Greetings All !
Ahh you found this Christine. I meant to email both you and Gary to join this one
Hehe ... be careful what you wish for, Gresham. :lol:
BTW, this is a much better reference link ...
http://www.zeovit.com/forums/showpost.php?p=61104&postcount=17
@ Cliff: Apologies for appearing to ignore your PM for so long ... I really appreciated the thought. I've been watching this thread from the beginning, and I've been waiting for a natural break in the discussion before intruding with my crazed & twisted perspective.
Personally, I've not heard a convincing rational for thinking that more diverse bacteria is clearly better. ...
Nor have I ... and I would suggest that bacterial "biodiversity" is an incredibly poor indicator of nutrient reduction rates, the effectiveness of biogeochemical processes, and the "health" of a marine aquarium.
These are a few of the systems that I play ... errr, work ... with on an almost daily basis ...
We receive hundreds of corals into these raceways on a weekly basis. These hundreds of specimens come primarily from Australia and Indonesia, but we also regularly receive specimens from Puerto Rico, and periodically receive shipments from other geographic regions. In other words, I play ... err, work ... with systems that are subjected to an intensity & diversity of bacterial inoculation well beyond anything the vast majority of reefkeepers will ever experience, or could ever engineer. I have never observed any measurable benefit (whether it be rate of nutrient reduction, stability of biogeochemical processes, mitigation of invasive algae or photosynthetic bacteria, or system "health") from such sustained, diverse bacterial inoculation.
From a conceptual standpoint, I'm much more interested in the types of enzymes that a bacterial strain may contain when introduced into the systems. It is the potential behavior of these encoded molecules within a strain (along with the availability of coenzymes and nutrient substrates within the systems) that are critical ... not the number of bacterial strains
per se.
... The workhorse bacteria of the system are going to be in biofilms on surfaces and beneath surfaces. ...
Folks interested in the behavior of bacterial guilds in marine aquaria in general, and the behavior of bacterial guilds in carbon dosed marine aquaria specifically, should burn Christine's quote into their brains. It's not all about bacterial biomass ... it's about the metabolic behavior of the
biofilms.
... So, can you directly inoculate that? Not really. ...
I would respectfully disagree ... but only in specific circumstances. Such specific circumstances would require the presence of bacterial culturing vessels (commonly referred to as "zeoreactors", "ultralith reactors", and fluidized bed filters). The biofilms on the media within such culturing vessels are regularly & significantly "disrupted", i.e., the biofilm structure is ripped apart and surfaces that were occupied become open to attachment & colonization by strains introduced into the water column. Such new attachment & colonization would seem to me to constitute a direct inoculation. Something similar could occur within sediments should such sediments be disrupted by being "blasted" by a turkey blaster, or handheld submersible pump ... or by an aquarium resident such as a sand-sifting goby.
Apologies if I've wandered off into the tall irrelevant-quibble grass out in deep left field. I'm just sayin' ...
After about 3 weeks, I started to see some Cyano reoccur and I once again traded out a rock in my fuge (from a different system). I had the same result with an apparent N/P reduction as the Cyano once again receded and there was a diminished film on the glass. If it was simply additional quantity of the bacterial populations, then I would have seen long lasting results right ... ?
Indeed. This is part of what I mean when I suggest that it's not all about bacterial biomass ... it's about the metabolic behavior of the
biofilms.
BTW & FWIW ... I've always regarded the notion of bacterial inoculation, even (or especially) in coordination with "enzyme" powders and mineral flocculants, as a method to mitigate a significant,
existing cyanobacteria bloom to be a weak husbandry response. I've always found the incredibly annoying hassle of siphoning out the visible cyanobacteria biofilm (repeating as necessary), cleaning the surfaces associated with the bloom (repeating as necessary), increasing flow across the surfaces where the cyanobacteria biofilm emerged, shortening the photoperiod for up to 2 weeks, and the reduction of available nutrients in the water column (with particular emphasis on phosphate concentration) to be a far more effective set of husbandry responses compared to the relatively expensive application of ill-defined proprietary products (... although such products have proven to be effective for some reefkeepers).
That being said, the inoculation of bacterial strains as a preventative tactic to inhibit an increase of cyanobacteria biomass
before a bloom event makes lots of sense to me ... and is a tactic that we employ on a weekly basis in the systems pictured above.
JMO ... HTH
:thumbsup:
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