K Zachariassen

Publications (4)6.17 Total impact

• Article: The Siberian timberman Acanthocinus aedilis: a freeze-tolerant beetle with low supercooling points.

  E Kristiansen, N G Li, A I Averensky, A E Laugsand, K E Zachariassen
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  ABSTRACT: Larvae of the Siberian timberman beetle Acanthocinus aedilis display a number of unique features, which may have important implications for the field of cold hardiness in general. Their supercooling points are scattered over a wide temperature range, and some individuals have supercooling points in the low range of other longhorn beetles. However, they differ from other longhorn beetles in being tolerant to freezing, and in the frozen state they tolerate cooling to below -37 degrees C. In this respect they also differ from the European timberman beetles, which have moderate supercooling capacity and die if they freeze. The combination of freezing tolerance and low supercooling points is unusual and shows that freezing at a high subzero temperature is not an absolute requirement for freezing tolerance. Like other longhorn beetles, but in contrast to other freeze-tolerant insects, the larvae of the Siberian timberman have a low cuticular water permeability and can thus stay supercooled for long periods without a great water loss. This suggests that a major function of the extracellular ice nucleators of some freeze-tolerant insects may be to prevent intolerable water loss in insects with high cuticular water permeability, rather than to create a protective extracellular freezing as has generally been assumed. The freezing tolerance of the Siberian timberman larvae is likely to be an adaptation to the extreme winter cold of Siberia.
  Journal of Comparative Physiology B 02/2009; 179(5):563-8. · 1.97 Impact Factor
• Article: Is the strategy for cold hardiness in insects determined by their water balance? A study on two closely related families of beetles: Cerambycidae and Chrysomelidae.

  K E Zachariassen, N G Li, A E Laugsand, E Kristiansen, S A Pedersen
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  ABSTRACT: The strategy for cold-hardiness and water balance features of two closely related families of Coleoptera, Cerambycidae and Chrysomelidae, were investigated. Cerambycids were freeze-avoiding with low supercooling points, whereas chrysomelids froze at high temperatures and were tolerant to freezing. Hence, the two families have adopted different strategies for cold-hardiness. Due to their low trans-cuticular water permeability, the cerambycids have low rates of evaporative water loss. Chrysomelids have much higher trans-cuticular water permeability, but freezing brings their body fluids in vapour pressure equilibrium with ice and prevents evaporative water loss. The differences in cold-hardiness strategies and rates of water loss are likely to reflect the water content of the diets of the two families. Cerambycids feed on dry wood with low water content, causing a restrictive water balance. Chrysomelids feed on leaves with high water content and may use evaporation through the cuticle as a route of water excretion. Haemolymph ice nucleators help chrysomelids to freeze at a high temperature and thus to maximize the period they spend in the water saving frozen state. The diet-related differences in water balance may be the reason why the two families have developed different strategies for cold-hardiness.
  Journal of Comparative Physiology B 07/2008; 178(8):977-84. · 1.97 Impact Factor
• Article: Sodium regulation during dehydration of a herbivorous and a carnivorous beetle from African dry savannah.

  S A. Pedersen, K E. Zachariassen
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  ABSTRACT: The sodium regulation of carnivorous carabid beetles of the genus Cypholoba and herbivorous tenebrionid beetles of the species Phrynocolus petrosus from dry savannah in East Africa was investigated while the beetles went through dehydration in the laboratory. In both species the water loss took place mainly at the expense of the extracellular fluid, and in both species the loss of extracellular water was accompanied by a loss of extracellular sodium. In the carabid beetles the sodium removed from the extracellular fluid was excreted from the body, while in the tenebrionids sodium was kept within the body. It is proposed that the different manners in which the two species handle their sodium reflect differences in their access to dietary water and sodium.
  Journal of insect physiology 11/2002; 48(10):925-932. · 2.24 Impact Factor
• Article: Nordic project on corrosion in electronics. Atmospheric corrosion in gold plated connector contacts

  Risto Hienonen, T. Saarinen, J. Henriksen, J. Leygraf, K. Zachariassen
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  ABSTRACT: 5th Atmospheric corrosion in electronics - a comparative study on field and laboratory test results of various electronic contacts. Electronic Contacts. Paris, 20 - 24 June 1988, 265 - 270