26 (2) ◽  
pp. 215-217 ◽  
Author(s):  
Joseph W. Burnett ◽  
Gary J. Calton ◽  
James B. Larsen
Keyword(s):  
Aurelia Aurita ◽  
The Moon ◽  
Moon Jellyfish

scholarly journals Perancangan Perahu Nelayan Ramah Lingkungan Menggunakan Motor Listrik Bertenaga Surya

CYCLOTRON ◽  
2019 ◽  
Vol 2 (1) ◽  
Author(s):  
Belly Yan Dewantara
Keyword(s):  
Sea Water ◽  
Sun Exposure ◽  
Motor Drive ◽  
Solar Panels ◽  
Fossil Energy ◽  
Fishing Boat ◽  
Dc Motors ◽  
Operational Costs ◽  
The Government ◽  
Electric Motor Drive

Abstrak— Penggerak perahu nelayan secara umum menggunakan mesin tempel yang menggunakan energi fosil (bahan bakar minyak bumi/BBM). Penggunaan BBM semakin banyak, dapat menyebabkan polusi udara. Sejalan dengan ini pemerintah juga mencanangkan hemat BBM dan BBM sudah tidak ada subsidi lagi. Hal ini menyebabkan biaya operasional bagi pengguna mesin tempel perahu nelayan semakin besar. Selain itu mesin perahu nelayan dengan menggunakan BBM dapat menimbulkan suara bising yang merambat ke dalam air laut, sehingga ikan bergerak menjauhi perahu. Hal ini menjadi kendala yang harus dipecahkan. Kendala-kendala ini dapat diantisipasi dengan mengganti mesin tersebut dengan mesin DC. Mesin DC sebagai penggerak perahu menggunakan listrik DC yang di suplai menggunakan baterao sehingga tidak menimbulkan suara bising dan tidak membuat ikan menjauh dari perahu nelayan. Pada penelitian ini akan diterapkan juga sumber listrik ramah lingkungan menggunakan tenaga matahari untuk sumber listrik pengisian baterai motor  sehingga penggunaan perahu nelayan dapat lebih lama dan nelayan tidak perlu khawatir kehabisan daya listrik selama panel surya mendapat paparan energy matahari. Perahu nelayan dengan penggerak motor listrik nantinya akan dilengkapi beberapa komponen antara lain 2 buah solar cell 100 WP, 1 buah baterai 100 Ah, dan motor listrik daya 500 watt.Kata kunci: Surya, Motor DC, Energi Terbarukan, Perahu Nelayan.Abstract— The driver of a fishing boat generally uses an outboard engine that uses fossil energy (petroleum / fuel). Increasing use of fuel, can cause air pollution. In line with this, the government has also planned to save fuel and fuel no more subsidies. This causes the operational costs for users of fishing boat outboard engines to increase. In addition, the fishing boat engine using fuel can cause noise that propagates into the sea water, so the fish moves away from the boat. This is an obstacle that must be solved. These obstacles can be anticipated by replacing the engine with a DC engine. The DC engine as a boat driver uses DC electricity which is supplied using batteries so it does not cause noise and does not keep the fish away from the fishing boat. In this research, environmentally friendly electricity sources will also be used using solar energy for motorbike charging, so that the use of fishing boats can be longer and fishermen do not have to worry about running out of electricity as long as solar panels get sun exposure. A fishing boat with an electric motor drive will be equipped with several components including 2 100 WP solar cells, 1 100 Ah battery, and a 500 watt electric motor.Keywords: Solar, DC motors, renewable energy, fishing boats.  

scholarly journals The Native Microbiome is Crucial for Offspring Generation and Fitness of Aurelia Aurita

mBio ◽  
2020 ◽  
Vol 11 (6) ◽  
Author(s):  
Nancy Weiland-Bräuer ◽  
Nicole Pinnow ◽  
Daniela Langfeldt ◽  
Anna Roik ◽  
Simon Güllert ◽  
...  
Keyword(s):  
Life Cycle ◽  
Microbial Community ◽  
Asexual Reproduction ◽  
Aurelia Aurita ◽  
Moon Jellyfish ◽  
Host Fitness ◽  
Fitness Traits ◽  
Basal Metazoan ◽  
Health And Fitness ◽  
Multicellular Organisms

ABSTRACT All multicellular organisms are associated with microbial communities, ultimately forming a metaorganism. Several studies conducted on well-established model organisms point to immunological, metabolic, and behavioral benefits of the associated microbiota for the host. Consequently, a microbiome can influence the physiology of a host; moreover, microbial community shifts can affect host health and fitness. The present study aimed to evaluate the significance and functional role of the native microbiota for life cycle transitions and fitness of the cnidarian moon jellyfish Aurelia aurita. A comprehensive host fitness experiment was conducted studying the polyp life stage and integrating 12 combinations of treatments with microbiota modification (sterile conditions, foreign food bacteria, and potential pathogens). Asexual reproduction, e.g., generation of daughter polyps, and the formation and release of ephyrae were highly affected in the absence of the native microbiota, ultimately resulting in a halt of strobilation and ephyra release. Assessment of further fitness traits showed that health, growth, and feeding rate were decreased in the absence and upon community changes of the native microbiota, e.g., when challenged with selected bacteria. Moreover, changes in microbial community patterns were detected by 16S rRNA amplicon sequencing during the course of the experiment. This demonstrated that six operational taxonomic units (OTUs) significantly correlated and explained up to 97% of fitness data variability, strongly supporting the association of impaired fitness with the absence/presence of specific bacteria. Conclusively, our study provides new insights into the importance and function of the microbiome for asexual reproduction, health, and fitness of the basal metazoan A. aurita. IMPORTANCE All multicellular organisms are associated with a diverse and specific community of microorganisms; consequently, the microbiome is of fundamental importance for health and fitness of the multicellular host. However, studies on microbiome contribution to host fitness are in their infancy, in particular, for less well-established hosts such as the moon jellyfish Aurelia aurita. Here, we studied the impact of the native microbiome on the asexual reproduction and on further fitness traits (health, growth, and feeding) of the basal metazoan due to induced changes in its microbiome. We observed significant impact on all fitness traits analyzed, in particular, in the absence of the protective microbial shield and when challenged with marine potentially pathogenic bacterial isolates. Notable is the identified crucial importance of the native microbiome for the generation of offspring, consequently affecting life cycle decisions. Thus, we conclude that the microbiome is essential for the maintenance of a healthy metaorganism.

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