The change in genetic diversity down the core‐edge gradient in the eastern spadefoot toad (Pelobates syriacus)

Several hypotheses are available to predict change in genetic diversity when approaching peripheral populations. We used the eastern spadefoot toad in Israel as a model system to examine these hypotheses using population genetics analyses and network theory. Our results contradicted most of the predictions from the ‘abundant centre’ model, that edge populations should have lower density and lower genetic diversity than core populations. Furthermore, dispersal rate between core and peripheral populations is expected to be asymmetric, mostly directed outwards from the core population, but we did not detect such a trend. Our data did not support the hypothesis of no change or a non‐linear change in genetic diversity towards the range edge. However, our results did fit the Fisher (The Genetical Theory of Natural Selection, Clarendon Press, Oxford, 1930) hypothesis, which predicts increase in genetic variability from core to edge of distribution. We attributed this finding to the much harsher climatic and abiotic conditions at the edge, which must be tolerated over generations by both tadpoles and post‐metamorphic individuals in this region. Finally, our results have significant conservation implications for the survival of this species in Israel, where it is critically endangered. We identified two distinct communities, which are genetically linked through two specific rain pools in the Upper Galilee. Details on the spatial subdivision of this species are cardinal for future management and restoration of temporary wetlands in Israel.     

Membrane Changes associated with Malignancy

The specific structural and metabolic changes on the surface membrane which result in agglutinability of transformed cells by concanavalin A are associated with cell malignancy in vivo.     

Defensive ant,aphid and caterpillar mimicry in plants?

Here we describe three apparently novel types of visual insect mimicry in plants. In the first type, plants of Xanthium trumarium L. have dark spots and flecks that resemble ants (Formicidae) in size and shape in the epidermis of stems, branches and petioles, and plants of Arisarum vulgare Targ.-Tozz. have them on petioles and inflorescence stems. In the second type, the dark anthers of Paspalum paspaloides (Michaux) Scribner (= P. distichum ) are the size, shape and colour of aphids (Homoptera; Aphidoidea) and they sway in the wind like swivelling aphids. Similarly, the stems of Alcea setosa (Boiss.) Alef. are covered with dark flecks that look like aphids. Finally, immature pods of three wild annual legumes ( Lathyrus ochrus (L.) DC.; Pisum fulvum Sm.; Vicia peregrina L.) have conspicuous reddish spots, arranged along the pods, that appears to mimic lepidopteran caterpillars. In one of the species ( V . peregrina ) two different mimicking morphs were found. We propose that these morphological traits may serve as herbivore repellent cues and are part of the defence system of the plants.  © 2002 The Linnean Society of London, Biological Journal of the Linnean Society , 2002, 77 , 393–398.     

Resistance to Gibberellin-Induced Changes of Lipid Fluidity in Wheat Embryo Mitochondrial Membranes as Assessed by the Fluorescent Probe 1, 6-Dipheny1-1, 3, 5-hexatriene

As assessed by the fluorescent probe 1, 6-dipheny 1-1, 3, 5-hexatriene(DPH) which is specifically embedded in membrane lipids, mitochondriaisolated from wheat embryos show no changes after either shortor long term incubation with gibberellic acid. Results are discussedin relation to gibberellin-membrane interactions and the purportedrelative stability of the mitochondrial membrane.