Tropes

futurity_sci_tech 00015.txt

#Insect tree of life shows bugs ruled prehistoric world A reconstruction of the insect tree of life shows that 400 million years ago the world belonged to bugs. The study answers many long-held questions about the evolution of the world s largest and most diverse group of animals. The new tree of life is dated the first evolutionary tree of this magnitude says coauthor Akito Kawahara assistant curator of Lepidoptera at the Florida Museum of Natural history at University of Florida. ntil now we didn t have a good understanding of how these diverse groups of insects are related to each other. any insects important to everyday life and scientific research were included in the study such as agricultural pests vectors of disease and pollinators. This study provides a foundation for future study of insects. For example if we want to understand the genetics of how silk is produced we must first understand how silk worms evolved over time . or the study published in the journal Science researchers selected 144 species and DNA sequenced nearly 1500 genes resulting in reliable estimates on the dates of origin and relationships of all major insect groups. nsects are the most species-rich organisms on earth. They are of immense ecological economic and medical importance and affect our daily lives from pollinating our crops to vectoring diseasessays lead author Bernhard Misof with the Zoological Research Museum Alexander Koenig in Bonn Germany. e can only start to understand the enormous species richness and ecological importance of insects with a reliable reconstruction of how they are related. he study shows that insects originated at the same time as the earliest terrestrial plants about 480 million years ago suggesting both groups shaped the earliest land ecosystems. Analysis of the tree shows insects developed wings 400 million years ago long before any other animal and at nearly the same time land plants grew substantially to form forests. he questions that surround this study have to do with how life On earth came to be what it is todaykawahara says . or insects one of the major hypotheses is that angiosperm radiation correlated with the diversification of insects. This study allows scientists to look at broad questions like this. he 1kite project aims to eventually study the transcriptomes of more than 1000 insect species encompassing all recognized insect orders says Xin Zhou deputy director at the China National Genebank . or applied research it will become possible to comparatively analyze metabolic pathways of different insects and use this information to more specifically target pest species or insects that affect our resourceshe says. he genomic data we studied (the transcriptome all of the expressed genes) gives us a very detailed and precise view into the genetic constitution and evolution of the species studied. t is the profoundly diverse nature of insects that has presented insurmountable problems for scientists reconstructing relationships says Gavin Svenson curator and head of invertebrate zoology at the Cleveland Museum of Natural history. he findings not only advance our understanding of the origins of insects but add confidence to our organization of the groups.?This new knowledge will significantly build the capability of evolutionary research as well as comparative biology since accurate measures of organismal relationships are fundamental to our interpretation of morphology genetics and physiology to name a few. ust as the diversity of insects has always been a problem for scientists the project s goal of analyzing a large number of insect transcriptomes posed a major challenge since software that could handle the enormous amount of data was not available. he development of novel software and algorithms to handle ig datasuch as these is another notable accomplishment of the 1kite team and lays a theoretical foundation for future analyses of other very large phylogenomic data setssays coauthor Alexis Stamatakis with the Heidelberg Institute of Theoretical Studies in Germany. The evolutionary history of an organism orms the foundation for telling us the who what when and why of lifesays coauthor Karl Kjer of Rutgers University. any previously intractable questions are resolved now while many of the revolutions brought about by previous analyses of smaller molecular datasets have contained errors that are now being corrected. a

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