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This month I'll introduce some of the most
exotic looking fish of the reef as well as my favorite fish
genus, Macropharyngodon, appropriately known as the
Leopard Wrasses. Their interesting patterns and coloration,
as well as the relaxed and peaceful nature of the fish in
this genus makes them a great addition to a community aquarium.
Their unique swimming characteristics put them on display
throughout the daylight photoperiod, and their beauty makes
them a favorite of many aquarists. Unfortunately, Leopards
are not for all hobbyists. Without certain needs being met,
they are sure to meet an untimely death.
Meet the Family
The Labridae family is one of the largest
reef fish families, consisting of over 500 species. All wrasses,
with the exception of Conniella apterygial, swim with
their pectoral fins. Additionally, they have a dorsal fin
with 8 to 21 spines and 6 to 21 soft rays, and an anal fin
with 4 to 6 spines and 7 to 18 soft rays (Michael, 1998).
Of the 60 genera within Labridae, only 18 are found in the
tropical western Atlantic (DeLoach, 1999). Macropharyngodon
contains 10 species and 1 sub-species, all of which swim in
Pacific waters.
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° bipartitus
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§
bipartitus
§
marisrubri |
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°
choati
° cyanoguttatus
°
geoffroyi
°
kuiteri
°
meleagris
°
moyeri
°
negrosensis
°
ornatus
°
vivienae |
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All Leopard wrasses are born as females
and protogynous hermaphrodites; that is, they change to males
when their growth, age, or certain social criteria are met.
When the time comes, the sex change will take place in as
little as 2 weeks from start to finish, although sperm production
may begin in as little as 8 days (DeLoach, 1999). This sex
change is irreversible, and is usually associated with a color
change. In fact, most Leopard wrasses have at least three
color phases: 1) the juvenile phase, consisting of sexually
immature fish, 2) the initial phase of sexually adult females,
and finally 3) the terminal males, with the largest and most
dominant fish of the pair or harem always being a male. The
terminal male in Macropharyngodon is known as a secondary
male due to the sex change required to become a male. Primary
males are not possible in Macropharyngodon because
no Macropharyngodon is born as a male. Males of M.
choati do not have a color change associated with their
sex change, though they do develop a pattern change as they
age (Baensch, 1994).
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Macropharyngodon ornatus -
note the black spot at the base of the pectoral fins.
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In The Wild
Macropharyngodon geoffroyi is the
only Leopard wrasse that can be found in U.S. waters, making
its limited appearance around Hawaiian waters. The remaining
9 species and sub-species are found in the west-central Pacific
waters, ranging from the Indian Ocean to the Great Barrier
Reef. They will defend a territory that usually has at least
one female. Harems are possible and can number up to 7 to
10 females. The defended territory always contains a sandy
bottom, usually located in waters ranging from 2 - 125 feet
deep. The Leopards use the sandbed as their place to sleep,
as well as for their defense. Every night when the Leopards
retire, they dive into the sandbed, leaving no tell-tale signs
except for a small cloud of sand dust, which quickly dissipates.
It is there that they sleep until the sun rises again, at
which time they slowly rise out of the sandbed and inspect
their surroundings before fully emerging. Sand sometimes sticks
to their slime coat for a few minutes after waking, but will
usually be blown off by the currents in short order. In my
experience, Leopards seem to remain "groggy" for
up to 10 minutes after waking. They have a tendency to swim
around with no goal or purpose. This is quite unlike their
normal swimming characteristics that have them constantly
foraging rocks and rubble for endless supplies of shelled
protozoa. The sandbed also affords them an excellent place
to avoid predators, and when stressed or frightened, they
are quick to dive into the sand for safety.
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Macropharyngodon geoffroyi, also
called the Potter's Leopard wrasse, is seen here in
the author's aquarium, and can be found ranging from
Hawaii to the East Indies.
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All Macropharyngodon species feed
primarily on small, shelled protozoa called foraminiferans,
and snails. Copepods and amphipods make up a small portion
of their diet. The foraminiferans are picked from the reef
using their small canine teeth, and are quickly pulverized
with their large pharyngeal teeth. Sessile inverts are completely
ignored, as are the majority of other fish. Leopards only
behave aggressively when two males are present within the
same territory. The more dominant male will defend his females
and territory, usually with a very quick dash at the intruder
followed by a subsequent heated chase which removes the intruding
male by as much as 20 or 30 feet from the spawning site (DeLoach,
1999).
In the Home Aquarium
Leopard wrasses can do extremely well in
appropriately designed reef aquariums, or they can die very
quickly in a tank that is set up without their best interests
in mind. Once fully acclimated and established, Leopards have
been kept for up to 5 years, while less well-documented reports
of 8 years or more have been noted. The tricky part to their
care in captivity is getting the Leopard wrasse eating well
and situated into its new home. To help ensure a successful
transition, several key factors must be taken into consideration.
