75 research outputs found
Atlas of Commercial Fisheries around Ireland, fourth edition
This atlas provides a series of detailed maps of commercial fishing activity around Ireland with the
aim of providing insights into fishing activities and fisheries resources. The atlas contains maps of:
* Fishing effort of vessels of all nationalities by gear type inside the Irish Exclusive Economic
Zone (EEZ);
* Fishing effort of Irish vessels by gear type in all areas where they operate;
* Landings taken by Irish vessels for the main commercially exploited species.
The atlas is the fourth of its kind and is based on data from fishing vessels of ≥12m in length over the
period 2018-2022.
The maps are available for download in geotiff format from: https://doi.org/10/mfb7. As new data
becomes available these online datasets will be update
Methods to get more information from sparse vessel monitoring systems data
Vessel Monitoring Systems (VMS) and other vessel tracking data have been used for many years to map the distribution of fishing activities. Mapping areas with low levels of fishing activity can be of particular interest; for example to avoid conflicts between fishing and other ocean uses like offshore renewable energy or to protect relatively pristine ecosystems from increasing fishing pressure. A particular problem when trying to delineate areas that are lightly fished, is the relative sparsity of vessel monitoring data in these areas. This paper explores three novel methods for estimating the distribution of fishing activity from VMS data, with particular focus on lightly impacted areas. The first new method divides the area of interest into a nested grid with varying cell sizes (depending on the density of data at each location); the second new method uses Voronoi diagrams to define polygons around observations and the third method applies a local regression to generate a smooth map of fishing intensity. The new methods are compared with two established methods: applying spatial grids and interpolating fishing tracks. The track interpolation method generally performs better than any of the new methods, however it is not always possible or appropriate to apply track interpolation; in those cases the local regression method is the best alternative
Monitoring the recovery of exploited deep-water species
Commercial fisheries for deep-water species off the Irish coast developed in the late 1990s and declined in the early 2000s. Many of the exploited stocks were depleted a result of commercial exploitation and ICES has advised a zero catch for Orange Roughy since 2004, and for Portuguese Dogfish and Leafscale Gulper shark since 2005. Since 2016, the deep water access regulation has effectively banned trawling in waters deeper than 800 m (EC, 2016) and fishing for deep-water sharks with static netting >600 m is also banned by the technical measures regulation (EC, 2019). However, some of these species continue to be caught, either by gears not covered by this regulation or in water <800 m deep.
The Marine Institute carried out a survey programme to assess the distribution and abundance of these species between 1992 and 1999 and again between 2006 and 2009. Since 2019, 3 days of the Irish Anglerfish and Megrim Survey have been allocated to monitoring the recovery of commercial deep-water species. This work was funded under the European Maritime and Fisheries Fund (EMFF) from 2019 to 2021 and European Maritime, Fisheries and Aquaculture Fund (EMFAF) since 2022.
The main objective of the current project is to assess the recovery of exploited deep-water species in Irish waters by comparing the results from 2019 to 2022 surveys with those from the previous period in 2006 to 2009 (methods used in the earlier period 1992 to 1999 were different, therefore a direct comparison with that period is not possible).EMFF, EMFAF,
the project is co-funded by the Government of Ireland and the European Unio
Precision estimates and suggested sample sizes for length-frequency data
For most fisheries applications, the shape of a length-frequency distribution is much more important than its mean length or variance. This makes it difficult to evaluate at which point a sample size is adequate. By estimating the coefficient of variation of the counts in each length
class and taking a weighted mean of these, a measure of precision was obtained that takes the precision in all length classes into account. The precision estimates were closely associated with the ratio of the sample size to the number of size classes in each sample. As a rule-of-thumb, a
minimum sample size of 10 times the number of length classes in the sample is suggested because the precision
deteriorates rapidly for smaller sample sizes. In absence of such a rule-of-thumb, samplers have previously
under-estimated the required sample size for samples with large fish, while over-sampling small fish of the same species
21st century fisheries management: a spatio-temporally explicit tariff-based approach combining multiple drivers and incentivising responsible fishing
Abstract
Kraak, S. B. M., Reid, D. G., Gerritsen, H. D., Kelly, C. J., Fitzpatrick, M., Codling, E. A., and Rogan, E. 2012. 21st century fisheries management: a spatio-temporally explicit tariff-based approach combining multiple drivers and incentivising responsible fishing. – ICES Journal of Marine Science, 69: 590–601. Traditionally fisheries management has focused on biomass and mortality, expressed annually and across large management units. However, because fish abundance varies at much smaller spatio-temporal scales, fishing mortality can potentially be controlled more effectively if managed at finer scale. The ecosystem approach requires more indicators at finer scales as well. Incorporating ecosystem targets would need additional management tools with potentially conflicting results. We present a simple, integrated, management approach that provides incentives for “good behaviour”. Fishers would be given a number of fishing-impact credits, called real-time incentives (RTIs), to spend according to spatio-temporally varying tariffs per fishing day. RTI quotas and tariffs could be based on commercial stocks and ecosystem targets. Fishers could choose how to spend their RTIs, e.g. by limited fishing in high-catch or sensitive areas or by fishing longer in lower-catch or less sensitive areas. The RTI system does not prescribe and forbid, but instead allows fishers to fish wherever and whenever they want; ecosystem costs are internalized and fishers have to take them into account in their business decisions. We envisage no need for traditional landings or catch quotas for the fleets while operating under the scheme. The approach could facilitate further devolution of responsibility to industry.</jats:p
CE20006
The 2020 Irish Anglerfish and Megrim Survey (IAMS) took place from 23rd February to 18th March (area 7bcjk) and 12-21st April 2020 (area 6a) on RV Celtic Explorer.
