Abstract
All entomological traps have a capturing bias, and amber, viewed as a trap, is no exception. Thus the fauna trapped in amber does not represent the total existing fauna of the former amber forest, rather the fauna living in and around the resin producing tree. In this paper we compare arthropods from a forest very similar to the reconstruction of the Miocene Mexican amber forest, and determine the bias of different trapping methods, including amber. We also show, using cluster analyses, measurements of the trapped arthropods, and guild distribution, that the amber trap is a complex entomological trap not comparable with a single artificial trap. At the order level, the most similar trap to amber is the sticky trap. However, in the case of Diptera, at the family level, the Malaise trap is also very similar to amber. Amber captured a higher diversity of arthropods than each of the artificial traps, based on our study of Mexican amber from the Middle Miocene, a time of climate optimum, where temperature and humidity were probably higher than in modern Central America. We conclude that the size bias is qualitatively independent of the kind of trap for non–extreme values. We suggest that frequent specimens in amber were not necessarily the most frequent arthropods in the former amber forest. Selected taxa with higher numbers of specimens appear in amber because of their ecology and behavior, usually closely related with a tree–inhabiting life. Finally, changes of diversity from the Middle Miocene to Recent time in Central and South America can be analyzed by comparing the rich amber faunas from Mexico and the Dominican Republic with the fauna trapped using sticky and Malaise traps in Central America.
Highlights
The study of the evolution of ecosystems over geological time is one of the most intricate topics in paleontological research, especially in terrestrial tropical areas with a very high organismalPLOS ONE | DOI:10.1371/journal.pone.0118820 March 18, 2015Taphonomy of Arthropods in Amber
For a comprehensive reconstruction of the ancient amber forest it is necessary to obtain systematic, palaeoecological and biogeographical information from the amber and its inclusions, and a better understanding of the taphonomic processes that transfer a diverse living community into a fragmentary fossil taphocoenosis. To study those processes more than 50,000 recent arthropods have been collected from seven different types of traps placed in two collection sites in Chiapas, Mexico and compared to almost 3,000 Mexican amber fossil arthropod specimens from various institutions
The 2,824 Mexican amber inclusions used in this research for comparison with the entrapped arthropods belong to four collections: (1) Staatliches Museum für Naturkunde, (SMNS), Stuttgart, Germany; (2) University of California, Museum of Paleontology (UCMP), Berkeley, California, USA; (3) Museo de Paleontología (IHNE), Chiapas, Mexico; and (4) Naturmuseum Senckenberg (SMF), Frankfurt, Germany
Summary
The study of the evolution of ecosystems over geological time is one of the most intricate topics in paleontological research, especially in terrestrial tropical areas with a very high organismal. The extant forest of the Pacific coast of Southern Mexico, in the state of Chiapas, in the biosphere reserve “La Encrucijada” (Fig. 1), shows great similarity of floral composition with the former amber forest, characterized as a tropical lowland area close to mangroves [8, 18] In this area, almost all of the living plants were recognized by Graham [19], Martínez–Hernández [20] and Langenheim [18] from the palynological record of the amber bearing sediments [8]. For a comprehensive reconstruction of the ancient amber forest it is necessary to obtain systematic, palaeoecological and biogeographical information from the amber and its inclusions, and a better understanding of the taphonomic processes that transfer a diverse living community into a fragmentary fossil taphocoenosis To study those processes more than 50,000 recent arthropods have been collected from seven different types of traps placed in two collection sites in Chiapas, Mexico and compared to almost 3,000 Mexican amber fossil arthropod specimens from various institutions. This was not possible because of the small amount of resin production in the tested trees
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