The first step in acquiring a healthy Leopard
is proper selection. Due to their poor response to shipping,
it is impossible to ensure a healthy Leopard wrasse when purchasing
via mail order. These fish must be viewed prior to purchase.
The first key area to inspect is their mouth. Leopard wrasses
are shipped from the collection site to the wholesaler, and
finally to the retailer, in specimen bags that do not contain
sand (Lidster, pers com). The result is a fish that is extremely
stressed and usually beaten up from its constant unsuccessful
attempts to bury itself within the specimen bag. Damage to
the mouth is imminent and highly probable. Excessive damage
to the mouth will hinder their ability to eat, thus leading
to starvation. Other areas to observe are the tail and fins
for tears, or the body for scrapes or burns. A simple 2-inch
layer of sand inside the shipping bag would eliminate a large
percentage of these injuries.
Once the mouth and the remainder of the
body have passed visual inspection for damage, pay close attention
to the swimming habits of the fish. These fish should be swimming
with a purpose: constantly searching the rockwork for food.
A healthy Leopard will slowly cruise each rock, closely inspecting
each nook and cranny for possible meals. If the fish is pacing
the front glass, or swimming in circles, it is best to avoid
the fish in favor of one with more normal swimming patterns.
On several occasions I have witnessed fish that constantly
swim in circles, usually in the same direction each time.
In all cases after noticing this behavior, the fish died within
48 hours.
If your candidate has passed all the tests
thus far, ask to see it eat. Leopards often don't eat for
up to a week after arriving in the retailer's store. However,
if it doesn't eat for the retailer, I wouldn't necessarily
rule it out just yet. Ask them to feed live foods such as
brine shrimp or black worms. Live foods will often
initiate a feeding response when frozen/thawed foods will
not. A fish that doesn't eat, but still looks good
overall, is a possible purchase, if you're willing to take
the chance that it will eat for you once moved to your quarantine
tank. If it does eat, I would purchase it on the spot. In
fact, I would remove it from the retailer as quickly as possible.
Often times the retailer's tanks are improperly setup to provide
an adequate housing for Leopards. In extreme situations where
retailers chemically treat their holding tanks, the Leopards
should be removed ASAP. My retailer chemically treats his
holding tanks with copper and formulin on a regular basis,
and this makes for an extremely poor environment due to the
lack of small invertebrates that the Leopard would normally
be hunting. Left in these food-barren tanks, usually cramped
with many tank mates, most Leopards will not survive, even
for one week.
Once you have successfully found a visually
healthy appearing fish, it is time to get it into its quarantine
tank. However, special note should be made that this quarantine
tank is drastically different from any other such tank you
have used in the past. For optimum results this tank should
be set up long before the purchase of the Leopard, giving
the micro-crustaceans a chance to multiply. The set up should
mimic a typical reef tank, having a 3-inch or deeper sandbed
and plenty of live rock. Water from the eventual permanent
home of the Leopard should be used to perform water changes
in the temporary quarantine tank. You will not be treating
the Leopard for most pathogens. Generally, I have found them
to be very resistant to illness. It is advisable, however,
to treat them for intestinal worms. A positive identification
of intestinal worms would require a microscopic examination
of its fecal matter, or the liver, intestines, or abdominal
cavity of deceased fish. Obviously, this is beyond the capabilities
of most hobbyists, so it is best to presume the fish has intestinal
worms. This presumption is not without merit, however, as
an estimated 75 - 85% of imported marine fish have intestinal
worms (Bassleer, 1996). The induced stress from poor shipping
practices exacerbates this ailment, likely leading to the
death of the animal. Normal signs indicative of internal worm
infestations are: weight loss while a healthy appetite is
present, scraping or flashing against rockwork or sand, and
finally, loss of appetite occurring just prior to death. Treatment
for internal worms must be administered to a fish that is
eating. Live foods are best, as this allows "gut loading,"
which is the practice of feeding live foods additional vitamins
or medicines just prior to feeding. If live foods are unavailable,
the next best option is to use freeze-dried foods. The dry
food will soak up and retain a majority of the medicine. Piperazine
is a good first choice for treatment. Add 250mg per 100g of
food each day for a period of 10 days. Praziquantel or levamisole
can be used as a second choice, with the same dosage and time
frame. Niclosamide can also be used at 500mg per 100g of food
for 10 days (Bassleer, 1996).
