Cycling an Aquarium

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Cycling a new aquarium.

One of the earliest topics a new aquarium hobbyist needs to learn is how to properly cycle their aquarium. There is a ton of information on this process and many different methods on how to accomplish it. There are many different chemical and biological cycles our tank goes through as it matures but this addresses the one most commonly discussed.


What is cycling?

The term cycling comes from the process known as the “Nitrogen Cycle”. When a plant or animal decays, or an animal expels waste, nitrogen is released. In our aquariums we initially see this as ammonia. Bacteria converts the ammonia to nitrite and then to nitrate. When we have enough bacteria to quickly convert ammonia to nitrate, we say that our tank has cycled. This is deceiving because the process doesn’t stop at this point and it is never complete. For this reason we need to think of this as establishing a large enough bacteria population to support fish, not completing a cycle.
DSC_0048.JPG

Ammonia is a waste product of a fish’s cellular activity which is expelled through their gills. If the ammonia in the water is higher than in their blood it cannot be released and builds up in the fish causing cell damage. Nitrosomonas bacteria use ammonia as food and convert it to nitrite.

Nitrite is also harmful to fish. In a fish, nitrites hinder the ability of its blood to carry oxygen. Nitrites are a serious issue in fresh water systems. The same receptors in a fish that would absorb nitrites have a higher affinity for chlorides. The chlorides in saltwater block nitrites from being absorbed and protects the fish in marine systems. We rely on a different species of bacteria, Nitrobacter, to convert nitrite to nitrate.

Nitrates are relatively harmless for fish unless it reaches very high levels. Nitrates leaves our tank in any number of ways. We get rid of it via water changes. Algae and some corals can consume it as food.

The last part of the cycle is when nitrate is converted to nitrogen gas. This is done by anaerobic bacteria inside porous rock or within deep sand beds. Not every aquarium has the necessary conditions for this to occur

What conditions do I need for the cycle to occur?

To provide a good environment for the bacteria, we only need to make sure they are wet, oxygenated, and the pH is between 6.5 and 8.5. They will grow best at a temperature close to where we keep our tanks however they will still survive and reproduce at temperatures between 45F and 100F. We also want to monitor ammonia during this process. If ammonia gets over 5ppm it can slow down the rate bacteria reproduce. Above 10ppm it can stall the cycle.
frag tank (2).JPG

How does rock affect the cycle?

The rock in a marine tank is the core of its filtration system. We use porous rock to provide as much surface area as possible for bacteria to grow on. The water flowing around the rock brings the ammonia and nitrites to the bacteria. If the rock is large enough it may have anaerobic bacteria deep within it that can convert the nitrates to nitrogen gas.

There are many types of rock that are available in our hobby. I won’t get into all of the different types but I do want to address how dry and live rock impacts the cycle

Dry rock is just that. It is rock that has been dried out and has nothing alive on it. Dry rock can be “clean” where it is considered safe to put directly into an aquarium. If it is not clean it will need to be cured prior to use. Either way, it will not contain nitrifying bacteria. This isn’t a problem as nitrifying bacteria are everywhere and it would be impossible to keep them out of our aquarium even if we wanted to.

Live rock is rock that does have living bacteria on it. The main reason to use live rock is to speed up the cycling process. Just like with dry rock, not all live rock is ready to put immediately in an aquarium. For simplicity I am going to put live rock in 2 broad categories. If your live rock came directly out of a marine system and is kept submerged in quality water during transport you can put it directly into your tank. If the rock was exposed to air or shipped damp then it needs to be cured prior to use. The bacteria on this rock will be fine but other living things may have died and should be removed prior to putting it in your tank.
fish.jpg


How do I feed the bacteria?

There are many different takes on this and it is largely a matter of opinion. So here are the most common ways from worst to best in my opinion.

Adding a fish – while it will work as an ammonia source, why would you make a fish suffer in an environment in which it can’t properly shed its toxins?

Ghost feeding – When you add food to the tank you are adding much more than just what breaks down to ammonia. While none of it will be a problem, other than possibly algae, this is an uncontrolled process.

