The metabolic cost of incline locomotion in the Svalbard rock ptarmigan (Lagopus muta hyperborea): the effects of incline grade and seasonal fluctuations in body mass

2012 ◽  
Vol 216 (8) ◽  
pp. 1355-1363 ◽  
Author(s):  
J. Lees ◽  
L. Folkow ◽  
K.-A. Stokkan ◽  
J. Codd
Keyword(s):  
Body Mass ◽  
Metabolic Cost ◽  
Rock Ptarmigan ◽  
Seasonal Fluctuations ◽  
Lagopus Muta

scholarly journals Reduced Metabolic Cost of Locomotion in Svalbard Rock Ptarmigan (Lagopus muta hyperborea) during Winter

PLoS ONE ◽  
2010 ◽  
Vol 5 (11) ◽  
pp. e15490 ◽  
Author(s):  
John Lees ◽  
Robert Nudds ◽  
Karl-Arne Stokkan ◽  
Lars Folkow ◽  
Jonathan Codd
Keyword(s):  
Metabolic Cost ◽  
Rock Ptarmigan ◽  
Cost Of Locomotion ◽  
Lagopus Muta

scholarly journals The Influence of snow properties on speed and gait choice in the Svalbard rock ptarmigan (Lagopus muta hyperborea)

2021 ◽  
Author(s):  
Andres Mármol-Guijarro ◽  
Robert Nudds ◽  
Lars Folkow ◽  
William Sellers ◽  
Peter Falkingham ◽  
...  
Keyword(s):  
Stride Length ◽  
Metabolic Cost ◽  
Energy Costs ◽  
Rock Ptarmigan ◽  
Snow Properties ◽  
Cost Of Locomotion ◽  
3D Photogrammetry ◽  
Intertarsal Joint ◽  
Lagopus Muta ◽  
Thin Blade

Abstract Substrate supportiveness is linked to the metabolic cost of locomotion, as it influences the depth to which the foot of a moving animal will sink. As track depth increases animals typically reduce their speed to minimise any potential energetic imbalance. Here we examine how self-selected speed in the Svalbard rock ptarmigan is affected by snow supportiveness and subsequent footprint depth measured using thin-blade penetrometry and 3D photogrammetry, respectively. Our findings indicate that snow supportiveness and footprint depth are poor predictors of speed (r2 = 0.149) and stride length (r2 = 0.106). The ptarmigan in our study rarely sunk to depths beyond the intertarsal joint, regardless of the speed, suggesting that at this relatively shallow depth any increased cost is manageable. 3D reconstructions also indicate that the ptarmigan may exploit the compressive nature of snow to generate thrust during stance, as a trend towards greater foot rotations in deeper footprints was found. It remains unclear if the Svalbard ptarmigan are deliberately avoiding unsupportive snowy substrates. However, if they do, these results would be consistent with the idea that animals should choose routes that minimise energy costs of locomotion. Resumen La firmeza del sustrato se asocial al costo metabólico de la locomoción ya que influencia cuán profundo las extremidades de un animal se hunden al moverse. A medida hundimiento aumenta, usualmente los animales reducen su velocidad para minimizar potenciales desbalances energéticos. En este estudio examinamos cómo la velocidad de la perdiz de la roca de Svalbard es afectada por la firmeza del sustrato y la profundidad de hundimiento de sus patas, usando penetrometría y fotogrametría 3D, respectivamente. Nuestros resultados indican que la firmeza de la nieve y la profundidad de hundimiento de las patas no son buenos predictores de la velocidad (r2 = 0.149) y de la longitud de la zancada (r2 = 0.106). La profundidad de las huellas de las perdices de nuestro estudio rara vez sobrepasó la altura de la articulación intertarsal, independientemente de la velocidad de locomoción, sugiriendo que a profundidades relativamente menores los costos energéticos son manejables. Las reconstrucciones 3D también indican que las perdices podrían aprovechar la naturaleza compresiva de la nieve para generar suficiente empuje durante la fase de soporte, ya que se encontró una tendencia hacia mayores rotaciones de la pata en huellas más profundas. Es incierto si las perdices de Svalbard deliberadamente evitan áreas con nieve más blanda. Sin embargo, si lo hacen, estos resultados serían consistentes con la idea de que los animales deberían seleccionar rutas que minimizan los gastos energéticos en locomoción.

