Body mass-related shift in movement behaviour in the isopod<i>Lekanesphaera hookeri</i>(Isopoda, Flabellifera): A laboratory study

Potenza, Luigi; Mancinelli, Giorgio

doi:10.1080/11250000903449860

Cited by 17 publications

(6 citation statements)

References 36 publications

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“…The implementation of RInSp to calculate n ‐level hierarchical variance components on both discrete and continuous data is straightforward and will represent a major improvement in the power of the package to highlight changes across different levels of ecological organization in individual diet specialization and, in general, individual traits ranging from leaf area in plants to movement tortuosity in animals (e.g. Cornwell & Ackerly ; Mancinelli ; Potenza & Mancinelli ). The package includes the function Hier2L as a purely introductory illustration of these forthcoming features.…”

Section: Future Implementations Of Rinspmentioning

confidence: 99%

RInSp: an r package for the analysis of individual specialization in resource use

2013

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Summary1. In the last decade, an increasing number of papers testifies a renewed interest in the topic of individual specialization in resource use and its implication at higher levels of ecological organization. 2. We present the package R Individual Specialization (RInSp) for the free open-source statistical software R. RInSp provides a comprehensive set of classical and recently proposed indices for quantifying the degree of individual specialization using both categorical and continuous resource use data. The package also includes tools for ad hoc Monte Carlo and jackknife resampling procedures for significance testing, plotting and input/output data manipulation. 3. The use of RInSp is demonstrated by two examples. In addition, the potential of the package to be implemented beyond its original scope for multi-level quantitative analyses of individual trait variance in natural communities is illustrated.

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Section: Future Implementations Of Rinspmentioning

confidence: 99%

RInSp: an r package for the analysis of individual specialization in resource use

2013

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“…For small animals and invertebrates, the techniques for the detection of motor activity take advantage of sensors based on different technologies: ultrasound [6], infra-red beams [7], stabilimeters [8], running-wheels [9], capacity transducers [10], sound detectors [11], radars [12] and video-tracking [13]. Among them, the techniques based on infra-red beam have numerous advantages: they allow the automatic monitoring of the general motor activity of the animals directly in its home cage without perturbing the pattern of its normal behaviour: it is not intrusive, it produces suitable output for direct computer analysis and it is adaptable to different conditions.…”

Section: Introductionmentioning

confidence: 99%

A new data logger based on Raspberry-Pi for Arctic Notostraca locomotion investigations

et al. 2017

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“…With 1994a, b;Angilletta et al 2008;Allema et al 2012Allema et al , 2014Kissling et al 2014; Barnes et al 2015). Only recently, attention has been given to brackish Mediterranean isopods (Mancinelli 2010;Potenza and Mancinelli 2010) and, subsequently, to other representative gastropod and crustacean species occurring in temperate environments Seuront 2011, 2013;Longo et al 2015;Augusiak and Van den Brink 2015).…”

Section: Introductionmentioning

confidence: 99%

Body size-related constraints on the movement behaviour of the arctic notostracan Lepidurus arcticus (Pallas, 1973) under laboratory conditions

Mancinelli

Pasquali

2016

Rend. Fis. Acc. Lincei

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The movement behaviour of individuals has long been acknowledged as a key determinant of species distribution in space and time. Information on benthic macroinvertebrates from aquatic habitats are still scant, however, and for polar species are virtually nonexistent. Here, the influence of body size on the movement behaviour of the arctic notostracan Lepidurus arcticus (Pallas) was examined under resource-free laboratory conditions. The mean step length, total path length and average speed were determined for specimens varying in body dry mass by six orders of magnitude. The scale-independent fractal dimension D was used to quantify movement path tortuosity. Among the different movement metrics considered, the body size of specimens scaled significantly only with path tortuosity; specifically, a negative relationship with a breakpoint was observed between individual body masses and the D values of the respective movement paths. The results are discussed considering similar results obtained for benthic crustaceans from temperate habitats. Additionally, their implications for future investigations explicitly considering temperature effects on movement behaviour are briefly considered. Keywords Arctic tadpole shrimp Á Locomotor activity Á Individual differences Á Fractal dimension This peer-reviewed article is a result of the multi and interdisciplinary research activities based at the Arctic Station ''Dirigibile Italia'', coordinated by the ''Dipartimento Scienze del Sistema Terra e Tecnologie per l'Ambiente'' of the National Council of Research of Italy.

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Body mass-related shift in movement behaviour in the isopodLekanesphaera hookeri(Isopoda, Flabellifera): A laboratory study

Cited by 17 publications

References 36 publications

RInSp: an r package for the analysis of individual specialization in resource use

RInSp: an r package for the analysis of individual specialization in resource use

A new data logger based on Raspberry-Pi for Arctic Notostraca locomotion investigations

Body size-related constraints on the movement behaviour of the arctic notostracan Lepidurus arcticus (Pallas, 1973) under laboratory conditions

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