How can we conserve Seychelles giant trevallies?
Revealing where and why giant trevally roam as they grow helps us understand how to better protect them
2021-04-15
(Press-News.org) Geneva, 15th April 2021 - When it was shown launching out of the sea to snatch birds from the air in the first episode of the BBC's Blue Planet II, the Seychelles giant trevally, or 'karang ledan' as it is called in Creole, became world-famous. Typically eating fish, not birds, this reef predator is critical for maintaining healthy balanced ecosystems. 'The giant trevally is a popular, sought-after prize fish in Seychelles, particularly in the big-game sportfishing industry. Seychelles has a reputation for being one of the best trevally destinations in the world. The species is also caught in the handline fishery,' explains Helena Sims, the Save Our Seas Foundation's Seychelles ambassador. Sims, with more than a decade of conservation experience, is part of the initiative determining which 30% of Seychelles waters should become marine protected areas (MPAs).
'Although the giant trevally is very popular and sought after, not much was known about its population dynamics in Seychelles until recently. For Seychelles, it is important to study the range of targeted species to better understand how to manage and conserve them effectively,' Sims explains. New research by the Save Our Seas Foundation D'Arros Research Centre (SOSF-DRC) has revealed that to protect giant trevally throughout their lifespan, the nursery areas of this iconic predator, which are critical habitats for the survival of the next generation, should be conserved. In addition, the larger areas these fish move through and frequently use as adults should be taken into account when conservation planning is undertaken.
To find out where giant trevally went, and when and why, individuals were tagged with acoustic tags in 2019 and tracked across the Amirantes, a group of outer islands in Seychelles. Some were tracked for more than three years. This revealed that juveniles stayed around St Joseph Atoll, but that the extent of the area they frequently used quickly increased as they grew bigger. By the time they were adults, they were using the whole Amirantes Bank. Although small and large adults utilised similar areas, large adults occasionally travelled longer distances, probably driven by their need to find more food to eat as they grew, in order to meet their increasing energy requirements. Both the reduced risk of predation on account of their increased size and the onset of sexual maturity appear to be linked to them using a larger area and a wider diversity of habitats. This study showed that the area giant trevally frequently used was larger than had been reported from other tropical islands and atolls around the world.
In this study 'it took some giant trevally a surprisingly long time - on average 18 months but sometimes over 30 - to use the full extent of their home range,' says Dr Ryan Daly, a former director of the SOSF-DRC. 'This emphasises the need to follow, track and monitor threatened species in the marine environment for long enough to appreciate the full extent of their home range and thus to understand how spatial protection like MPAs is going to be effective.' Daly led the study, which was published as 'Ontogenic shifts in home range size of a top predatory reef-associated fish (Caranx ignobilis): Implications for conservation' in Marine Ecology Progress Series on 15 April 2021. Daly suggests that further conservation planning in the region could take into account the findings of this study.
The Save Our Seas Foundation (SOSF) commends the marine protection measures Seychelles is putting in place. 'The giant trevally is a beautiful fish and an important predator. I am delighted that our work from the D'Arros Research Centre is helping us learn more about its behaviour and providing insight to help its conservation,' comments the SOSF's Founder, His Excellency Abdulmohsen Abdulmalik Al-Sheikh. The entire Amirantes Bank, including St Joseph Atoll, has already been demarcated as part of an Area of Outstanding Natural Beauty by the Seychelles government, which is a Zone 2 protected area. Within this area, fishing by foreign vessels is not allowed (with regulations to be finalised later this year for implementation).
This is part of the Marine Spatial Plan Initiative by the Seychelles government, which announced a series of 13 new MPAs in March 2020. Daly recommends that St Joseph Atoll's Zone 2 status should not allow fishing of giant trevally because the area protects the next generation. If fishing is to be allowed at St Joseph Atoll, he advises that it should only be catch-and-release. He suggests the areas that the adults commonly use and occasionally move through, as revealed by this study, should also be considered when further conservation planning is carried out in the region. Daly explains that it will be important to find a balance between harvesting giant trevally as a food source and high-value giant trevally catch-and-release fishing. He encourages high-value catch-and-release fishing of giant trevally, but stresses that regardless of the balance chosen, it is important to protect nursery areas like St Joseph Atoll so that giant trevally fishing is sustainable.
INFORMATION:
The Save Our Seas Foundation D'Arros Research Centre:
Daly's research utilised the impressive network of 88 acoustic receivers positioned around St Joseph Atoll. This array of receivers is the only one of its size and kind in the Amirantes and belongs to the SOSF-DRC. The centre works with Seychellois to support research, conservation and education in Seychelles. The SOSF also provides technical support and funding to numerous conservation and research projects in Seychelles.
[Attachments] See images for this press release:
ELSE PRESS RELEASES FROM THIS DATE:
2021-04-15
Researchers in South Korea developed a plasmonic isothermal recombinase polymerase amplification (RPA) array chip, the world's first plasmoinc isothermal PCR technology which can detect 8 types of pathogens (4 bacteria and 4 viruses) that cause acute respiratory infectious diseases in 30 minutes, led by Dr. Sung-Gyu Park and Dr. Ho Sang Jung of the Korea Institute of Materials Science (KIMS, President Jung-Hwan Lee) and by Dr. Min-Young Lee and Dr. Ayoung Woo of Samsung Medical Center. KIMS is a government-funded research institute under the Ministry of Science and ICT.
