Journal Article
mSphere, vol. 2, iss. 5, 2017
Authors
Bruno S. de O. Silva, Felipe H. Coutinho, Gustavo B. Gregoracci, Luciana Leomil, Louisi S. de Oliveira, Adriana Fróes, Diogo Tschoeke, Ana Carolina Soares, Anderson S. Cabral, Nicholas D. Ward, Jeffrey E. Richey, Alex V. Krusche, Patricia L. Yager, Carlos Eduardo de Rezende, Cristiane C. Thompson, Fabiano L. Thompson, Michael J. Imperiale
Abstract
The Amazon River forms a vast plume in the Atlantic Ocean that can extend for more than 1,000 km. Microbial communities promote a globally relevant carbon sink system in the plume. Despite the importance of viruses for the global carbon cycle, the diversity and the possible roles of viruses in the Amazonia are poorly understood. The present work assesses, for the first time, the abundance and diversity of viruses simultaneously in the river and ocean in order to elucidate their possible roles. DNA sequence assembly yielded 29,358 scaffolds, encoding 82,546 viral proteins, with 15 new complete viral genomes from the 12 river and ocean locations. Viral diversity was clearly distinguished by river and ocean. Bacteriophages were the most abundant and occurred throughout the continuum. Viruses that infect eukaryotes were more abundant in the river, whereas phages appeared to have strong control over the host prokaryotic populations in the plume.
