Globally invasive genotypes of the amphibian chytrid outcompete an enzootic lineage in coinfections

Globally invasive genotypes of the amphibian chytrid outcompete an enzootic lineage in coinfections

Jenkinson Thomas S., David Rodriguez, Rebecca A. Clemons, Lucas A. Michelotti, Kelly R. Zamudio, L. Felipe Toledo, Joyce E. Longcore, Timothy Y. James

ARTIGO

Inglês

Agradecimentos: This study was supported by a Doctoral Dissertation Improvement Grant from the United States National Science Foundation (DEB-1601259), the Sao Paulo State Research Foundation (FAPESP no.2014/25358-3), the Brazilian National Council for Scientific and Tec

Competition between genotypes is likely to be a key driver of pathogen evolution, particularly following a geographical invasion by distant strains. Theory predicts that competition between disease strains will result in the most virulent strain persistin

CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQ

405285/2013-2; 302589/2013-9; 300896/2016-6

FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP

2014/25358-3

fechado

Quitridiomicose
Batrachochytrium dendrobatidis
Anfibio - Doenças
Ecologia animal
Competição interespecífica
Artigo de pesquisa

DOI:

Texto completo:

Globally invasive genotypes of the amphibian chytrid outcompete an enzootic lineage in coinfections

Jenkinson Thomas S., David Rodriguez, Rebecca A. Clemons, Lucas A. Michelotti, Kelly R. Zamudio, L. Felipe Toledo, Joyce E. Longcore, Timothy Y. James 

										

											
											
										

									

									

										

											

												
Globally invasive genotypes of the amphibian chytrid outcompete an enzootic lineage in coinfections

											

												

														

		

							

					Jenkinson Thomas S., David Rodriguez, Rebecca A. Clemons, Lucas A. Michelotti, Kelly R. Zamudio, L. Felipe Toledo, Joyce E. Longcore, Timothy Y. James
				

		

	


												

										

										
    
										
    
											
										
    
									
    
								
    
							
    
						
    
					
    
				
    
			
    
		
    
	
    

    

	

		
    
			
    
				
    
					
    
								
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Proceedings of the Royal Society B: biological sciences												
    
											
    
											
    
												
    
											
    
											
    
												
    Vol. 285, no. 1893 (Dec., 2018), p. 1-10, n. art. 20181894