Adding a shrimp – The shrimp will decay and create ammonia, but again, this is an uncontrolled process. How much ammonia will this add and how quickly? I don’t know.

Dosing pure ammonia – This is the only method I will ever use in the future. You can measure exactly how much you need to add to achieve a specific level of ammonia. You can measure just how quickly your bacteria consume it to judge the health of your bacteria population.

How do I recommend doing it?

I’m glad you asked! I’ll start from the point where the tank is set up, filled, has flow, and temperature is in the normal range. It doesn’t matter if you used live or dry rock.

I will either use pure ammonia or ammonium chloride to raise the total ammonia to 2ppm. I will test for ammonia, nitrites, and nitrates daily until ammonia is near 0ppm. I will then dose it back up to 2ppm while continuing daily tests. I will repeat this process in a smaller tank until ammonia goes from 2ppm to 0ppm within 24 hours. In tanks that are 90g+ that will be stocked slowly I will only dose to 1ppm ammonia after the initial dose and consider it cycled when it drops from 1ppm to 0ppm in 24 hours. This is to limit nitrates in larger tanks. Keep in mind that a 120g system that drops 1ppm in a day can support more fish than a 40g tank that drops 2ppm in a day.

IMG_0527 (2).JPG

But I still have questions!


Ok, let me see if I can answer some of the more common ones.


If nitrifying bacteria are everywhere, why are “bacteria in a bottle” products so popular?

Nitrifying bacteria are everywhere so that isn’t the problem. Some bacteria can double their population in 20 minutes. Luck would have it that these tend to be the more poisonous kind. Nitrifying bacteria are relatively slow reproducers and it takes between 8 and 24 hours for them to double their population. If you start with dry rocks it can take a month or two to produce enough bacteria to support even a few small fish. Using bacteria in a bottle instantly provides a larger source of bacteria to speed up the front end of this process.

My cycle went fine for 3 weeks but now it stalled, what happened?

It could be any number of things. Did you let your ammonia go to high? Do you have a pH issue?

Your nitrifying bacteria may be being outcompeted for resources with other bacteria and/or algae. They may process ammonia fine at first but they will eventually go dormant. When this happens, your cycle will stall until a more marine friendly bacterium reproduces enough to begin the cycling process again. Bacteria in your tank are in constant competition for food. Eventually the one best suited to your specific system will thrive.


Can I vacuum out too much bacteria by cleaning? Will cleaning my sand bed cause my tank to cycle?

No, you cannot hurt your bacteria population by routine vacuuming or water changes. These bacteria are very difficult to remove from solid surfaces and would be difficult to remove even with scrubbing.

If your sand bed is very dirty you may cause an ammonia spike that is larger than your current bacteria population can handle but you haven’t done any harm to your bacteria population.

Can I use old tank water to cut back on my new tanks cycle time?

You can, but it won’t help much. The majority of the bacteria is going to be growing on hard surfaces, not floating in the water. There will be some, however, so you will likely introduce a strain of bacteria into your new tank that will eventually work very well.

I never measured any nitrite during my cycle, is this a problem?

No, odds are this is not a problem. It is possible that you had a larger initial population of Nitrobacter bacteria (nitrite eaters) compared to Nitrosomonas bacteria (ammonia eaters). In this case the nitrite was processed to nitrate almost as soon as it was produced.

Another possibility is that you have a large population of Nitrospira bacteria. These bacteria convert ammonia into nitrite and then to nitrate within the same cell structure so the nitrite is never released into the water to be measured.

My tank has been empty for 6 months, did my bacteria starve?

No. It is almost impossible to starve bacteria. They will adjust their metabolism and reproduction rates based on the food supply. As the amount of available food goes down, they will process it slower and reproduce less. If they go without food long enough they will go into a cystic stage (typically around a year without food). Once food is available again it will take longer for them to recover from this stage but they are still viable.

This does not mean that your tank is ready for fish after sitting dormant for up to a year. Bacteria is part of the food chain and is consumed by many different organisms. Just because your bacteria didn’t starve doesn’t mean it didn’t get eaten or is still viable. Every aquarium will respond differently based on its unique biology.