If your Leopard has made it this far, it
is a safe bet that you will enjoy its presence for years to
come. It wouldn't be a bad idea to allow the Leopard a chance
to settle in comfortably for up to 4 or 6 weeks in the quarantine
tank. During this time try to note where the Leopard retires
each night. The fish will develop a favorite spot, and will
return to it each and every night. When it comes time to capture
the fish, doing so at night will minimize stress. Place a
large net or specimen container over the sandbed where you
believe the fish to be sleeping. I prefer a net because the
hard plastic of the specimen container may injure the mouth
of a Leopard wrasse in a panic flight out of the sand. Using
the handle from another net, slowly and carefully probe underneath
the sand. If you have the correct site, 1 of 2 things will
happen. Either the fish will leave the sandbed attempting
to swim away from the perceived danger, landing directly in
your net, or it will literally "swim" under the
sand. This will be easy to recognize, as the sandbed will
ripple with the movement of the fish, and it will be easy
to follow. Move the net accordingly. Eventually, the fish
will leave the sandbed, and with a bit of luck will land in
the net. Once captured, move the fish into your show tank.
I recommend that you use a specimen container at this point
so the fish is not removed from water. If you've been using
water from the new home to perform water changes on the quarantine
tank, an acclimation period is not necessary. When placed
into new surroundings, expect the Leopard to flee by quickly
diving into the sandbed. It may remain there for 2 days or
longer. On one occasion, I had a M. meleagris that
remained in the sand for 7 days after bringing it home! Later,
after the addition of an Halichoeresornatissimus, the
M. meleagris remained in the sand for 12 days. Both
times the fish resurfaced with no apparent damage, though
its appetite was rather large for a few days.
A proper setting for a Leopard wrasse is
a tank of at least 4 feet in length. Macropharyngodon
species are active swimmers, and always on the go. The more
room provided to them, the more they will comfortable they
will feel with their surroundings. A fair amount of healthy
live rock should be present, allowing the Leopard something
to hunt and forage from. It would also be advisable to have
an active, established refugium in place and feeding the main
tank to help replenish the micro-crustaceans as they are consumed.
The smaller the tank, the more important this becomes. A minimum
of 2" of sand should be present, more being better, which
will allow the fish to dive into and sleep for the night.
Speaking of sleeping, you can expect your Leopard to go to
sleep, and wake up, at nearly the same time each day. Their
internal clock is amazingly predictable. At first, this might
be a problem, as they are still functioning on Indo-Pacific
time. I know from personal experience that as the days and
weeks pass, the fish will slowly readjust their schedule to
more closely resemble the photoperiod of the tank. The last
consideration is tank mates. Due to their peaceful nature,
Leopards do not mix well with aggressive fish. At the time
of introduction, the Leopard should be the most aggressive
fish in the tank. If fast swimming or aggressive fishes are
planned in the future, a cover for the aquarium would be a
wise investment.
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Fish
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Will
Co-Exist
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May
Co-Exist
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Will Not
Co-Exist
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Notes
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Angels,
Dwarf
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X
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Excellent
choice.
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Angels,
Large
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X
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Some
angels may be too active or aggressive.
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Anthias
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X
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Excellent
choice.
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Assessors
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X
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Excellent
choice.
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Basses
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X
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Excellent
choice.
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Batfish
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X
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Excellent
choice.
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Blennies
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X
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Excellent
choice.
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Boxfishes
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X
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Excellent
choice.
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Butterflies
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X
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Excellent
choice.
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Cardinals
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X
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Excellent
choice.
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Catfish
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X
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Catfish
grow increasingly aggressive as they grow larger.
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Comet
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X
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Excellent
choice.
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Cowfish
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X
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Excellent
choice.
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Damsels
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X
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Some
Damsels are too aggressive for Leopards.
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Dottybacks
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X
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Excellent
choice.
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Dragonets
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X
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Excellent
choice.
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Drums
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X
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Excellent
choice.
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Eels
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X
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Some
eels may consume Leopards.
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Filefish
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X
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Excellent
choice.
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Frogfish
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X
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Best
avoided.
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Goatfish
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X
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Excellent
choice
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Gobies
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X
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Excellent
choice.
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Grammas
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X
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Excellent
choice.
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Groupers
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X
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Best
avoided.
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Hamlets
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X
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Excellent
choice.
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Hawkfish
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X
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Some
Hawkfish may attack Leopards.
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Jawfish
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X
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Excellent
choice.
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Lionfish
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X
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Some
Lionfish grow too large and may consume smaller Leopards.
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Parrotfish
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X
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Often
too large and active to share a tank with Leopards.
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Pineapple
Fish
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X
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Excellent
choice.
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Pipefish
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X
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Pipefish
require their own tank.
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Puffers
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X
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Best
avoided.
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Rabbitfish
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X
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Excellent
choice.
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Sand
Perches
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X
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Sand
Perches can be aggressive, especially as they grow larger.
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Scorpionfish
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X
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Scorpionfish
are best left to species tanks.
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Seahorses
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X
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Seahorses
require their own tank.
