“I want to look at a tank set up that I loved doing myself and one that became extremely popular in the hobby over the last 18months to 2 years at least that’s what I’ve seen that’s when they grew in popularity. That tank set up is of course a betta sorority. So, what does betta sorority mean, well that means that you set up a tank with all female bettas.
Now typically we all know the rule is you can only keep one betta in a tank or they will fight each other. And yes this is the rule when it comes to males, but people tested it with females and found that under the right conditions you can actually keep groups of them together in tanks and they do not murder each other. Now that being said, these can be very hit or miss, so they are by no means a beginner level tank, in fact I would not even classify them as a moderate level tank, these should really only be attempted by people that have
A. done a bunch of research into them,
B. have been keeping fish for a few years.
C. people who have dealt with and know how to handle aggressive fish, and
D. people that have the ability to think on their feet and have the funds and space available for extra tanks incase a sorority does not natural balance itself.
So, for these the smallest size tank you should attempted them in is a 20 gallon, you will want a group of 5-7 girls. You are going to want to make sure you have plenty of hiding spots in the form of décor; rock work, driftwood and other things. You are also going to want a large number of plants in the tank for the same reason as the hiding spots. You want to treat your sorority like an African cichlid tank and give the fish plenty of ways to break line of sight with each other to curb their aggression.
The biggest mistake I think people make with these is trying to put too many girls in a small tank and they do not include something that I think is essential to sororities; dither fish. Dither fish are one of the biggest things you need to do if you want to keep a successful sorority. Dither fish are a schooling fish or active fish that will distract your girls away from fighting each other. I have found black neon tetras and emerald eye rasboras are great for this. Another big thing you want to try and do is get all your girls young and at the same time, this way they grow up together. If you notice aggression you can put that one fish in a time out, ie put it in a net in the tank or a breeder box. You might find you need to pull a fish completely as some just aren’t suitable for cohabitation.
Eventually your girls will establish a natural hierarchy among them, and balance should be achieved. Overall betta sororities can be an amazing tank and a fun project for someone that wants to try a tank that requires more work to maintain. But sadly, given the level of knowledge you need to successfully keep a sorority I would not recommend this to everyone. Don’t get me wrong, I love sororities, but they just require so much more in-depth knowledge of fishkeeping than a simple community tank or singular betta tank that I don’t feel comfortable recommending them to everyone. “
Spironucleus vortens: Facts and theories about hexamita
submitted by Tammy Kuilderd
Nov. 2021
I have been researching and studying Spironucleus Vortens for over a year and i would like to share with you all some of my findings.
Spironucleus Vortens is the correct name for the protozoa we all know as Hexamita, When this protozoa was first seen in Cichlids it was diagnosed as the human infecting protozoa Hexamita. It was later discovered that this protozoa has a different Genome than Hexamita. It has since been classified as family: Hexamitadae but the genus: Spironucleus Vortens.
S. Vortens is commonly found in Cichlids although research has been unable to ascertain the reason for this. It is common in all species, from African Cichlids to North, Central, and South American cichlids.
Most Cichlids carry S. Vortens with no symptoms of having them, however if conditions are good for the protozoa it will multiply and overwhelm the fish, causing illness. S. Vortens are known to occupy the mucosa found in the intestine, however they can penetrate the walls and infect other organs of the body. IF this happens it can be fatal. some of the symptoms of illness include white mucousy poop, darkening in color, sluggishness, refusing food, and hiding. These symptoms are the same as many other diseases, making it difficult to know what is going on in your fish. S.Vortens has also been found in the wounds associated with HITH, however it still requires further study to find if S.Vortens is the cause of the wounds or is opportunistic in this case.
In December 1999, Virginia Tech did a study of angelfish infected with S. Vortens in order to determine the optimum growing conditions for the protozoa as well as treatments for it.
During this study, it was found that S Vortens optimum growth conditions we in temperatures between 22C (71f) and 28C (82f) with a PH range between 6.0 and 7.5. These temperatures and PH range covers most of the Cichlids we keep.
In this study they tested treatments of the nitroimidazoles and the benzimidazoles, from the meds tested pyrimethamine, magnesium Sulfate, albendazole and fenbendazole were completely ineffective, however metronidazole, mebendazole and dimetridazole were all effective with mebendazole being the most effective.
In another study done in 2000, an in vitro study was done in order to ascertain the best conditions for optimum growth of S. Vortens. This study was done with S. Vortens growing in medium, in different conditions. The results of this study mirrored those of the last. Optimum conditons were found with temperature 22C-28C. It was found that with a temperature of 30 and higher all S. Vortens died in 4 days. Optimum PH range was 6.0-7.5. With PH above 8.5 and below 5.5 all S. Vortens were dead in 24 hours.