Why can I add more fish to an older aquarium faster than a new aquarium?

Let’s say you have 2 identical aquariums set up one year apart. They both have the exact same number and size of fish and both have 0 ppm ammonia and nitrite. They must have the same amount of bacteria, right? Well, no. The older tank will have a larger population of bacteria that is processing ammonia at a slower rate. The younger tank will have a smaller population of bacteria with faster metabolisms. If you add new fish to the younger tank you need to wait for the population to increase which can take days. In an older aquarium, the bacteria only need to become more active which can happen in a matter of hours.
fts11.jpg
 
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revhtree

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Thank you for taking the time!! Nice job!
 

brandon429

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nice

a cycling article that defines which group of rocks bring in the bac and which do not, that's so 2017 nicely done!

you also cover the relative toughness, not weakness of the bacteria we deal with by stating nice wide ranges, excellent.

Most of the work online regarding marine bacteria are not measured in the context of a tank...its protective slimes and films...myriad food source inputs... this work above reflects them as they exist in our tanks quite well nicely done. what bacteria can tolerate inside a cold barren test tube of fluid or what they can tolerate isolated away from insulating communities found in a tank is much different than what they can tolerate in the aquariums we keep. that makes em tougher ~ nice work !
 
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Thank you for taking the time!! Nice job!

Thank you! I wanted this to be the article with the information I would have wanted when I set up my tank.

Now if only I could figure out how to shrink the photos to a more reasonable size. :confused:

nice

a cycling article that defines which group of rocks bring in the bac and which do not, that's so 2017 nicely done!

you also cover the relative toughness, not weakness of the bacteria we deal with by stating nice wide ranges, excellent.

Most of the work online regarding marine bacteria are not measured in the context of a tank...its protective slimes and films...myriad food source inputs... this work above reflects them as they exist in our tanks quite well nicely done. what bacteria can tolerate inside a cold barren test tube of fluid or what they can tolerate isolated away from insulating communities found in a tank is much different than what they can tolerate in the aquariums we keep. that makes em tougher ~ nice work !
Glad you like it. I could have written pages more. Actually, I did write more. A lot more. Especially regarding the use of bottled bacteria and skip cycling. It just got to be too much with all of the different rabbit holes you can go down. I wanted to keep this a bit more simple in a way that wouldn't overwhelm a new hobbyist.
 

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I could have written pages more. Actually, I did write more. A lot more. Especially regarding the use of bottled bacteria and skip cycling. It just got to be too much with all of the different rabbit holes you can go down. I wanted to keep this a bit more simple in a way that wouldn't overwhelm a new hobbyist.

Add the rest in the comments? I used dry rock, added biospira and ghost fed with my 75g, and I noticed I never saw any nitrites. With my nano I'm setting up later this week, I'll be using wet rock from my LFS.
 
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Add the rest in the comments? I used dry rock, added biospira and ghost fed with my 75g, and I noticed I never saw any nitrites. With my nano I'm setting up later this week, I'll be using wet rock from my LFS.
I think it would get a bit lost in the comments but I do think I will write a future article dedicated to the subject. Lots of different possible methods to quick cycle an aquarium that I would like to address.

Concise and very informative. Great piece!
Thanks!
 

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Cycling a new aquarium.

One of the earliest topics a new aquarium hobbyist needs to learn is how to properly cycle their aquarium. There is a ton of information on this process and many different methods on how to accomplish it. There are many different chemical and biological cycles our tank goes through as it matures but this addresses the one most commonly discussed.


What is cycling?

The term cycling comes from the process known as the “Nitrogen Cycle”. When a plant or animal decays, or an animal expels waste, nitrogen is released. In our aquariums we initially see this as ammonia. Bacteria converts the ammonia to nitrite and then to nitrate. When we have enough bacteria to quickly convert ammonia to nitrate, we say that our tank has cycled. This is deceiving because the process doesn’t stop at this point and it is never complete. For this reason we need to think of this as establishing a large enough bacteria population to support fish, not completing a cycle.
DSC_0048.JPG

Ammonia is a waste product of a fish’s cellular activity which is expelled through their gills. If the ammonia in the water is higher than in their blood it cannot be released and builds up in the fish causing cell damage. Nitrosomonas bacteria use ammonia as food and convert it to nitrite.

