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Selected Publication:

SHR Neuro Cancer Cardio Lipid Metab Microb

Novak, T; Lipovsek, S; Sencic, L; Pabst, MA; Janzekovic, F.
Adaptations in phalangiid harvestmen Gyas annulatus and G-titanus to their preferred water current adjacent habitats
ACTA OECOL 2004 26: 45-53. Doi: 10.1016/j.actao.2004.03.004
Web of Science FullText FullText_MUG

 

Co-authors Med Uni Graz

Pabst Maria-Anna

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Abstract:

Gyas annulatus and G. titanus (Arachnids: Opiliones: Phalangiidae) were studied comparatively with special interest in their hypogean ecophase. Direct comparisons were made in two caves where both species overwintered, and in the laboratory. Their chilling hardiness was tested, and the dynamics of lipid and glycogen stocks was studied. Juveniles overwinter inactive in physically unstable stone accumulations close to water currents, and in water- and wet caves. In caves, G. annulatus prefers colder microhabitats (at-0.1 to 2.1 degreesC) near the entrances and close to water surfaces while G. titanus prefers warmer ones (at 4.1-8.3 degreesC) deeper inside and much above the water. G. annatlatus overwinters gregariously, profiting in this way from a collective sensing of sudden water rises, while G. titanus overwinters in a solitary manner. Neither Gyas species is cold hardy during overwintering (LT50 in both about-2 degreesC), while in post- overwintering specimens, a weak cold hardiness appears (in May LT50 in both between -3 and -4 degreesC) which helps them better withstand sudden summer chillings. During overwintering. G. annulatus spends about a quarter of the total energy, but twice as much glycogen as G. titanus; the captive G. annulatus spent 5.20 J g(-1) dry mass day(-1) from 0.122 lipids and 0.026 mg g(-1) dry mass day(-1) glycogen, and G. titanus 21.22 from 0.538 lipids and 0.014 glycogen, respectively. The general energy saving, excessive glycogen supply and overwintering gregariousness in G. annulatits reflect its optimal adaptation to preferred alpine habitats close to water current surfaces in the active ecophase, as well as during lasting overwintering. (C) 2004 Elsevier SAS. All rights reserved.

Find related publications in this database (Keywords)

arachnids

opiliones

cold hardiness

energy supply

overwintering

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