So in Theory, taking into consideration both studies, with a PH above 8.0 and below 6.0 S. Vortens cannot survive. This is interesting news for sure.
According to the University of Florida Treatment for S. Vortens is Metronidazole preferably mixed in food, however if the fish is not eating it can be used as a bath. Below i have added screenshots og the dosage amounts for both in food and the bath as well as a recipe for the meds provided by the University of Florida.
I hope this article has been both informative and useful.
Powerful Ways to Become Your Best Self Today
submitted by Cheryl Conklin
www.wellnesscentral.info
2/15/21
You know that you are capable of great things. If you achieve your potential, you’d feel confident, assertive, and ready to take on the world. Well, what’s stopping you? It’s easy to soothe the mind, to tell ourselves we’ll get to future greatness later. But if you’re going to look, be and feel your best – there’s no time like the present to start.
If you push yourself to grow and develop gradually, you will reap the benefits tenfold for a great life. Here’s what to do, presented by SLC Aquatics.
Focus on Healthy Habits
If you feel good, you look good. And https://www.insider.com/ways-to-look-feel-more-attractive-confident-2017-8 has proven that when you look good, your confidence skyrockets. Start from within by nourishing your body and fuelling it well for all your activities. Incorporate lots of fresh greens and protein to feel light and refreshed, and avoid fatty, oily foods that can make you feel heavy and bloated.
Start spending a portion of your day moving in some shape or form – according to VeryWell Health, even 30 minutes of exercise can work wonders in preventing the effects of old age down the line. It’s mind, body, and spirit for a reason – so try and incorporate a meditation practice into your daily routine. This will center you and fill you with the gratitude and appreciation needed to take on each day.
Embrace the ‘Goal-Digger’ Mindset
Get goal setting. Consider the most important areas of your life, and visualize how they would look in the ideal situation. Then, think of concrete goals to help get you there. Set both short and long-term goals to create the life you’ve always dreamt of. Short-term goals could include saving up for a car or phone, while long-term goals could be landing that dream job or investing in a worry-free retirement.
And don’t forget to switch your life up if it’s not aligning with your future goals. For example, if you’re working a job that isn’t serving you, it might be better for your stress levels and mental health to make a change. If you want to switch careers, consider going back to school to brush up on the required skills for your intended industry. Some programs allow you to explore various careers simultaneously – from criminal justice to business and psychology. Online degree programs make it easy to get a master’s while working and managing home life. Just make sure the school you refer to is accredited and offers competitive tuition fees, and you’ll be good to go!
Obliterate That Comfort Zone
Your comfort zone exists for one reason and one reason only – to be broken. While you may feel confident and calm within your safety net, you can only evolve when you push yourself. According to Greater Good Magazine, the adrenaline and serotonin released when you challenge yourself releases powerful endorphins, evoking feelings of confidence and power. If you’re resistant to change, start small – having that difficult conversation you’ve been putting off is a place to start. Adventure sports, travel, breaking your routine – all these activities require bravery but come with immense satisfaction and fulfillment.
Positive Thoughts Only
Healthline reports that the way you speak to yourself is make or break. Rather than beating yourself down, drowning in insecurity, and nitpicking your behaviors, learn to work with what you’ve got. Repeating positive affirmations and mantras will help you coach your way to betterness and help you believe that you are already your ideal self.
We hope these powerful tips help you along your self-actualization journey. The stresses and pressures of daily life may bring you down, and becoming your best self may seem unattainable, but we are here to tell you it is not. Big change starts slow, so give yourself time to develop into a healthier, happier you.
LESS IS MORE
I have , over time, found most corals to have relatively few requirements to thrive much as they would on a natural reef. While many amateur reef keepers have taken a high-tech route to creating the proper micro-environment, I have found that less is more. Readers of this book will see that I do not advocate any single method of reef keeping. Indeed, many types of systems – both technically sophisticated and elegantly simple _ can be made to work.
ESSENTIAL EXPERIENCE
Who among us really can say they know what the captive requirements of some of these animals are?
For example, Euphyllia ancora, the hammer coral, is kept by many thousands of aquarists around the world with a high-degree establishing the captive needs of this species. I have had two of these corals in my aquariums for many years, and coupling my own observations with the experiences of countless others, I think we have a pretty good picture of what this animal needs to thrive in captive settings.
