TY - JOUR
T1 - Bacterial density rather than diversity correlates with hatching success across different avian species
AU - Manuel Peralta-Sanchez, Juan
AU - Manuel Martin-Platero, Antonio
AU - Wegener-Parfrey, Laura
AU - Martinez-Bueno, Manuel
AU - Rodriguez-Ruano, Sonia
AU - Navas-Molina, Jose Antonio
AU - Vazquez-Baeza, Yoshiki
AU - Martin-Galvez, David
AU - Martin-Vivaldi, Manuel
AU - Diego Ibanez-Alamo, Juan
AU - Knight, Rob
AU - Jose Soler, Juan
PY - 2018/3
Y1 - 2018/3
N2 - Bacterial communities within avian nests are considered an important determinant of egg viability, potentially selecting for traits that confer embryos with protection against trans-shell infection. A high bacterial density on the eggshell increases hatching failure, whether this effect could be due to changes in bacterial community or just a general increase in bacterial density. We explored this idea using intra-and interspecific comparisons of the relationship between hatching success and eggshell bacteria characterized by culture and molecular techniques (fingerprinting and high-throughput sequencing). We collected information for 152 nests belonging to 17 bird species. Hatching failures occurred more frequently in nests with higher density of aerobic mesophilic bacteria on their eggshells. Bacterial community was also related to hatching success, but only when minority bacterial operational taxonomic units were considered. These findings support the hypothesis that bacterial density is a selective agent of embryo viability, and hence a proxy of hatching failure only within species. Although different avian species hold different bacterial densities or assemblages on their eggs, the association between bacteria and hatching success was similar for different species. This result suggests that interspecific differences in antibacterial defenses are responsible for keeping the hatching success at similar levels in different species.
AB - Bacterial communities within avian nests are considered an important determinant of egg viability, potentially selecting for traits that confer embryos with protection against trans-shell infection. A high bacterial density on the eggshell increases hatching failure, whether this effect could be due to changes in bacterial community or just a general increase in bacterial density. We explored this idea using intra-and interspecific comparisons of the relationship between hatching success and eggshell bacteria characterized by culture and molecular techniques (fingerprinting and high-throughput sequencing). We collected information for 152 nests belonging to 17 bird species. Hatching failures occurred more frequently in nests with higher density of aerobic mesophilic bacteria on their eggshells. Bacterial community was also related to hatching success, but only when minority bacterial operational taxonomic units were considered. These findings support the hypothesis that bacterial density is a selective agent of embryo viability, and hence a proxy of hatching failure only within species. Although different avian species hold different bacterial densities or assemblages on their eggs, the association between bacteria and hatching success was similar for different species. This result suggests that interspecific differences in antibacterial defenses are responsible for keeping the hatching success at similar levels in different species.
KW - ARISA
KW - avian community
KW - bacterial community
KW - bacterial density
KW - comparative analysis
KW - eggshells
KW - hatching success
KW - high-throughput sequencing
KW - Illumina HiSeq
KW - Phylogenetic General Least Square
KW - CAVITY-NESTING PASSERINE
KW - TRANS-SHELL INFECTION
KW - MICROBIAL COMMUNITIES
KW - ANTIMICROBIAL PROTEINS
KW - EUROPEAN BIRDS
KW - EGG VIABILITY
KW - EGGSHELL
KW - INCUBATION
KW - LOADS
KW - SIZE
U2 - 10.1093/femsec/fiy022
DO - 10.1093/femsec/fiy022
M3 - Article
SN - 0168-6496
VL - 94
JO - FEMS microbiology ecology
JF - FEMS microbiology ecology
IS - 3
M1 - 022
ER -