Nitrite is also harmful to fish. In a fish, nitrites hinder the ability of its blood to carry oxygen. Nitrites are a serious issue in fresh water systems. The same receptors in a fish that would absorb nitrites have a higher affinity for chlorides. The chlorides in saltwater block nitrites from being absorbed and protects the fish in marine systems. We rely on a different species of bacteria, Nitrobacter, to convert nitrite to nitrate.

Nitrates are relatively harmless for fish unless it reaches very high levels. Nitrates leaves our tank in any number of ways. We get rid of it via water changes. Algae and some corals can consume it as food.

The last part of the cycle is when nitrate is converted to nitrogen gas. This is done by anaerobic bacteria inside porous rock or within deep sand beds. Not every aquarium has the necessary conditions for this to occur

What conditions do I need for the cycle to occur?

To provide a good environment for the bacteria, we only need to make sure they are wet, oxygenated, and the pH is between 6.5 and 8.5. They will grow best at a temperature close to where we keep our tanks however they will still survive and reproduce at temperatures between 45F and 100F. We also want to monitor ammonia during this process. If ammonia gets over 5ppm it can slow down the rate bacteria reproduce. Above 10ppm it can start killing the bacteria.
frag tank (2).JPG

How does rock affect the cycle?

The rock in a marine tank is the core of its filtration system. We use porous rock to provide as much surface area as possible for bacteria to grow on. The water flowing around the rock brings the ammonia and nitrites to the bacteria. If the rock is large enough it may have anaerobic bacteria deep within it that can convert the nitrates to nitrogen gas.

There are many types of rock that are available in our hobby. I won’t get into all of the different types but I do want to address how dry and live rock impacts the cycle

Dry rock is just that. It is rock that has been dried out and has nothing alive on it. Dry rock can be “clean” where it is considered safe to put directly into an aquarium. If it is not clean it will need to be cured prior to use. Either way, it will not contain nitrifying bacteria. This isn’t a problem as nitrifying bacteria are everywhere and it would be impossible to keep them out of our aquarium even if we wanted to.

Live rock is rock that does have living bacteria on it. The main reason to use live rock is to speed up the cycling process. Just like with dry rock, not all live rock is ready to put immediately in an aquarium. For simplicity I am going to put live rock in 2 broad categories. If your live rock came directly out of a marine system and is kept submerged in quality water during transport you can put it directly into your tank. If the rock was exposed to air or shipped damp then it needs to be cured prior to use. The bacteria on this rock will be fine but other living things may have died and should be removed prior to putting it in your tank.
fish.jpg


How do I feed the bacteria?

There are many different takes on this and it is largely a matter of opinion. So here are the most common ways from worst to best in my opinion.

Adding a fish – while it will work as an ammonia source, why would you make a fish suffer in an environment in which it can’t properly shed its toxins?

Ghost feeding – When you add food to the tank you are adding much more than just what breaks down to ammonia. While none of it will be a problem, other than possibly algae, this is an uncontrolled process.

Adding a shrimp – The shrimp will decay and create ammonia, but again, this is an uncontrolled process. How much ammonia will this add and how quickly? I don’t know.

Dosing pure ammonia – This is the only method I will ever use in the future. You can measure exactly how much you need to add to achieve a specific level of ammonia. You can measure just how quickly your bacteria consume it to judge the health of your bacteria population.

How do I recommend doing it?

I’m glad you asked! I’ll start from the point where the tank is set up, filled, has flow, and temperature is in the normal range. It doesn’t matter if you used live or dry rock.

I will either use pure ammonia or ammonium chloride to raise the total ammonia to 2ppm. I will test for ammonia, nitrites, and nitrates daily until ammonia is near 0ppm. I will then dose it back up to 2ppm while continuing daily tests. I will repeat this process in a smaller tank until ammonia goes from 2ppm to 0ppm within 24 hours. In tanks that are 90g+ that will be stocked slowly I will only dose to 1ppm ammonia after the initial dose and consider it cycled when it drops from 1ppm to 0ppm in 24 hours. This is to limit nitrates in larger tanks. Keep in mind that a 120g system that drops 1ppm in a day can support more fish than a 40g tank that drops 2ppm in a day.