The main objective of the survey is to obtain biomass and abundance indices for anglerfish (Lophius piscatorius and L. budegassa) and megrim (Lepidorhombus whiffiagonis and L. boscii) in areas 6a (south of 58°N) and 7 (west of 8°W).
Secondary objectives are to collect data on the distribution, relative abundance and biology of other commercially exploited species.
For the second year, additional sampling took place in deep water (up to 1,500m) in order to monitor the recovery of exploited deep-water species following the decline of the deep-water fisheries in Irish waters.
The IAMS survey is coordinated with the Scottish Anglerfish and Megrim Survey (SIAMISS) and uses the same gear and fishing practices
CE22004 and CE22007
The 2022 Irish Anglerfish and Megrim Survey (IAMS) took place from 5th February to 1st March (area 7bcjk) and 12-22nd April 2022 (area 6a) on RV Celtic Explorer.
The main objective of the survey is to obtain biomass and abundance indices for anglerfish (Lophius piscatorius and L. budegassa) and megrim (Lepidorhombus whiffiagonis and L. boscii) in areas 6a (south of 58°N) and 7 (west of 8°W).
Secondary objectives are to collect data on the distribution, relative abundance and biology of other commercially exploited species.
For the fourth year, additional sampling took place in deep water (up to 1,500m) in order to monitor the recovery of exploited deep-water species following the decline of the deep-water fisheries in Irish waters.
The IAMS survey is coordinated with the Scottish Anglerfish and Megrim Survey (SIAMISS) and uses the same gear and fishing practices
Anthropogenic influence on sediment transport in the Whittard Canyon, NE Atlantic
Unusual peaks in turbidity were detected in two branches of the Whittard Canyon in June 2013. Enhanced nepheloid layers (ENLs) were defined as layers with concentrations of suspended particulate matter exceeding those of nepheloid layers typically observed in a given region. Here, ENLs had peaks in turbidity and elevated suspended particulate matter concentrations exceeding ~1 mg L−1 with the largest ENLs measuring between ~2–8mg L−1. The ENLs measured ~100–260m in vertical height and were detected inwater depths of between 640 and 2880 m. Vessel Monitoring System data showed that high spatial and temporal activity of potential bottom trawling vessels coincided with the occurrence of the ENLs. Molar C/N ratios of the suspended organic material from the ENLs showed a high degree of degradation. Regular occurrences of such events are likely to have implications for increased sediment fluxes, burial of organic carbon and alteration of benthic and canyon ecosystems
Bridging the Gap: 3D Real-Space Characterization of Colloidal Assemblies via FIB-SEM Tomography
Insight in the structure of nanoparticle assemblies up to a single particle
level is key to understand the collective properties of these assemblies, which
critically depend on the individual particle positions and orientations.
However, the characterization of large, micron sized assemblies containing
small, 10-500 nanometer, sized colloids is highly challenging and cannot easily
be done with the conventional light, electron or X-ray microscopy techniques.
Here, we demonstrate that focused ion beam-scanning electron microscopy
(FIB-SEM) tomography in combination with image processing enables quantitative
real-space studies of ordered and disordered particle assemblies too large for
conventional transmission electron tomography, containing particles too small
for confocal microscopy. First, we demonstrate the high resolution structural
analysis of spherical nanoparticle assemblies, containing small anisotropic
gold nanoparticles. Herein, FIB-SEM tomography allows the characterization of
assembly dimensions which are inaccessible to conventional transmission
electron microscopy. Next, we show that FIB-SEM tomography is capable of
characterizing much larger ordered and disordered assemblies containing silica
colloids with a diameter close to the resolution limit of confocal microscopes.
We determined both the position and the orientation of each individual
(nano)particle in the assemblies by using recently developed particle tracking
routines. Such high precision structural information is essential in the
understanding and design of the collective properties of new nanoparticle based
materials and processes.Comment: 17 pages, 4 figures, Supplemental Information at articles webpage:
https://doi.org/10.1039/C8NR09753
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