Rock Ptarmigan (Lagopus muta)

2020 ◽  
Author(s):  
Robert Montgomerie ◽  
Karen Holder
Keyword(s):  
Rock Ptarmigan ◽  
Lagopus Muta

THE ENERGETIC COSTS OF CALLING IN THE BUSHCRICKET REQUENA VERTICALIS (ORTHOPTERA: TETTIGONIIDAE: LISTROSCELIDINAE)

1993 ◽  
Vol 178 (1) ◽  
pp. 21-37 ◽  
Author(s):  
W. J. Bailey ◽  
P. C. Withers ◽  
M. Endersby ◽  
K. Gaull
Keyword(s):  
Body Mass ◽  
Sound Pressure ◽  
Metabolic Cost ◽  
Acoustic Power ◽  
Metabolic Energy ◽  
Energetic Cost ◽  
Metabolic Efficiency ◽  
Metabolic Costs ◽  
Sound Pressure Levels ◽  
The Relationship

1. The metabolic costs of calling for male Requena verticalis Walker (Tettigoniidae: Listroscelidinae) were measured by direct recordings of oxygen consumption. The acoustic power output was measured by sound pressure levels around the calling bushcricket. 2. The average metabolic cost of calling was 0.143 ml g-1 h-1 but depended on calling rate. The net metabolic cost of calling per unit call, the syllable, was calculated to be 4.34×10-6+/−8.3×10-7 ml O2 syllable-1 g-1 body mass (s.e.) from the slope of the relationship between total V(dot)O2 and rate of syllable production. The resting V(dot)O2, calculated as the intercept of the relationship, was 0.248 ml O2 g-1 body mass h-1. 3. The energetic cost of calling for R. verticalis (average mass 0.37 g) was estimated at 31.85×10-6 J syllable-1. 4. Sound pressure levels were measured around calling insects. The surface area of a sphere of uniform sound pressure level [83 dB SPL root mean square (RMS) acoustic power] obtained by these measurements was used to calculate acoustic power. This was 0.20 mW. 5. The metabolic efficiency of calling, based on total metabolic energy utilisation, was 6.4 %. However, we propose that the mechanical efficiency for acoustic transmission is closer to 57 %, since only about 10 % of muscle metabolic energy is apparently available for sound production. 6. R. verticalis emits chirps formed of several syllables within which are discrete sound pulses. Wing stroke rates, when the insect is calling at its maximal rate, were approximately 583 min-1. This is slow compared to the rates observed in conehead tettigoniids, the only other group of bushcrickets where metabolic costs have been measured. The thoracic temperatures of males that had been calling for 5 min were not significantly different from those of non-calling males. 7. For R. verticalis, calling with relatively slow syllable rates may reduce the total cost of calling, and this may be a compensatory mechanism for their other high energetic cost of mating (a large spermatophylax).

Co-feeding between Svalbard Rock Ptarmigan (Lagopus muta hyperborea) and Svalbard Reindeer (Rangifer tarandus platyrhynchus)

ARCTIC ◽  
2009 ◽  
Vol 59 (1) ◽  
Author(s):  
Å.O. Pedersen ◽  
M. Lier ◽  
H. Routti ◽  
H.H. Christiansen ◽  
E. Fuglei
Keyword(s):  
Rangifer Tarandus ◽  
Rock Ptarmigan ◽  
Svalbard Reindeer ◽  
Lagopus Muta

Natal Dispersal and Survival of Juvenile Rock Ptarmigan Lagopus Muta in the French Alps and Pyrenees

Ardeola ◽  
2020 ◽  
Vol 68 (1) ◽  
Author(s):  
Claude Novoa ◽  
Jean Resseguier ◽  
Bertrand Muffat-Joly ◽  
Josep Blanch Casadesus ◽  
Marc Arvin-Bérod ◽  
...  
Keyword(s):  
Natal Dispersal ◽  
Rock Ptarmigan ◽  
French Alps ◽  
Lagopus Muta

Cadmium concentrations in tissues of willow ptarmigan (Lagopus lagopus) and rock ptarmigan (Lagopus muta) in Nunavik, Northern Québec

2007 ◽  
Vol 147 (3) ◽  
pp. 642-647 ◽  
Author(s):  
Jean Rodrigue ◽  
Louise Champoux ◽  
Daniel Leclair ◽  
Jean-François Duchesne
Keyword(s):  
Rock Ptarmigan ◽  
Willow Ptarmigan ◽  
Lagopus Lagopus ◽  
Lagopus Muta

Carrying Loads. The Cost of Generating Muscular Force

Physiology ◽  
1986 ◽  
Vol 1 (5) ◽  
pp. 153-155
Author(s):  
CR Taylor
Keyword(s):  
Body Mass ◽  
Metabolic Cost ◽  
African Women ◽  
Muscular Force ◽  
Load Carrying ◽  
The Cost

African women can carry loads of 20% of their body mass on their heads without measurable metabolic cost. In contrast, trained or untrained humans and animals increase their metabolism by 20% when they carry loads of this magnitude. Two possible mechanisms are proposed for the women's economic means of load carrying, based on considerations of the cost of generating muscular force during locomotion.

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