IMG_0527 (2).JPG

But I still have questions!


Ok, let me see if I can answer some of the more common ones.


If nitrifying bacteria are everywhere, why are “bacteria in a bottle” products so popular?

Nitrifying bacteria are everywhere so that isn’t the problem. Some bacteria can double their population in 20 minutes. Luck would have it that these tend to be the more poisonous kind. Nitrifying bacteria are relatively slow reproducers and it takes between 8 and 24 hours for them to double their population. If you start with dry rocks it can take a month or two to produce enough bacteria to support even a few small fish. Using bacteria in a bottle instantly provides a larger source of bacteria to speed up the front end of this process.

My cycle went fine for 3 weeks but now it stalled, what happened?

It could be any number of things. Did you let your ammonia go to high? Do you have a pH issue?

Your nitrifying bacteria may be being outcompeted for resources with other bacteria and/or algae. They may process ammonia fine at first but they will eventually go dormant. When this happens, your cycle will stall until a more marine friendly bacterium reproduces enough to begin the cycling process again. Bacteria in your tank are in constant competition for food. Eventually the one best suited to your specific system will thrive.


Can I vacuum out too much bacteria by cleaning? Will cleaning my sand bed cause my tank to cycle?

No, you cannot hurt your bacteria population by routine vacuuming or water changes. These bacteria are very difficult to remove from solid surfaces and would be difficult to remove even with scrubbing.

If your sand bed is very dirty you may cause an ammonia spike that is larger than your current bacteria population can handle but you haven’t done any harm to your bacteria population.

Can I use old tank water to cut back on my new tanks cycle time?

You can, but it won’t help much. The majority of the bacteria is going to be growing on hard surfaces, not floating in the water. There will be some, however, so you will likely introduce a strain of bacteria into your new tank that will eventually work very well.

I never measured any nitrite during my cycle, is this a problem?

No, odds are this is not a problem. It is possible that you had a larger initial population of Nitrobacter bacteria (nitrite eaters) compared to Nitrosomonas bacteria (ammonia eaters). In this case the nitrite was processed to nitrate almost as soon as it was produced.

Another possibility is that you have a large population of Nitrospira bacteria. These bacteria convert ammonia into nitrite and then to nitrate within the same cell structure so the nitrite is never released into the water to be measured.

My tank has been empty for 6 months, did my bacteria starve?

No. It is almost impossible to starve bacteria. They will adjust their metabolism and reproduction rates based on the food supply. As the amount of available food goes down, they will process it slower and reproduce less. If they go without food long enough they will go into a cystic stage (typically around a year without food). Once food is available again it will take longer for them to recover from this stage but they are still viable.

This does not mean that your tank is ready for fish after sitting dormant for up to a year. Bacteria is part of the food chain and is consumed by many different organisms. Just because your bacteria didn’t starve doesn’t mean it didn’t get eaten or is still viable. Every aquarium will respond differently based on its unique biology.

Why can I add more fish to an older aquarium faster than a new aquarium?

Let’s say you have 2 identical aquariums set up one year apart. They both have the exact same number and size of fish and both have 0 ppm ammonia and nitrite. They must have the same amount of bacteria, right? Well, no. The older tank will have a larger population of bacteria that is processing ammonia at a slower rate. The younger tank will have a smaller population of bacteria with faster metabolisms. If you add new fish to the younger tank you need to wait for the population to increase which can take days. In an older aquarium, the bacteria only need to become more active which can happen in a matter of hours.
fts11.jpg


"If the rock is large enough it may have anaerobic bacteria deep within it that can convert the nitrates to nitrogen gas."

How large is large enough? Does it depend on how long it's been in saltwater?
 
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"If the rock is large enough it may have anaerobic bacteria deep within it that can convert the nitrates to nitrogen gas."

