Setting Up an AQUARIUM.
Safety First! With any project, there are safety procedures that must be considered. Below are just a COUPLE of potential safety concerns when working with aquariums: ELECTROCUTION HAZARD Aquariums require filters, pumps, heaters, lights, etc. Most of these require electricity, and, as with any electrical appliance, special care must be taken. Electrical outlets, wires, and components must be kept free from moisture. Directions on use need to be read thoroughly. Drip loops should be used when plugging in any appliance for the aquarium. SLIPPING HAZARD Aquariums need to be cleaned and water must be replaced from time to time. Water can easily be spilled onto the floor and be undetected. Always move water and/or objects carefully so as not to spill water. Always be observant when working around the tank and clean up any spills immediately. Water + Electricity = Safety Hazard
Equipment Fish need SPACE, OXYGEN, CLEAN WATER, and FOOD. Of course, they need other things, but that depends on the particular setup. Every piece of equipment will fall under the categories above.
SPACE
1 SPACE For every one inch of fish, one gallon of water is needed.
Oftentimes, fish such as betta and goldfish are placed into tiny bowls or containers. This is not the appropriate size for a fish.
Negative effects of too little space: overcrowding, oxygen depletion, waste accumulation, overfeeding, etc.
Other space requirements... Enough water. 1 inch fish = 1 gallon A sturdy foundation Every gallon weighs approximately 10lbs (i.e. 20 gallon tank = 200lbs.) Background plants, foreground plants, hideouts, etc. You want to be able to view your fish but also allow them a place to hide out.
How much space? A two-inch guppy? A ten-inch koi? 3 five-inch goldfish? 9 six-inch tetras?
Aquarium space specifics... BOTTOM DWELLERS Typically have a flat, ventral region. Many have an inferior mouth which is used to feed off substrate (sand, rocks, etc.) MID-LEVEL SWIMMERS These fish are the focal point of the tank and are usually active. Take caution in choosing tankmates: some nip fins, some eat others, some are relatively peaceful. TOP-LEVEL FEEDERS Top-level feeders typically have a superior mouth and feed on floating food. These fish usually have strong and sometimes elaborate fins to help them swim and stay afloat.
Aquarium space examples... BOTTOM DWELLERS Loaches, catfish, plecos, discus, corys MID-LEVEL SWIMMERS Tetras, goldfish, barbs, danios TOP-LEVEL FEEDERS Gouramis, bettas, guppies, hatchetfish
Bottom-Dwellers Clown Loach Tiger Pleco Twig Catfish
Mid-Level Swimmers White Goldfish Neon Tetra Cherry Barb
Top-Level Feeders Crowntail Betta Gourami Hatchetfish
GLASS VS. ACRYLIC TANKS GLASS Highly scratch-resistant; heavier due to density (4-10 times heavier than acrylic); prone to cracking/shattering; typically rectangular shape; can support its own weight; lifetime clarity ACRYLIC Easily scratched by handling, scrubbing, shipping but can be polished; lightweight; crack-resistant; variety of shapes; weakens under weight; yellows with age
Tank Dimensions
OXYGEN
2 OXYGEN The concentration of oxygen in water is significantly less than that of air.
Oxygen makes up about 21% of the air that we breathe. In water, oxygen (dissolved oxygen) makes up only about.0005% or 5 parts per million (ppm) or higher.
Water flows in through the mouth and out through the gills. Gills contain blood vessels for gas exchange. *** Inflammed gills, or excessively red gills indicate stress in a fish caused by low oxygen, illness, etc. The redness is due to an increase in blood flow to the gills to acquire more oxygen.
Oxygenation of water. Oxygen naturally dissolves at the surface. Surface waters typically have higher levels of oxygen than the mid- and bottom levels. Oxygen can be mixed in by turbulence. Water flow, wind, thrashing fins, cresting waves, etc. Oxygen can be introduced via photosynthesis. Photosynthetic organisms produce oxygen: water lilies, algae, cyanobacteria, phytoplankton, etc. Oxgen can be introduced by diffusion. Limewood (basswood) or porous stone have trapped air.
DE-oxygenation of water. Metabolism uses up dissolved oxygen. All aquatic organisms (at least the ones we are concerned about) use oxygen. Temperature is a direct variation. The higher the temperature, the lower the DO level. The lower the temperature, the higher the DO level. Decomposition and eutrophication can cause fishkills. Decomposition by bacteria/fungi uses up oxygen (metabolism). Eutrophication adds nutrients to the water, but organisms die off and decompose.
How can we increase DO? Aquariums don t experience waves, natural flow, wind, etc. So how can we add dissolved oxygen?
Artificial Oxygenation AIR STONES Air stones are made of limewood, glass, porous stone, etc. A continuous stream of tiny bubbles are emitted by the release of trapped air/chemical reactions into the surrounding water. AIR PUMPS These do not directly add oxygen to the water, but increase the surface area for which gas exchange can occur. Remember that gases naturally dissolve at the surface of water.