I have said these things to many people personally but I think it should be an open knowledge, so here it goes:
Many people suffer with finding the right balance in their planted tanks and as a result they grow more algae than actual plants. Here are my personal tips and tricks that may help you.
There are three key elements required for our planted tanks – CO2, Ferts and Light. We need to find a balance among these three things. I have said it many times, that CO2 is the No.1 priority in a planted tank, then ferts and lastly lights. and you need to find the right balance for your tank for all these three items. there are no universal rules here. Just because you and I may have the exact same size tank, that will never mean that both our CO2, ferts and light requirements are the same. And tuning these three items individually is a hell of a task for anyone. so, here is what I do and advise:
1. CO2:First and most importantly, turn up your CO2 as high as possible. For pressurized CO2 owners, you have two options:
(1) start with a reasonable bps of CO2 and increase by 1bps daily until u see the fish gasping, then turn it down 1bps. That is your optimum CO2 levels (around 30-35ppm).
(2) If you have a pH test kit or a pH pen, first measure the pH of your tap water and then increase CO2 until you have 1 pH drop. for example, if your tap water pH is 7.3, increase CO2 until tank pH is 6.3. this 1pH drop ensures 30-35ppm CO2.
For DIY CO2 users, you cannot use the fish gasping method, because doesn’t matter how much CO2 you give, with DIY CO2 you can never exceed 14-15ppm (and also in a tank less than 30g). so, for you guys, using a pH test kit or a pH pen is the only option, and you should target for a 0.5pH drop. For example, if your tap water pH is 7.3, then you should aim for a pH of 6.7-6.9 in your tank. FYI, it doesn’t matter if you are using sugar-yeast or acid-soda method, CO2 is CO2. the different method just affects the longevity of the mixture.
Note that, whatever method you use, you should always test the pH for MAX CO2 levels around an hour before lights off. Always start your CO2 1-2 hours before lights tun on, and turn CO2 off 0-60 minutes before lights off.
2. Ferts: Now that you have ensured that you have adequate CO2 in the tank, it’s time for fertilizers. That is where EI dosing comes into play. With EI Dosing, you are ensuring that you have enough of all the macro and micro nutrients in the tank, so that there is never a nutrient deficiency in the tank. Using both Aquartia Macro and Micro Fertilizers will ensure that you have enough nutrients in your tank for the plants to thrive.
3. Light: Now that you have made sure that there won’t be any deficiency of CO2 and ferts, the only thing you need to tune is light. I cannot emphasize this hard enough, but light is the LEAST important among these three items, meaning, CO2 and nutrients are much more important for a planted tank than lights. As for lights, there is also no universal rule, but rather a rough guideline with the “Watt-per-gallon” rule. But that is also vague and should be used only as a guideline. Also, note that the watt per gallon rule is based on Compact Fluorescent Light (CFL), which we commonly know as energy-saving bulbs. However, we use LEDs. I have always suggested to use 5730 LED strips instead of 8520 LEDs, if you are into strip LEDs, as 8520 LED strips promote algae growth, specifically Green Spot Algae. Also, you will not see any branded LED lights using 8520 – they all use 5730. Nonetheless, regardless of whatever LEDs you use, be it LED T5s, or LED Panel Lights or LED Strips, you should start with around 2.0-2.3 watt per gallon of light (Equivalent to 3.5 watt per gallon CFL), and 6 hours of light per day in one go. For a new tank, you should maintain this light intensity and photo period for the first month. After that you should start to increase the photo period by 1 hour every week until you see algae growth, but never more than 10 hours. I would recommend increasing the photo period to 8 hours, and then start to increase light intensity (watt) little by little every week (usually by around 10%), until you are satisfied with the plant growth. Please note that, lower light with longer photo period is much better than stronger light with shorter photo period. The plants will only grow while there is light. If you do not provide enough photo period, the plants don’t have enough time in a day to actually grow. Its just basic common sense. Also note that, a tank that is 48L x 24W x 18H and a tank that is 36L x 24W x 24H are both 90 gallons – but obviously you can understand that there lighting requirement will never be the same as their heights are different. So, if you calculate the light wattage based on watt-per-gallon rule, and use the same wattage of light on both tanks as they are both 90g, the 48L tank will never have as much light as the 36L tank.
So, you can see, finding the perfect balance for your planted tank, is not really that hard – Step 1: give max CO2; Step 2: Give max ferts; and finally Step 3: Find the right photo period/intensity of lights. So basically, in this method, you only have to tune one thing – lights.
Below are some other additional bonus tips/tricks for a better and healthier planted tank:
a. Always have at least 70% area covered with plants. You are providing CO2, ferts and lights for the whole tank, but if there is not enough plant mass in the tank, then there is nothing in the tank to consume them. And that’s when algae start to thrive. Having a good amount of healthy plants is the key to success against algae outbreak.
b. You should always have some cleanup crew in the tank. Algae is part of a natural ecosystem and there is not a single planted tank in the world that does not have some algae. Our goal is not to eradicate algae, but to keep it under control, so that there are no “visible” algae in the tank. And for this reason, you should have a good cleanup crew in your tank from the very beginning. There are no single algae-eater that will be enough for your tank, as different species eat different algae. I would recommend a mic of Amano shrimps, true SAEs and Oto for a planted tank. For a 20G tank, I would suggest a mix of 6 Amano shrimps, 4 SAE and 4 Oto. Again, there is no “rule” like this – it is just based on personal experience and research.
c. DO NOT OVERSTOCK YOUR TANK WITH FISH! In a proper planted tank, plants are the #1 priority. The fish are only there to accent the tank and to show signs of moving life in the tank. The more fish you have, the more waste they produce and it starts to build up in your tank. Eventually there is too much organic waste in the tank, and that promotes algae growth and poor health of the actual plants.
d. Always have a good water circulation. Filtration rate and circulation rate are different. Even if you are using a filter with 6x LPH, that may not necessarily mean you have enough flow in the tank, specially if you are using a HOB. Flow in your tank is like blood in our bodies – it takes all the nutrients to the farthest corners of the tank so that plants can access them easily. 10-12x LPH flow is ideal for a planted tank. For this, I recommend using a Resun power filter. They are adjustable, they come with all the attachments to use it either as a power filter or just a powerhead, and you can just plug in the CO2 pipe to its venturi inlet and wont need to but a diffuser.
e. If possible, use Flourish Excel in double the recommended dose in your tank. This is not as a carbon source but as a way of algae control. Excel or any other s0-called “liquid CO2” does not actually provide a CO2 source for your plants, but the glutaraldehyde it contains is what prevents algae outbreak. A cheaper and more accessible say is to use Hydrogen Peroxide (H2O2) in your tank. Before every water change, add 1.5-2ml per gallon of H2O2 in the tank and wait for 15 minutes. Make sure there is flow in the tank so that the H2O2 can reach everywhere in the tank. If possible, add an extra powerhead to increase the flow for these 15 minutes. Then turn off the flow, do your maintenance in the tank and a 50-70% water change. Alternatively, you can also use Aquartia AlgaeGuard in the recommended maintenance dosage of 01 pump (1mL) per 10 gallons.