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HI SM,

Any idea how it takes before algae starts to show up?

I have DIYed a 4 x 5 inches UAS and started a 12hour light routine for the past for days but yet to see any sign of algae.

Thanks!

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HI SM,

Any idea how it takes before algae starts to show up?

I have DIYed a 4 x 5 inches UAS and started a 12hour light routine for the past for days but yet to see any sign of algae.

Thanks!

12 hour is not enough. at least 18 hours light. You should give it 5 days to see the first growth.

How many lights do you use now?

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My name is ??

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12 hour is not enough. at least 18 hours light. You should give it 5 days to see the first growth.

How many lights do you use now?

Thanks SM! My UAS is showing good algae growth now, patience is key. :thumbsup:

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  • SRC Member

They fill the "middle" area with a place for algae to attach, thus allowing algae to fill all the compartment They also are narrow, so their "illumination ratio" is very good (they don't block much light).

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Phosphate flow out of rocks

Many people, when they get their scrubber running for the first time, get worried when more (not less) algae starts to grow on their rocks. It seems really strange, especially when nitrate and phosphate have gone lower than before. What is happening is that phosphate is coming out of the rocks. Remember, phosphate is invisible, so you can only see the effects of it, and it always "flows" from higher concentrations to lower concentrations (just like heat does).

Example: If your room is warm, and you put a cold object on the floor, heat from the air in the room will "flow" into the object until the object and the air are the same temperature. Example 2: If you put a hot object on the floor, heat will "flow" out of the object and go into the air in the room, again, until the air and the object are the same temperature. Now suppose you open your windows (in the winter). The warm air in your room will go out the windows, and it will get colder in the room. The object on the floor is now warmer than the air, so heat will flow out of the object and into the air, and then out the window.

Think of phosphate as the heat, and your rocks as the object, and your windows as the scrubber. As the scrubber pulls phosphate out of the water, the phosphate level in the water drops. Now, since the phosphate level in the water is lower than the phosphate level in the rocks, phosphate flows from the rocks into the water, and then from the water into the scrubber. This continues until the phosphate levels in the rocks and water are level again. And remember, you can't see this invisible flow.

This flow causes an interesting thing happens. As the phosphate comes out of the rocks, it then becomes available to feed algae as soon as the phosphate reaches the surface of the rocks where there is light. So, since the surface of the rocks is rough and has light, it starts growing MORE algae there (not less) as the phosphate comes out of the rocks. This is a pretty amazing thing to see for the first time, because if you did not know what was happening you would probably think that the algae in the scrubber was leaking out and attaching to your rocks. Here are the signs of phosphate coming out of the rocks:

1. The rocks are older, and have slowly developed algae problems in the past year.

2. The scrubber is new, maybe only a few months old, and has recently started to grow well.

3. Nitrate and phosphate measurements in the water are low, usually the lowest they have been in a long time.

4. Green hair algae (not brown) on the rocks has increased in certain spots, usually on corners and protrusions at the top.

5. The glass has not needed cleaning as much.

Since skimmers, filter socks, etc don't remove any nitrate and phosphate, and waterchanges and macro's in a fuge don't remove much, most people have never seen the effects of large amounts of phosphate coming out of the rocks quickly. But sure enough, it does. How long does it continue? For 2 months to a year, depending on how much phosphate is in the rocks, how strong your scrubber is, and how many other phosphate-removing filters you have (GFO, carbon dosing, etc). But one day you will see patches of white rock that were covered in green hair the day before; this is a sure sign that the algae are losing their phosphate supply from the rocks and can no longer hold on. Now it's just a matter of days before the rocks are clear.

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Advanced Aquarist Feature Article for December 2013: Coral Feeding: An Overview

http://www.advancedaquarist.com/2013/12/aafeature

The picture in the article shows that in the 1000 litre test tank:

98% of the food particles go to the skimmer when there are 2 coral colonies

71% of the food particles go to the skimmer when there are 40 coral colonies

92% of the food particles go to the skimmer when there are 2 coral colonies, when skimming is cut in half

55% of the food particles go to the skimmer when there are 40 coral colonies, when skimming is cut in half

"This trade-off between food availability and water quality can be circumvented by using plankton-saving filtration systems, which include [...] algal turf scrubbers"

"Corals are able to feed on a wide range of particulate organic matter, which includes live organisms and their residues and excrements (detritus)."

"...bacteria [...] can be a major source of nitrogen."

"...when dry fish feeds or phytoplankton cultures are added to an aquarium, a part of this quickly ends up in the collection cup of the skimmer.

"...mechanical filters (which can include biofilters and sand filters) result in a significant waste of food."

"Detritus is a collective term for organic particles that arise from faeces, leftover food and decaying organisms. Detrital matter is common on coral reefs and in the aquarium, and slowly settles on the bottom as sediment. This sediment contains bacteria, protozoa, microscopic invertebrates, microalgae and organic material. These sedimentary sources can all serve as coral nutrients when suspended, especially for species growing in turbid waters. Experiments have revealed that many scleractinian corals can ingest and assimilate detritus which is trapped in coral mucus. Although stony corals may ingest detritus when it is available, several gorgonians have been found to primarily feed on suspended detritus."

"Dissolved organic matter (DOM) is an important food source for many corals. [...] scleractinian corals take up dissolved glucose from the water. More ecologically relevant, corals can also absorb amino acids and urea from the seawater"

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Where can I get this mesh canvas in singapore?

Tank Size: 3.5 ft x 2 ft x 2 ft
Sump: 3ft x 1.5ft x 1.5ft”
Return Pump: Eheim 1264
Chiller Pump: H2Ocean Flow Pump 3000
Skimmer: Vertex Alpha 200
Wavemakers: 2 X Maxspect Gyre 130; 1 x Ecotech VorTech MP10WES, 1 x Ecotech VorTech MP40WES, 1x Jebao RW15
Filtration: Schuran Multifilter 100 (Rowa Phos), Two Little Fishies Phosban 150 Fluidised Reactor (Vertex Rox 0.8 Carbon), Enductor Fluidized Reactor- FR45 (NP Biopellets & All In One Biopellets) with Eden 140 Pump, Santa Monica Hogx1 Algae Turf Scrubber, Cheato
Calcium Reactor: Skimz CM152 with needle valve and Maxijet 600 feed Pump (CaribSea ARM Extra Coarse ,KZ Coral Gravel, Two Little Fishies Reborn, Grotech Magnesium Pro)
Dosing: Bubble Magnus Dosing Pump BM-T01 + 2 x 4 Head Expansion Accessory BM-T02
Bio Media: Marine Pure, Bacteria King, Eheim Substrat Pro, Eheim Substrat, Seachem DeNitrate, PowerHouse Hard, Polyplab Biosphere, Seachem Purigen

Chiller: JBJ Arctica Titanium Aquarium Chiller (1/3 Hp - DBE-150)
Lighting: ATI Powermodule 6 x 39 Watt T5. Solite 4 x 39 Watt T5 (Only 2 used) (Blue+ Blue+ Coral+ Purple+ Coral+ AB Special) (Blue+ Purple+)
Auto Top Up system: Tunze Osmolator Universal 3155 Auto Top Off
Monitoring: 2 x Milwaukee MC 122 PH Controller (Calcium Reactor & PH Monitoring)

Substrate: CaribSea Aragamax Select

 

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