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Mateus Rogério Pincela,
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Palanca Loida,
Gaskett Anne C.,
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Newcomb Richard D.,
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Rodriguez Rachael K.,
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Nikzad Matthew,
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Kornilova M. B.,
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Oakeshott J. G.,
Vacek D. C., Anderson P. R.
Oecologia. 1989 78(4). p.533
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Ivnitsky S. B.,
Maximova I. A.,
Panchenko P. L.,
Dmitrieva A. S.,
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Perfilieva K. S., Markov A. V.
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WATTS THOMAS D.,
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Ba Amadou S., Phillips Sherman A.
Mycological Research. 1996 100(6). p.740
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Carpinteyro-Ponce Javier,
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Maksimova I. A.,
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Capy Pierre,
Pla Eliane, David Jean R.
Evolution. 1994 48(3). p.746
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Starmer William T.,
Peris Francesc, Fontdevila Antonio
Animal Behaviour. 1988 36(6). p.1691
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Morales-Hojas Ramiro,
Vieira Jorge, Singh Nadia
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Christiaens Joaquin F.,
Franco Luis M.,
Cools Tanne L.,
De Meester Luc,
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Wenseleers Tom,
Hassan Bassem A.,
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Cell Reports. 2014 9(2). p.425
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Fogleman J C, Foster J L
Applied and Environmental Microbiology. 1989 55(1). p.100
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(1988)
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Etges William J.
Evolution. 1989 43(6). p.1316
