Breathing life into fisheries stock assessments with citizen science

Fairclough, David V.; Brown, J.; Carlish, B. J.; Crisafulli, Brett; Keay, I.

doi:10.1038/srep07249

Cited by 71 publications

(44 citation statements)

References 45 publications

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“…Jansen et al, 2013;Cabanellas-Reboredo, 2014;Dunn, 2014;Eero, 2015). Such data is further expanded with new innovations (Schratwieser, 2014;Wilson, 2014) and by the help of the volunteers through the citizen science (Fairclough, 2014). Because fishing nets are the main tool, the composition of the fish species in the artisanal catch is close to the actual composition of any water body.…”

Section: Discussionmentioning

confidence: 99%

The co-existence of recreational and artisanal fisheries in the central parts of the Danube and Sava rivers

Treer

Kubatov²

2017

Croatian Journal of Fisheries

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The official data on recreational and artisanal fisheries in Croatia and Hungary were analysed. The data from Croatia relates to the entire Croatian section of the Danube River and to the section of the Sava River along the border with Bosnia and Herzegovina. The data from Hungary covers 60 km of the Danube River north of the Croatian border. Absolute catches in kilograms, as well as CPUE (kg per fisherman per year) by both groups in all three river sections varied from year to year without dramatic changes. Fishing with nets, artisanal fishermen differ from the anglers in two major ways: they are less selective and they catch bigger specimens. According to the official data, the existing ratio between recreational and artisanal fishermen in these three river sections does not negatively affect each other's or overall fishing. Therefore, a conclusion can be drawn that medium-intensive artisanal fisheries qualify to co-exist with recreational fisheries. How to CiteTreer, T., Kubatov, I. (2017): The co-existence of recreational and artisanal fisheries in the central parts of the Danube and Sava rivers. Croatian Journal of Fisheries, 75,[89][90][91][92][93][94]

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Section: Discussionmentioning

confidence: 99%

The co-existence of recreational and artisanal fisheries in the central parts of the Danube and Sava rivers

Treer

Kubatov²

2017

Croatian Journal of Fisheries

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“…There are many good examples of using citizen science to develop the evidence base that underpins decision making (Hyder et al, 2015b) including: prevailing conditions (e.g., Wright et al, 2016); fisheries (e.g., Fairclough et al, 2014); and marine litter (e.g., OSPAR, 2010). Despite the potential benefits, the uptake and use of citizen science in support of decision making has been low, mainly due to challenges around data quality, access to data, motivation of volunteers and physical location (Hyder et al, 2015a,b).…”

Section: Citizen Sciencementioning

confidence: 99%

A Review of the Tools Used for Marine Monitoring in the UK: Combining Historic and Contemporary Methods with Modeling and Socioeconomics to Fulfill Legislative Needs and Scientific Ambitions

et al. 2017

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Marine environmental monitoring is undertaken to provide evidence that environmental management targets are being met. Moreover, monitoring also provides context to marine science and over the last century has allowed development of a critical scientific understanding of the marine environment and the impacts that humans are having on it. The seas around the UK are currently monitored by targeted, impact-driven, programmes (e.g., fishery or pollution based monitoring) often using traditional techniques, many of which have not changed significantly since the early 1900s. The advent of a new wave of automated technology, in combination with changing political and economic circumstances, means that there is currently a strong drive to move toward a more refined, efficient, and effective way of monitoring. We describe the policy and scientific rationale for monitoring our seas, alongside a comprehensive description of the types of equipment and methodology currently used and the technologies that are likely to be used in the future. We contextualize the way new technologies and methodologies may impact monitoring and discuss how whole ecosystems models can give an integrated, comprehensive approach to impact assessment. Furthermore, we discuss how an understanding of the value of each data point is crucial to assess the true costs and benefits to society of a marine monitoring programme.

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“…Citizens have helped professional scientists gather data on animal and plant populations (Cohn, 2008;Gardiner et al, 2012;Donnelly et al, 2014), canine behavior (Hecht and Spicer Rice, 2015), celestial objects (The Planetary Society, 2014;Citizen Science Alliance, 2014), environmental pollutants (Conrad and Hilchey, 2011), fisheries (Fairclough et al, 2014), whale sounds (Citizen Science Alliance, 2014), meteorology (Citizen Science Alliance, 2014), and invasive species (Starr et al, 2014, Gallo andWaitt, 2011). Laypeople have played a pivotal role in study design, subject recruitment, and data interpretation in community-based research in public, environmental, and mental health (O'Fallon and Dearry, 2002;Savage et al, 2006;Horowitz et al, 2009).…”

Section: Introductionmentioning

confidence: 99%