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Grant, J. K. (Ed.): Biochemical Society Symposia 23. Methods of separation of subcellular structural components. London, Cambridge University Press, 1963, 157 S., 31 Abb., Leinen, 35 s. Reviewed by H.-W. Wache. Smith, Audrey U.: Biological effects of freezing and supercooling. London, Edward Arnold (Publishers) Ltd., 1961, 462 S., 157 Abb., Leinen, 55 s. Reviewed by H. Wartenberg. Loiseleur, J. (Ed.): Techniques de laborafoire. I. Chimie physiquechimie biologique, in 2 Bünden, 3. Aufl., Paris, Masson et Cie Editeurs, 381 Abb., Leinen, 190. Reviewed by F. H. Wolffgang. Jirgensons, B.: Natural organic macro-molecules. Oxford, London, New York, Paris, Pergamon Press, 404 S., 103 Abb., Kunststoff, 63 s. Reviewed by H. Wolffgang. Laverack, M. S.: The Physiology of Earthworms. Oxford, Pergamon Press, 1963, 206 S., 58 Abb., Lwd., 45 s. Reviewed by R. Fritzsche. Thorn, G. D.; Ludwig, R. A.: The dithiocarbamates and related compounds. (Elsevier Monographs-chemistry section.) Amsterdam, London, New York, Elsevier Publishing Company, 1962, 300 S., 6 Abb., Leinen, 20,- Dfl. (22,50 DM). Reviewed by P. Neubert. Zweig, G. (Ed.): Analytical methods for pesticides, plant gowth regulators, and food additives. Vol. 1: Principles, methods, and general applications. New York and London, Academic Press Inc., 1963, 637 S., 95 Abb., Leinen, 24,- S. Reviewed by E. Heinisch. Dufay, C: Faune terrestre et d'eau douce des Pyrénées-Orientales. VI. Lépidoptères. I. Macrolépidoptères. Paris, Hermann Verlag, 153 S., brosch., 12 NF. Reviewed by G. Friese. Dethier, V. G.: The physiology of insect senses. London, Methuen & Co. Ltd., 266 S., 99 Abb., Kunststoff, 42 s. Reviewed by H. J. Müller. Preston, R. D. (Ed.): Advances in botanical research. Vol. 1. London & New York, Academic Press, 384 S., 119 Abb., Leinen, 70 s. Reviewed by K. Schmelzer. Horecker, B. L.: Pentose metabolism in bacteria. (CIBA Lectures in microbial biochemistry.) New York, London, John Wiley & Sons, 100 S., 54 Abb., Leinen, 30 s. Reviewed by H. Opel. Knight, C. A.: Handbuch der Protoplasmaforschung. Bd. IY/2, Wien, Springer-Verlag, 1963, 177 S., 27 Abb., brosch., DM 48,-. Reviewed by H. Wolffgang. Bailey, J. L.: Techniques in profein chemistry. Amsterdam, London, New York, Elsevier Publishing Company, 1962,310 S., 90 Abb., Leinen, 30,- Dfl. (33,50 DM). Reviewed by H. Hofferek. Grassé, P.-P. (Ed.): Botanique. Anatomie — Cycles Evolutifs — Systématique. Paris, Masson et Cie Editeurs, 1963, 1039 S., 618 Abb., Leinen, 98 F. Reviewed by K. Schmelzerm. Schmitt, F. O. (Ed.): Macromolecular specificity and biological memory. Cambridge (Mass.), The M. I. T. Press Massachusetts Institute of Technology. 1962, 119 S., Karton, 23 s. Reviewed by J. Segal. 相似文献
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Marie-Stéphane Tixier Serge Kreiter Philippe Auger Marc Weber 《Experimental & applied acarology》1998,22(9):523-542
A natural increase of phytoseiid mite populations (Kampimodromus aberrans, Typhlodromus pyri and Phytoseius plumifer) was observed in vineyards in Languedoc, Burgundy and Corsica under integrated pest management strategies. The aim of the present study was to characterize the mechanisms of this colonization in space and time in Languedoc. The abundance of phytoseiid mites in the vegetation close to three grape fields was determined twice a year (May and July). Aerial (funnels with water) and soil (felt strip) traps were placed in and around grape fields, in order to assess the colonization potential provided by aerial dispersal and ambulatory locomotion. The populations of phytoseiid mites in the crops were studied twice a month in order to gain information on the make up of the dispersal populations. The species K. aberrans was found in largest quantities in the traps, in the natural vegetation and in the crops. Predatory mite dispersal occurred essentially by aerial dispersal and was dependent on the wind intensity and wind direction. Identical sex ratios were observed in migrant populations and in populations present in the grape fields, woody areas and hedges. A large proportion of immatures was found to move by aerial dispersal. The colonization potential (rapidity, intensity and regularity) was directly associated with the abundance of the phytoseiids and the proximity of natural vegetation. A deep, dense and tall woody area containing suitable host plants for predatory mites constituted the most stable source of phytoseiid mites. Natural colonization of vineyards provides considerable phytoseiid mite potential that could be managed in an agricultural landscape. 相似文献
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