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Snappers
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X
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Aggressive
feeder; will intimidate Leopards.
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Soapfishes
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X
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Best
avoided.
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Soldierfish
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X
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Should
do well except for the occasional bully.
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Spinecheeks
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X
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Excellent
choice.
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Squirrelfish
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X
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Should
do well except for the occasional bully.
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Surgeonfish
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X
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Excellent
choice.
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Sweetlips
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X
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Some
Sweetlips get huge, a potential problem for the Leopards.
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Tilefish
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X
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Some
Tilefish can behave aggressively.
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Toadfish
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X
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Best
avoided.
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Triggerfish
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X
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Best
avoided.
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Waspfish
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X
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Best
avoided.
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Wrasses
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X
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Some
wrasses will co-exist, while others will not.
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Note:
While many of the fish listed are
good tank mates for Macropharyngodon sp., you should
research each fish individually before adding it to your aquarium.
Some of the fish mentioned are better left in the ocean or
for advanced aquarists.
Food for the Leopard wrasses should consist
mostly of shelled crustaceans, and will supplement the food
the Leopards find naturally growing in the aquarium. Mysids,
krill, and plankton, either frozen or freeze-dried, are excellent
first choices. The freeze-dried foods allow for additional
vitamins to be easily added, as they readily absorb liquids.
My Leopard wrasses have also eagerly devoured fish roe purchased
from a local oriental food store. Vitamin-enriched brine shrimp
is another option. Lastly, mine have been trained to eat nori
(dried algae) thanks to my surgeonfish, and are regularly
observed chewing coralline algae. I don't know if the fish
gain nutritional value from these algae, but it is possible
the Leopards use the coralline algae to help sharpen and/or
grind down their large pharyngeal teeth.
Macropharyngodon species may be
mixed in the same aquarium, provided only one male Macropharyngodon
is present. Mixing females is not a problem if the aquarium
can support them in both overall size and micro-fauna. In
fact, I have kept M. meleagris, M. geoffroyi,
and M. negrosensis in the same aquarium with absolutely
no problems. Multiple fish of the same species are also no
problem, once again provided there is only one male. Captive
spawning of Leopard wrasses has not occurred. Due to the intricacies
of the mating ritual, spawning would be impossible in all
but the largest of home aquariums. The terminal males repeatedly
dive to the sandbed where the females congregate. Gravid females
execute a series of rapid, vertical jumps followed by hovering
in the middle of the water column. The male then joins the
female and, side-by-side, the pair rocket up two or three
feet, snap apart and simultaneously release gametes (DeLoach,
1999).
Meet the Species
The most common Leopard wrasse in the trade
today is M. meleagris. Also called the Guinea Fowl
wrasse, it is found in the West-central Pacific. The terminal
males can reach up to 5 inches in length. The males were once
classified as a completely different species, M. pardalis,
until it was discovered that their particular color pattern
was actually the terminal male coloration of M. meleagris.
This mistake can be understood since the male looks completely
different than the female. Once the color change begins to
take place, the fish sheds the female's silver background
and black spots for the male colors of turquoise/teal background
with mauve spots. Unlike most other Leopards, the Guinea Fowl
wrasse will spend the majority of its life alone, rarely in
pairs. They are not naturally found in harems, though a group
of females will peacefully co-exist in an aquarium quite well.
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Macropharyngodon
meleagris
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The Divided wrasse, or M. bipartitus,
is found in the Indian Ocean. It is also called the Vermiculate
or Splendid Leopard wrasse. The Red Sea species has a slightly
different coloration and thus earned itself a sub-species
classification, known as M. bipartitus marisrubri.
Once again, the male has a completely different coloration.
The silverfish-blue spots of the female become yellowish-gold
stripes and swirls on the male. The background changes to
green. The male also gains a black spot underneath the caudal
fin. Full-grown adults will measure 4 inches.
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Macropharyngodon
bipartitus
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Macrophyngodon negrosensis, commonly
called the Yellowspotted or Black Leopard wrasse in the hobby,
are not regularly available, though they may be found on occasion.
They range from the Philippines to Samoa and the Great Barrier
Reef. Males and females are similarly colored, though a distinct
difference can be noted. Both have a primarily black background.
The female is spotted throughout, with the spots getting closer
and more numerous higher on the back. Color can range from
yellow to white. Males lose the spots and gain gold-ish/green
tips on the scales and stripes on the face. They can reach
5 inches in length.
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A M. negrosensis
in the initial color phase in a home aquarium.
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Summary
These eye-catching fish, commonly known
as Leopard wrasses, are difficult fish, which are not meant
for every aquarium. If the necessary precautions are taken
and the tank is setup accordingly, you will have a much better
chance at success and will be rewarded with many years of
observing their unique behavior. By ignoring the precautions,
the fish stand little chance at long-term survival.
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