How large is large enough? Does it depend on how long it's been in saltwater?
That is a great question and one which doesn't have an easy answer. It will vary with the porosity of the rock, the amount of oxygen in the water, and water flow through the system. The best answer I can give is that with many tiny pores can support anaerobic bacteria in under 1/2". With larger pores and more flow of oxygenated water it may need to be 3" or more into the rock before the right conditions are established, if they are at all.
 

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natural nitrate reduction, seeking it via the arrangement of rock we use or the depth/grain setting of the sandbed, is what started the deep sandbed craze of the 90s/ the entire Berlin method of reefkeeping using only skimmers and rocks and sand is predicated on attaining NNR, but it happens about 2% of the time across setups which is why we have carbon dosing, algal turf scrubbers and biopellets to cover all instances.

Being able to arrange any type of natural materials to reduce nitrate vs produce it is so rare, the method is phasing out in home aquaria. That's not to say there aren't systems pulling it off...enter stump remover dosing stage left...but its so rare you can measure a total shift in the hobby because any way you set up an aquarium you have about a 2% chance of attaining true NNR. we tend to overstock and overpower it anyway in most settings. its an ideal outcome given by chance, harmless to attempt but don't base a system design on ever attaining it without cheats and alternate exports imo

the only current method I think gives a person a really good chance at commanding it is the remote deep sand bed setup.
 
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Hi. I'm New to the saltwater. I started to cycle a 40 gallon tank on May 3rd. On May 14 had ammmonia spike to .4 with marine care test kit. 20 lb live rock. 2 inch crushed coral. Now all parameters are good. Phosphate .25, temp 79.8, ammonia 0, ph 8, nitrite 0, nitrate 2, MegL 2.5, salinity 1.025. Is this all to good to be true. Or am I just paranoid? Have 2 clowns
20170527_222254.jpg
 
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Hi. I'm New to the saltwater. I started to cycle a 40 gallon tank on May 3rd. On May 14 had ammmonia spike to .4 with marine care test kit. 20 lb live rock. 2 inch crushed coral. Now all parameters are good. Phosphate .25, temp 79.8, ammonia 0, ph 8, nitrite 0, nitrate 2, MegL 2.5, salinity 1.025. Is this all to good to be true. Or am I just paranoid? Have 2 clowns
20170527_222254.jpg
You should be good. One of the main reasons to use live rock is that it allows us to skip the cycle. I normally prefer to test that the live rock is as "live" as we want it to be prior to adding fish.
The ammonia spike was likely from something dying off on the live rock. I'm hoping the clowns weren't in there when you had your ammonia spike as that can cause some long term damage to their gills. That said, if you stock slowly you should be fine moving forward.
 

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Sally and Aura are fine. Put in after spike. Grand daughters named the clowns. Thanks for your reply. Looking forward to getting more info from this forum. And watching my tank grow.
 

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Thank you for the great article. I've been reading everything I can get my eyes on for about a year now in preparation for the tank I set up this past weekend and I really appreciate those of you who take the time to help us newbies out!!

Can you tell me how you came up with the amount of NH3 to add to start the cycling process? Did you add a little and test, add a little and test, etc.? I don't even know where to start--like a teaspoon or a cup? Lol.

I have a new 75 gal tank with an approx. 20 gal sump. I had already added a tiny bit of fish food before reading this article to get things started. I don't have live rock--started with dry South Seas base rock. Kind of wish I had gotten live rock now. But I'd like to attempt the NH3 method if it's not too late since I already added the fish food.

Thanks again!
 
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Thank you for the great article.
I'm glad you found it useful!

Can you tell me how you came up with the amount of NH3 to add to start the cycling process? Did you add a little and test, add a little and test, etc.? I don't even know where to start--like a teaspoon or a cup?
It can be a little challenging, as can finding ammonia that doesn't have soap added to it. The easiest way is to order Dr Tims ammonia chloride. It comes with dosing instructions so you know exactly how much to add per gallon.

Kind of wish I had gotten live rock now.
You can always use a bottled bacteria product like Dr Tim's One and Only, Biospira, Stability, or many others that are on the market. It has almost the same impact as live rock.

I'd like to attempt the NH3 method if it's not too late since I already added the fish food.
Nope, not too late at all.
 
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