* PCR(Polymerase Chain Reaction): A test method to amplify and detect nucleic acids target
The current detection technology for COVID-19 is impossible ...
2021-04-15
Despite surgery and subsequent treatment with chemotherapy and radiation, the majority of patients experience recurrence of malignant brain tumours. Researchers at Linköping University, Sweden, and the Medical University of Graz, Austria, have shown in cells in culture that an ion pump can deliver drugs more accurately, which gives less severe adverse effects in chemotherapy. The results have been published in Advanced Materials Technologies.
"This is the first time an ion pump has been tested as a possible method to treat malignant brain tumours. ...
2021-04-15
As females age, their bodies typically undergo two significant changes that generally occur during adolescence and middle age. The first, known as menarche, is the time during puberty when a girl begins having monthly menstruation cycles, which often tends to range from 8-13 years of age. She enters the second change, known as menopause, 12 months following her last menstruation cycle when her ovarian function ceases, usually sometime in her 40s or 50s.
The time after menarche and prior to menopause is known as a woman's reproduction life span and marks the years when she is most able to bear children. For many women, these events occur naturally. However, women can enter menopause earlier than ...
2021-04-15
Researchers at King's College London Institute of Psychiatry, Psychology, & Neuroscience, in collaboration with King's College Hospital NHS Foundation Trust, have found small clusters of cells in the brain that identify locations where tumours could become malignant.
The study, which has been published in Neuro-Oncology Advances today, analysed pieces of living human brain tissue from 20 people undergoing brain tumour surgery at King's College Hospital, the largest neuro-oncology centre in Europe. The researchers found groups of tumour cells clustered around blood vessels and believe that these sites could be the seedbeds for malignant progression, the process by which a tumour becomes a fast growing and uncontrolled cancer. ...
2021-04-15
- Study finds for the first time, in Africa, that mutations are associated with delayed clearance of the parasite among children with malaria treated with common Artemisinin-based combination therapies (ACTs).
- While drug efficacy remains high so far, authors call for increased monitoring in the region.
New data provide the first clinical evidence that drug-resistant mutations in the malaria parasite Plasmodium falciparum may be gaining a foothold in Africa. The study, conducted in Rwanda, is published in The Lancet Infectious Diseases journal and finds for the first time that the mutations are associated with delayed parasite clearance, as was first shown in South-East Asia when artemisinin-resistance started to emerge.
The study ...
2021-04-15
Psilocybin, the active compound in magic mushrooms, may be at least as effective as a leading antidepressant medication in a therapeutic setting.
This is the finding of a study carried out by researchers at the Centre for Psychedelic Research at Imperial College London.
In the most rigorous trial to date assessing the therapeutic potential of a 'psychedelic' compound, researchers compared two sessions of psilocybin therapy with a six-week course of a leading antidepressant (a selective serotonin uptake inhibitor called escitalopram) in 59 people with moderate-to-severe depression.
The results, published today in the New England Journal of Medicine, show that while depression ...
2021-04-15
New research by University of Texas at Dallas scientists could help solve a major challenge in the deployment of certain COVID-19 vaccines worldwide -- the need for the vaccines to be kept at below-freezing temperatures during transport and storage.
In a study published online April 13 in Nature Communications, the researchers demonstrate a new, inexpensive technique that generates crystalline exoskeletons around delicate liposomes and other lipid nanoparticles and stabilizes them at room temperature for an extended period -- up to two months -- in their proof-of-concept experiments.
The Moderna and Pfizer/BioNTech COVID-19 vaccines use lipid nanoparticles -- basically spheres of fat molecules -- to protect and deliver the messenger ...
2021-04-14
Biomedical engineers at Duke University have developed a self-assembling nanomaterial that can help limit damage caused by inflammatory diseases by activating key cells in the immune system. In mouse models of psoriasis, the nanofiber-based drug has been shown to mitigate damaging inflammation as effectively as a gold-standard therapy.
One of the hallmarks of inflammatory diseases, like rheumatoid arthritis, Crohn's disease and psoriasis, is the overproduction of signaling proteins, called cytokines, that cause inflammation. One of the most significant ...
2021-04-14
Current research on flexible electronics is paving the way for wireless sensors that can be worn on the body and collect a variety of medical data. But where do the data go? Without a similar flexible transmitting device, these sensors would require wired connections to transmit health data.
Huanyu "Larry" Cheng, Dorothy Quiggle Career Development Assistant Professor of Engineering Science and Mechanics in the Penn State College of Engineering, and two international teams of researchers are developing devices to explore the possibilities of wearable, flexible antennae. They published two papers in April in Nano-Micro Letters and Materials & Design.
Wearable antenna bends, ...
2021-04-14
Biological energy flows, such as in photosynthesis and respiration, depend on the transfer of electrons from one molecule to another. Despite its importance to sustaining life, factors governing the rate of electron transfer, especially over long distances, are not well understood because the systems that mediate such ultrafast processes are very complex. A better understanding of electron transfer rates would help scientists improve chemical transformations, energy conversion, electronic devices, and photonic technologies.
Now, an international team of researchers led by UC Riverside has observed picosecond charge transfer mediated by hydrogen bonds in peptides. A picosecond is one trillionth of a second. ...
LAST 30 PRESS RELEASES:
[Press-News.org] How can we conserve Seychelles giant trevallies?
Revealing where and why giant trevally roam as they grow helps us understand how to better protect them