Environmental influence on the seasonal movements of satellite-tracked ocean sunfish Mola mola in the north-east Atlantic

Sousa, Lara L.; Queiroz, Nuno; Mucientes, Gonzalo; Humphries, Nicolas E.; Sims, David

doi:10.1186/s40317-016-0099-2

Cited by 36 publications

(54 citation statements)

References 73 publications

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“…25 suggest that sunfish spend time in surface waters in order to rewarm following deep dives. Their tagged sunfish experienced ambient temperatures of 16–22 °C at the surface, and <10 °C at depths over 100 m. In our study, sunfish were recorded in sea surface temperatures ranging from 12.3–15.8 °C in summer, consistent with other studies in the region 17 and 8.6–11.9 °C in winter, the minimum value of which is below the thermal preference reported in other studies 2, 25 . This represents an average difference of 6.1 °C between surface and bottom waters in summer and 2.5 °C in winter.…”

Section: Discussionsupporting

confidence: 91%

“…Seasonal inshore migrations around the English Channel have also been reported, which are thought to coincide with invasions of medusa, salps and ctenophores, key food sources for sunfish 2 . Results from our surveys show that some sunfish are present in the waters of the northeast Atlantic year-round, and the seasonal differences in abundance provide evidence for some seasonal movement in line with recent tagging studies 17 . Seasonal movement may be to more southerly waters or inshore waters which were not covered in the current study, or sunfish may spend more time at depth in the winter months.…”

Section: Discussionsupporting

confidence: 90%

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New insights into ocean sunfish (Mola mola) abundance and seasonal distribution in the northeast Atlantic

Breen

Cañadas²,

Cadhla³

et al. 2017

Sci Rep

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The ocean sunfish, Mola mola, is the largest teleost fish in the world. Despite being found in all oceans of the world, little is known about its abundance and factors driving its distribution. In this study we provide the first abundance estimates for sunfish in offshore waters in the northeast Atlantic and the first record of extensive sunfish presence in these waters year-round. Abundance estimates and predictive distributions for sunfish in approximately 300,000 km² of the northeast Atlantic were derived from large scale offshore aerial surveys in 2015–2016 using distance sampling techniques. Generalized additive models of sunfish density were fitted to survey data from 17,360 km of line transect effort resulting in minimum abundance estimates of 12,702 (CI: 9,864-16,357) in the summer (Density = 0.043 ind/km²) and 8,223 individuals (CI: 6,178-10,946) (Density = 0.028 ind/km²) in the winter. Density surface models predicted seasonal shifts in distribution and highlighted the importance of the mixed layer depth, possibly related to thermoregulation following deep foraging dives. The abundance estimate and estimated daily consumption of 2,600 tonnes of jellyfish in the northeast Atlantic highlights the need to re-assess the importance of this species in the pelagic ecosystem, and its role in top-down control of jellyfish blooms.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionsupporting

confidence: 90%

New insights into ocean sunfish (Mola mola) abundance and seasonal distribution in the northeast Atlantic

Breen

Cañadas²,

Cadhla³

et al. 2017

Sci Rep

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“…One purpose may be to avoid excessively warm waters (exceeding 25° C) in late spring and summer, or to access upwelling areas and areas of zooplankton blooms that develop as waters warm at higher latitudes, e.g . in the North Sea (Sousa et al, ). In the latter study, no M. mola occupied waters with SST below 9° C, which may explain their southward movement in the autumn.…”

Section: Discussionmentioning

confidence: 99%

“…Although basically a tropical and subtropical species, M. mola , being a deep diver, has a broad thermal tolerance. Its lower tolerance limit to sea surface temperature (SST) has been estimated as 8–11° C (Sims et al, ; Dewar et al, ; Sousa et al, ). Its preferred range of SST seems to be roughly 10–24° C and its optimum range around 15–20° C. It may dive to 800 m depth, but spends over 60% of its time in the upper 50 m of the sea (Potter & Howell, ).…”

Section: Introductionmentioning

confidence: 87%

Records of ocean sunfish Mola mola along the Norwegian coast spanning two centuries, 1801–2015

