Refine
Year of publication
- 2003 (29) (remove)
Document Type
- Article (29) (remove)
Language
- German (29) (remove)
Institute
- Institut für Biochemie und Biologie (29) (remove)
Recently, much ecological research has focused on predicting invasions of alien species in order to prevent potentially negative effects of such invasions. In this study, we utilize novel methods of landscape ecology for testing the hypothesis that increasing structural diversity correlates with an increasing number of alien plant species. Our overall findings support this hypothesis and suggest that in the studied area (RB Dessau, Sachsen Anhalt, Germany), species richness of neophytes is positively correlated with the diversity in land-use types and structures. However, this relationship between structural diversity and species diversity applied for native spe-cies, too. Furthermore, our results support findings of previous studies which show that neophytes occur mainly in artificially or naturally disturbed areas. Our overall findings highlight the use of landscape-scale ecological methods for studying plant distribution patterns.
Köderauslageintervalle und Dauer der Bekämpfung des Kleinen Fuchsbandwurms : eine Modellierstudie
(2003)
Exkursionsbericht "Exkursion zu den Lübbener Pfaffenbergen und Hartmannsdorfer Wiesen" am 20.07.2002
(2003)
Offenlandmanagement durch kontrolliertes Brennen : ein Beitrag aus sozioökonomischer Perspektive
(2003)
Monoklonale Antikörper
(2003)
Biosensors which make use of the high specificity of enzymes, antibodies, and nucleic acids have been described for detection of numerous metabolites, hormones, and nucleic acid sequences. In addition to biological components nowadays biomimetic recognition molecules are also used. Especially antibodies, aptamers, and molecular imprints are promising biomimetics. They could broaden the range of detectable analytes and could increase the functional stability of the sensor. In this publication we describe the generation of biomimetic antibodies and biomimetic molecular imprints for binding creatinine and for hydrolyzing phenylcarbamates to be used in electrochemical sensors.
Biosensoren
(2003)