TY - JOUR
T1 - Biogeography of pelagic bacterioplankton across an antagonistic temperature-salinity gradient in the Red Sea.
AU - Ngugi, David Kamanda
AU - Antunes, André
AU - Brune, Andreas
AU - Stingl, Ulrich
PY - 2012/1
Y1 - 2012/1
N2 - The Red Sea is a unique marine ecosystem with contrasting gradients of temperature and
salinity along its north-to-south axis. It is an extremely oligotrophic environment that is
characterized by perpetual year-round water column stratification, high annual solar
irradiation, and negligible riverine and precipitation inputs. In this study, we investigated
whether the contemporary environmental conditions shape community assemblages
by pyrosequencing 16S rRNA genes of bacteria in surface water samples collected
from the northeastern half of this water body. A combined total of 1855 operational
taxonomic units (OTUs) were recovered from the ‘small-cell’ and ‘large-cell’ fractions.
Here, a few major OTUs affiliated with Cyanobacteria and Proteobacteria accounted for
!93% of all sequences, whereas a tail of ‘rare’ OTUs represented most of the diversity.
OTUs allied to Surface 1a ⁄b SAR11 clades and Prochlorococcus related to the high-lightadapted
(HL2) ecotype were the most widespread and predominant sequence types.
Interestingly, the frequency of taxa that are typically found in the upper mesopelagic
zone was significantly elevated in the northern transects compared with those in the
central, presumably as a direct effect of deep convective mixing in the Gulf of Aqaba and
water exchange with the northern Red Sea. Although temperature was the best predictor
of species richness across all major lineages, both spatial and environmental distances
correlated strongly with phylogenetic distances. Our results suggest that the bacterial
diversity of the Red Sea is as high as in other tropical seas and provide evidence for
fundamental differences in the biogeography of pelagic communities between the
northern and central regions
AB - The Red Sea is a unique marine ecosystem with contrasting gradients of temperature and
salinity along its north-to-south axis. It is an extremely oligotrophic environment that is
characterized by perpetual year-round water column stratification, high annual solar
irradiation, and negligible riverine and precipitation inputs. In this study, we investigated
whether the contemporary environmental conditions shape community assemblages
by pyrosequencing 16S rRNA genes of bacteria in surface water samples collected
from the northeastern half of this water body. A combined total of 1855 operational
taxonomic units (OTUs) were recovered from the ‘small-cell’ and ‘large-cell’ fractions.
Here, a few major OTUs affiliated with Cyanobacteria and Proteobacteria accounted for
!93% of all sequences, whereas a tail of ‘rare’ OTUs represented most of the diversity.
OTUs allied to Surface 1a ⁄b SAR11 clades and Prochlorococcus related to the high-lightadapted
(HL2) ecotype were the most widespread and predominant sequence types.
Interestingly, the frequency of taxa that are typically found in the upper mesopelagic
zone was significantly elevated in the northern transects compared with those in the
central, presumably as a direct effect of deep convective mixing in the Gulf of Aqaba and
water exchange with the northern Red Sea. Although temperature was the best predictor
of species richness across all major lineages, both spatial and environmental distances
correlated strongly with phylogenetic distances. Our results suggest that the bacterial
diversity of the Red Sea is as high as in other tropical seas and provide evidence for
fundamental differences in the biogeography of pelagic communities between the
northern and central regions
U2 - 10.1111/j.1365-294X.2011.05378.x
DO - 10.1111/j.1365-294X.2011.05378.x
M3 - Article (journal)
SN - 1365-294X
VL - 21
SP - 388
EP - 405
JO - Molecular Ecology
JF - Molecular Ecology
IS - 2
ER -