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Le Bac à Léon1
I would
like to start with an important note: this aquarium is only four
months old. Its stability and long-term success are not yet
proven, even if nearly all the livestock (fish, corals, part of
the live rock and sand, etc...) have been transferred from my
previously successful 2-1/2 year old setup (300 l - 80 Gal.).
I set
up this aquarium for many reasons, but its probable success can be
linked to the friendliness and passion of a few persons who, since
then, became personal friends. These persons will know who they
are, and are all members of Aquarium Récifal, l'Association (ARA
- http://www.aquarium-recifal.net/),
probably the most relevant and dynamic association in France
today.
The
"Berlin Method" dictates the maintenance of this
aquarium. The only major exception to the rule is the use of a
relatively thick sand bed about 5 cm deep. Part of it was
transferred as "live" sand from my previous setup, and I
added about 50 kg of dead sand composed of crushed coral skeletons
(Aquarium systems, fine grade). Real live sand is unfortunately
not available in France, oolithic grade costs an arm and a leg, so
I couldn't create a true Deep Sand Bed as defined in the U.S.
This
sand bed serves two purposes, first increase biodiversity by
providing a habitat for various critters, and then help complete
the Nitrogen cycle.
Moreover,
my personal aesthetic taste prefers a sand bed compared to a bare
bottom.
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The
dimensions of this 800 liter tank (210 Gal. - 120 x 120 x 65 cm ~
4' x 4' x 2') are ideal in order to create a circular water
movement. A single 400W metal halide pendant provides lighting.
This
tank, its stand, and nearly all the other components, are a result
of DIY work. It is probably the best way to learn and understand
how everything works... and I like doing things with my hands!
A
150 liters sump hosts the skimmer, the heater and the return pump.
The
fresh water reserve holds 120 liters, enough for about 10 days of
autonomy for water top-off.
The
last element of the system is the 40 liter refugium. It is set up in a
very simple way, with 6 to 7 cm of oolithic sand, Caulerpa spp., snails,
a few crabs, etc... A few months after its setup it is full of life.
Feeding
* 3 frozen cubes per
day (Artemia sp. Krill, spinach)
* Dried seaweed 2-3
times per week
* Flakes, once in a
while
Filtration
Live
rock (100 kg for 800 liters ~ 220 lbs for 211 Gal.) and a needle-wheel
skimmer (H&S 150-F2001, 38W Aquabee pump) provide water filtration.
2,300 ml of carbon are used and changed every three months.
Water movement
Two
Hagen AquaClear 5000 power heads (3,800 l/h ~ 1,000 Gal./h) and
Two Eheim 1060 pumps (2,200 l/h ~ 600 Gal./h) provide water
movement. The pumps are switched on and off, in turns, every 2
hours, creating an alternated circular movement in the aquarium.
Areas of intense and lower energy levels are created, making it
easy to find a good spot for any type of coral. The power heads
are stopped during the night, circulation is then only provided by
the Eheim pumps.
Sump return
One
Eheim 1060 pump (2,200 l/h ~ 600 Gal./h) returns the water from
the sump back to the aquarium.
Lighting
A
single 400 Watts BLV/Ushio HITlite 10,000 K metal halide (10 hours per
day) and two 36 Watts Osram 67 blue tubes (12 hours per day) are
providing lighting at the moment. I will probably add the metal halides
from the previous setup at a later stage.
Water top-off
I
built the water top-off system using a pump from a car's windscreen
washer and float switches. Only reverse osmosis water is used, going
through a Nilsen calcium reactor, and is slowly and continuously
dripped.
Calcium Reactors
I
use two methods to provide calcium and maintain alkalinity:
* DIY CaCO3/CO2
reactor. You can find the plans here ( http://www.aquarium-recifal.net/article.php?id=103
). Flow is 2 l/h (~ 0.5 Gal./h) with 1 CO2 bubble per second. The
substrate used is crushed corals. I never detected any phosphates in the
water.
Cooling
I
use two 4" PC fans, using a 10 V power supply. The maximum measured
temperature in the tank was 28°C (82°F). The stand containing the sump
is as well equipped with a PC fan.
Automation
A
programmable robot manages all the aquarium's functions (lighting, water
movement cycles, water top-off timing, Nilsen reactor mixing, cooling,
feeding pause for the pumps, etc...).
The
same robot manages security features as well. It will stop the return
pump when the water level is too low in the sump, stop top-off when the
water reserve is empty, start a secondary top-off pump if the main one
failed, etc...
The
robot is a Zelio from Télémécanique. It is very easy to program using
a symbolic language, from a module running on a PC, by drawing the
electrical diagram on the screen. The program is then downloaded into
the module using a serial cable.
This
solution avoids the tedious cabling of relays, pumps, sensors, timers,
etc... It allows extreme liberty and provides a great answer to problems
that are difficult to solve by using usual cabling. It also avoids the
use of a soldering iron when you do modifications. I think that my
system is much more flexible than the dedicated units found on the
market.
Parameters
* Temperature: 27-28°C
~ 80.6-82.4°F
* NO2: 0
* NO3 :5
mg/l
* Ca: 350 mg/l
(target: 450 mg/l)
* dKH : 8 (2.8 meq/l)
* Mg: 1250 mg/l
* PO4:
not detected
* Salinity: 35ppt
Supplements
I
use very little sumplementation at this time, due to the young age of
the aquarium. My previous setup was using the calcium reactor (CaCO3/CO2
reactors are supposed to bring Strontium and other elements) as well as
iodine and other trace elements...from time to time. The Nilsen reactor
is reloaded with 4 spoonfuls of calcium hydroxide every week.
Corals
SPS
Merulina
ampliata
Acroporas
spp.(about 10 species)
Pocillopora
eydouxi
Seriatopora
spp. (hystrix and caliendrum)
Hydnophora
rigida
Montipora
sp. Forming concentric cups
Turbinaria
reniformis
Pachyseris
rugosa
LPS
Cynarina
lacrimalis (1)
Trachyphyllia
geoffroyi (1)
Platygyra
pini (1)
Caulastra
spp. (2)
Favia
sp. (1)
Fungia
sp. (1)
Soft
Rhodactis
spp.
Discosoma
spp. (red and blue)
Zoanthus
varies
Pachyclavularia
sp. (Briareum sp.)
Xenia
spp.
Lemnalia
sp.
Fish
Paracanthurus
hepatus (1)
Chromis
viridis (12)
Chelmon
rostratus (1)
Zebrasoma
veliferum (1)
Zebrasoma
flavescens (1)
Cerranus
baldwini (1)
1 mated and
breeding pair of Pterapogon kauderni (1)
Labroides
dimidiatus (1)
Cryptocentrus
cinctus with its Alpheus sp. Shrimp (1+1)
Other
invertebrates
Lysmata
amboinensis (2)
Stenopus
hispidus (1)
Hermit crabs (20)
Serpent stars (4)
Astrea sp.
Trochus sp.
Nerites
Chiton
Miscellaneous
Blue
sponge (Haliclona Sp.)
Halimeda
sp. and other branched coralline algae
Caulerpa
spp. (2-3)
Tridacna
crocea (2)
Breeding
The
ultimate target for an aquarium enthusiast (be that fresh or salt water)
is to be able to breed its livestock.
I
tried that with a pair of Pterapogon kauderni, and right after the
second incubation phase, I ended up with about 20 youngsters in the
refugium.Nearly all grew
normally during the next few weeks, until I was able to give them away
to other reef keepers in my neighborhood.
I
would like to thank Nicolas Will for the translation from French to
English and David Excoffier for his pictures; they are much sharper than
mine.
