Gefährdete Vegetation und ihre Erhaltung

Ohne Zusammenfassung (Bericht vom 16. Internationalen Symposium über Fragen des Naturschutzes im weiteren Sinne, vom 27.–30. M?rz 1972 in Rinteln/Weser)     

Amino acids in exudates of healthy and fungus-affected pea roots

Summary Amino acids in exudates of uninoculated pea roots were compared quantitatively and qualitatively with exudates of roots inoculated with Gliocladium catenulatum. This fungus has the potential of causing severe root necrosis. Twenty-one amino acids were found in exudates of healthy roots and apparently some of these were utilized by the fungus. A relatively high concentration of ammonia was detected in exudates of inoculated pea roots, indicating an intense deamination by the fungus. No other imbalance in amino acids was found which could be related to known toxic effects of amino acids on plant tissues.     

How meiotic cells deal with non-exchange chromosomes

The chromosomes which segregate in anaphase I of meiosis are usually physically bound together through chiasmata. This association is necessary for proper segregation, since univalents sort independently from one another in the first meiotic division and this frequently leads to genetically unbalanced offspring. There are, however, a number of species where genetic exchanges in the form of meiotic cross-overs, the prerequisite of the formation of chiasmata, are routinely missing in one sex or between specific chromosomes. These species nevertheless manage to segregate these non-exchange chromosomes. There are four direct modes for associating achiasmatic chromosomes: (a) modified SC, (b) adhesion of chromatids comparable to somatic pairing, (c) ‘stickiness’ of heterochromatin or (d) specific ‘segregation bodies’, consisting of material structurally different from chromatin. There is also the possibility that the spindlepossibly joining forces with the kinetochores-carries out the faithful segregation of univalents which are not directly physically attached to one another. Finally, amphitelic orientation of univalents in metaphase I and pairing of the chromatids in meiosis II appear to ensure correct segregation as well.