Behavioural responses of krill and cod to artificial light in laboratory experiments

Utne‐Palm, Anne Christine; Breen, Michael J.; Løkkeborg, Svein; Humborstad, Odd Børre

doi:10.1371/journal.pone.0190918

Cited by 33 publications

(22 citation statements)

References 41 publications

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“…Once the initial salamander was captured, other stimuli, perhaps motion from previously captured salamanders, may have affected the numbers of salamanders present in successful traps. Many animals are attracted to motion from potential prey or mates and the stimulus of motion, when present, may affect behavior more than color or light stimuli (Schaerer and Neumeyer 1996, Utne‐Palm et al 2017). However, initial capture of salamanders (trap success) was biased strongly toward a particular color, orange, despite the brighter luminance and greater total quantum catches of yellow and green glow sticks.…”

Section: Discussionmentioning

confidence: 99%

“…The magnitude of attraction of teleost fish to light sources can vary based on light intensity or color of the lights (Nemeth and Andersen 1992, Marchesan et al 2005, Ford et al 2018, Wei et al 2019). Although many studies have investigated preferences of teleost fish toward light sources, few studies have compared behaviors with variation in intensity and wavelength of these light sources (Marchesan et al 2005, Utne‐Palm et al 2017, Ford et al 2018, Hansen et al 2018). Further, little is known about what light intensities and colors best attract nonfisheries species (but see Cruz et al 2018 for turtles, Poot et al 2008 for migrating birds).…”

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confidence: 99%

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The Right Light: Tiger Salamander Capture Rates and Spectral Sensitivity

Liebgold

Carleton

2020

Wildl. Soc. Bull.

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Knowledge of population dynamics is critical for species of conservation concern so wildlife researchers need to take advantage of biases in animals' behaviors that could help them monitor populations. This is particularly important for amphibians because many populations are declining and difficult to observe. Attraction of vertebrates to light is a well‐known navigational cue and some fisheries strategies utilize light sources to increase catch success. To optimize population monitoring of state‐endangered eastern tiger salamanders (Ambystoma tigrinum), we tested the utility of colored glow sticks (green, orange, pink, or yellow) as bait in traps in Maryland and Delaware, USA, during 2015–2016. We then measured intensities of the colored glow sticks and estimated photoreceptive quantum catches of each color according to the spectral sensitivities of eastern tiger salamanders. We found that eastern tiger salamanders' photoreceptors had greater quantum catches of photons from green and yellow glow sticks. However, traps baited with orange glow sticks were more than twice as likely to capture eastern tiger salamanders than were traps baited with green or yellow. There were no differences in the number of salamanders caught per successful trap among glow stick colors, perhaps due to attraction of salamanders to motion from previously captured salamanders. Our results indicate that biases other than perceived intensity of light sources may drive behavioral preferences. © 2020 The Wildlife Society.

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

The Right Light: Tiger Salamander Capture Rates and Spectral Sensitivity

Liebgold

Carleton

2020

Wildl. Soc. Bull.

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“…; Utne‐Palm et al. ). In the case of snow crabs, much remains unknown about how and why light increases the CPUE of traps.…”

Section: Discussionmentioning

confidence: 99%

“…; Utne‐Palm et al. ). To our knowledge, very little is known about how snow crabs see and perceive light, or about the structure, function, or evolution of their eyes.…”

Section: Discussionmentioning

confidence: 99%

“…However, in some cases the mechanism may be more complicated. For example, evidence suggests that Atlantic Cod are not necessarily attracted to artificial light, but instead can be enticed to enter a trap in pursuit of prey, which are themselves attracted by the light Utne-Palm et al 2018). In the case of snow crabs, much remains unknown about how and why light increases the CPUE of traps.…”

Section: Discussionmentioning

confidence: 99%

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Application of Luminescent Netting in Traps to Improve the Catchability of the Snow Crab Chionoecetes opilio

et al. 2019

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In this study, we investigated luminescent netting as a means to improve the catch rates of snow crabs Chionoecetes opilio. A laboratory experiment was conducted to investigate the intensity and duration of luminescence using time‐lapse photography. We exposed experimental traps to five different treatments of UV light to excite the luminescent fibers in the netting. Our results showed that luminescent netting can be effectively activated to emit light, and that the resulting intensity and duration of luminescence emitted over time depends on the initial duration of UV exposure and the source of light. A fishing experiment was subsequently conducted in eastern Canada to compare the catch rate of traditional and luminescent traps, and to determine how soak time affected catch rate. Results indicate that the effect of luminescent traps on the CPUE (measured as number of crab per trap) depended on the soak time. The CPUE was significantly higher (a 55% increase) in luminescent traps that underwent relatively short soak times (~1 d), but when soak times were longer (~8 d), the CPUE was not significantly different.

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What the flux? Uncertain response of ocean biological carbon export in a changing world

Henson

Laufkötter

Leung

et al. 2021

Preprint

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The export flux of organic carbon from the upper ocean is the starting point of the transfer and long term storage of photosynthetically-fixed carbon in the deep ocean. This "biological carbon pump" is a significant component of the global carbon cycle, reducing atmospheric CO2 levels by ˜50%. Carbon exported out of the upper ocean also fuels the productivity of the mesopelagic zone, including significant fisheries. Despite its importance, export flux is poorly constrained in Earth System Models, with the modelled range in projected future global-mean changes due to climate warming spanning +1.8 to -41%. Fundamental constraints to understanding export flux arise because a myriad of interconnected processes make the biological carbon pump challenging to both observe and model. Our synthesis prioritises the processes likely to be most important to include in modern-day estimates and future projections of export, as well as identifying the observations and model developments required to achieve more robust characterisation of this important planetary carbon flux. We identify particle fragmentation and zooplankton vertical migration as the mechanisms most likely to substantially influence the magnitude of present-day modelled export flux. Of the processes sufficiently understood to allow implementation in climate models, projections of future export flux and feedbacks to climate are likely to be most sensitive to changes in phytoplankton and particle size spectra, and to temperature-dependent remineralisation. "Known unknown" processes which are not currently represented in models and will have an uncertain impact on future projections include particle stickiness and fish vertical migration. With the advent of new observational technologies, such as biogeochemical-Argo floats and miniaturised camera systems, we will be able to better parameterize models and thus decrease uncertainties in current and future export flux.

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Behavioural responses of krill and cod to artificial light in laboratory experiments

Cited by 33 publications

References 41 publications

The Right Light: Tiger Salamander Capture Rates and Spectral Sensitivity

The Right Light: Tiger Salamander Capture Rates and Spectral Sensitivity

Application of Luminescent Netting in Traps to Improve the Catchability of the Snow Crab Chionoecetes opilio

What the flux? Uncertain response of ocean biological carbon export in a changing world

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