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Eintrag Nr. 43154
Combining Geometric Morphometrics and population genetics to evaluate effects of persistent organic pollutants in Alpine bumblebees
Übergeordnete Einträge
ID
TITEL
DATENTYP
AUTOR
JAHR
NPHT
Diplomarbeiten und Dissertationen
Project
Nationalpark Hohe Tauern
2019
40062
Nationalparks Austria Forschungsstipendium / Forschungspreis
Project
2018
Weitere Informationen
http://www.parcs.at/npa/pdf_public/2021/43154_20211005_121139_Masterthesis_SabrinaGurten.pdf
Interne Informationen
-
Externe Informationen
-
Datentyp
Publication
Dateiname
Masterthesis_SabrinaGurten
Pfad
X:\BEFIT\Forschung\Forschungsstipendium\Ergebnisse\Gurten Hohe Tauern
Alternativ/Online Name
-
Autor/Ersteller
Sabrina Gurten
Medium
File (digital)
Jahr
2019
Monat
0
Aufbewahrungsort
-
Bemerkungen/Beschreibung
Insects face a major threat: In recent years, studies around the globe have reported huge declines not only in diversity but also in terms of biomass. Among the main drivers for this substantial insect loss are man-made, globally distributed pollutants. Some of these harmful substances, so called persistent organic pollutants (POPs), are traceable over decades even far away from their original source and therefore are of great concern. Atmospherically carried POPs get primarily deposited through precipitation. Mountainous regions are characterized by particularly high precipitation rates, resulting in a high deposition of POPs transported over long distances. Nevertheless, only a few field studies have yet addressed the toxicological effects of POPs on the health state and developmental integrity of alpine organisms. Here, the local accumulation of atmospherically measured POPs and mercury was assessed in two bumblebee species occurring above the tree line at Zugspitze (Germany) and at Hoher Sonnblick (Austria): Bombus wurflenii represents a typical species of high-altitude habitats, while B. pratorum displays a ubiquitous distribution across all altitudinal levels. We detected nearly half of all 77 persistent pollutants tested, as well as mercury, in all bumblebee samples. By means of population genetics we were able to disentangle genetic factors, like inbreeding, and environmental stressors affecting the two bumblebee species, as both stressors are potential fitness constraints. Coupled with the results from geometric morphometrics, we could confirm environmentally induced phenotypic changes in bumblebee wings: We found, with few exceptions, highly positive correlations for POPs or mercury and fluctuating asymmetry in the wing shape of B. wurflenii. In contrast, B. pratorum was less responsive to the pollution, presumably due to different strategies in feeding and nesting behavior. These findings emphasize the importance of species-specific chemical analyses to relate pollution levels to fitness proxies. In the context of the rapidly progressing global change, there is an urgent need to find a way to better protect and conserve alpine biodiversity across national borders.
Abgeleitete Einträge
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