In contrast, both heterocystous and

In contrast, both heterocystous and non-heterocystous
cyanobacteria occur in marine benthos of all latitudes, but,
like other organisms, benthic cyanobacteria exhibit the
highest diversity in tropical lagoons and coral reefs, where
they form compact mini-blooms, characterized by local
exponential growth of mats and coherent colonies (Abed
et al., 2003a,b). Heterocystous cyanobacteria of the genus
Nodularia and non-heterocystous ones of the genus
Hydrocoleum contribute significantly to nitrogen fixation
(Charpy et al., 2007). Hydrocoleum proved to be very close to
Trichodesmium regarding 16S rRNA gene sequences suggesting
a common origin of these most frequently observed
benthic and planktonic non-heterocystous cyanobacteria in
tropical oceans (Abed et al., 2006). However they differ in
structure and function sufficiently to justify a separate
generic identity. Trichodesmium cells contain packages of
gas vesicles, which are lacking in the benthic Hydrocoleum.
Trichodesmium, like Nodularia exhibits a spatial separation
between cells performing carbon (photosynthesis) vs.,nitrogen fixation, with the maximum yield output by day,
when solar energy is available, whereas Hydrocoleum,
similar to Lyngbya majuscula and other non-heterocystous
cyanobacteria, fix nitrogen by night (Lundgren et al., 2002),
using the energy accumulated the day before (Charpy et al.,
2007).
Benthic cyanobacteria are rare in healthy coral reef
environments; they occur on damaged surfaces and coral
rubble, but prefer to form loose mats and colonies over
sandy sediments or epiphytically on sea grass. They include
opportunistic settlers, able to colonize newly available
grounds within 24 h. Their continuing growth is contingent
on competition with eukaryotic algae and sedentary
animals.