Frafjord

Bakken

Kubicek³

et al. 2017

Journal of Fish Biology

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Records of the ocean sunfish Mola mola along the Norwegian coast were compiled from all possible sources: literature, media, databases and museums. A total of 216 records were found between 1801 and 2015. They were distributed along the whole coast, except for the most north-eastern part. Nearly all years with more than five records were after 2000, with 1985 as the only exception and with a maximum of 23 records in 2014. Most, 92·4%, were from July to December. Records from before 1979 were more incidental and random and no sunfish were recorded in 54 separate years between 1879 and 2015. The northernmost record was from 70° 44' N in December 1881. No relationship between year and latitude was found. Forty-four per cent of the records were of sunfish caught in fishing gear, 27% were found stranded and 30% were observed alive at sea. A trend of a decrease in numbers of observations of living individuals and an increase in numbers of strandings as dead individuals as autumn progressed was found. Geographical differences in the three categories of observation were also found. Among the specimens whose size was recorded, most were small,<30 kg and 70 cm in total length. Only 10 were heavier than 100 kg, all these were from before 1960. Annual numbers correlated weakly with sea temperatures. This was supported by a weak negative correlation with the North Atlantic Oscillation (NAO) index, because the majority of years since 2000 had a negative NAO.

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“…‘Along‐shelf’ movement pathways between northern and southern locations were most commonly captured by the surrogate (Figure a, Figure ) and are well documented in the literature (Callihan et al , ; Shepherd, Moser, Deuel, & Carlsen , ). This pathway is often associated with highly mobile species that are energetically capable of travelling long distances (Anderson, Gurarie, Bracis, Burke, & Laidre, ; Chapman, Feldheim, Papastamatiou, & Hueter , ; Sousa, Queiroz, Mucientes, Humphries, & Sims, ). Globally, this pathway is most often coupled with the timing and latitudinal progression of seasonal environmental processes (e.g.…”

Section: Discussionmentioning

confidence: 99%

Planning for dynamic process: An assemblage‐level surrogate strategy for species seasonal movement pathways

Welch

McHenry

2017

Aquatic Conservation

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Seasonally mobile species are globally prevalent and often provide vital ecosystem functions and services along their seasonal movement pathways. However, owing to the challenges of planning for features that are spatially and temporally variable, mobile species are rarely accounted for in conservation planning. To protect this dynamic process, planners need a temporally explicit surrogate for species seasonal movement pathways. Because reserve networks typically aim to represent the full spectrum of biodiversity, these surrogates also need to capture the assemblage‐level organization of species in order to preserve the full range of seasonal movement pathways that occur within a given planning region. To this end, this study introduces a new assemblage‐level surrogate strategy for species seasonal movements that preserves variation in biodiversity across the 12 months. Two monthly, assemblage‐level attributes were integrated: discrete species assemblages and continuous assemblage suitability, thereby allowing planners to select complementary combinations of sites that achieve comprehensive assemblage coverage in each month. As a marine case‐study, this strategy was applied to the US Mid‐Atlantic, and a gap analysis was used to evaluate the ability of the Mid‐Atlantic's current spatial management scheme to accommodate species' seasonal movements. The results indicate that current protected areas in the Mid‐Atlantic will be unable to meet even modest quantitative objectives for protecting seasonal movements, and priority conservation areas are identified for designing a reserve network that offers year‐round protection. Planning for processes remains a significant gap in conservation planning, and this study seeks to address this gap by proposing a surrogate strategy that will aid the incorporation of a widespread dynamic process into reserve design. This strategy uses public, predominantly global datasets that have terrestrial and marine counterparts, making it applicable to planning for species seasonal movements both on land and at sea.

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Environmental influence on the seasonal movements of satellite-tracked ocean sunfish Mola mola in the north-east Atlantic

Cited by 36 publications

References 73 publications

New insights into ocean sunfish (Mola mola) abundance and seasonal distribution in the northeast Atlantic

New insights into ocean sunfish (Mola mola) abundance and seasonal distribution in the northeast Atlantic

Records of ocean sunfish Mola mola along the Norwegian coast spanning two centuries, 1801–2015

Planning for dynamic process: An assemblage‐level surrogate strategy for species seasonal movement pathways

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