The reality is that our collective ignorance about corals and coral husbandry is still profound. In my mind, it’s a simple matter of being confronted with so many corals and so little time. It is simply not possible for a single person to proclaim with any degree of accuracy the relative ease or difficulty with which a good number of these corals can be maintained. Many corals can easily outlive us, after all. How many generations of corals have any of us seen in captivity? Usually, not even one that reaches reproductive maturity. Can we claim success because we have maintained a certain coral for a period of months, or even a few years? In reality, we are just arriving at the frontier of captive coral husbandry. We barely know a thing about coral disease in the aquarium, much less how to treat it. We can’t keep most aposymbiotic corals alive for very long, despite the large number of flamboyantly colorful species available.
A SIMPLE PHILOSOPHY
I return to my basic philosophy: to be successful with corals, one needs to understand them, not merely follow a cookbook. There is no doubt in my mind that the recipes are going to change, in some cases dramatically, in the coming years, and I hope that readers will keep this in mind as they read this or any text on coral husbandry.
Finally, I think a proper approach to the keeping of corals calls for all of us to have or adopt ethical and responsible attitudes toward the species in our care. I’ve tried to treat corals in my aquariums as the living animals that they are, not merely as art, ornaments, or transient display items. I know that this fundamental respect for all life is shared by many, many reef aquarists. I urge anyone who is either currently keeping live corals, or who is planning to do so in the future, to take great pains to learn about the many complexities and relationships that abound on coral reefs in nature. Visiting a coral reef in person, if at all possible, is a never-to-be-forgotten experience; it provides a whole new appreciation for the physical and biological dynamics we try to replicate in the aquarium.
Editor: Jenn
Happy DIY Home Staff
September 28, 2020
19 Best Aquarium Plants
September 28, 2020 by HappyDIYHome Staff
Many people add fake plants to their aquarium, but some of the best aquarium plants are actually alive. They introduce oxygen into the water, and these water plants also come in a broad range of colors, sizes, and shapes that can add interest to your aquarium. The best aquarium plants create natural hiding spaces for your more timid fish to keep them safe. However, since there is such a huge range of plants available, finding the best ones for your wants and needs can be very overwhelming. It’s easy to pick one or two, but you want plants that work together and create a nice environment for your fish.
Submitted by BWWB on Tue, 12/22/2020 – 13:24 Re-Post from BWWB.org
Date: 12-01-2020 Category: Water Alabama has the most diverse crayfish fauna in the world, with more than 90 native species found in the state. Crayfishes, also known as crawfish or crawdaddies depending on where you were raised, play an important role in stream ecosystems by breaking down plant materials, digging burrows that are sometimes used by other stream animals, and serving as prey for numerous animals, especially some game fishes such as bass and catfish, and predators to others.
However, crayfish populations are declining worldwide, with 48% of North American crayfish species imperiled. Despite their importance, no previous study has examined the impacts of large dams on crayfishes. Dams and their impoundments change stream habitats and block movements of stream organisms, which subsequently changes the species present within the stream and isolates stream populations.
“Lake Purdy Dam is essential to supplying the people living in Birmingham with water. Nonetheless, we must understand how it is impacting stream animals so that we are able to use this valuable resource without losing the amazing stream diversity within the Cahaba River drainage,” said Dr. Zanethia Barnett, Research Fisheries Biologist at United States Department of Agriculture (USDA) Forest Service.
Dr. Barnett led a team of USDA Forest Service and University of Mississippi researchers who studied the crayfish populations, including diversity, density, and migration patterns, in the Little Cahaba River, where a dam creates Lake Purdy Dam and Shades Creek, which has no dam.
The scientists collected a greater variety and volume of crayfish upstream of Lake Purdy on the Little Cahaba River, while fewer crayfish and less diversity of species found downstream of the dam and none were found immediately below the dam. Meanwhile, crayfish density was 30% greater in downstream sections of Shades Creek than downstream of Lake Purdy Dam.
In addition, the team noted that the Little Cahaba River had more stable flow and temperature when compared to Shades Creek, which can decrease the diversity of crayfishes.
“Because the timing of extreme high and low flow events are normally seasonal, crayfishes have synchronized their life history events, such as timing of mating, with a stream’s natural flow and temperature regimes,” said Dr. Barnett. “Thus, decreasing the variability of stream flow and temperature, as well as the timing of maximum and minimum events, can impact key life history events for crayfishes. This often decreases the abundance of native crayfish species who are adapted to natural conditions, sometimes eliminating specialized species.”
Based on their research, the team discovered that Lake Purdy Dam prevented crayfish upstream of the dam from moving to stream sections downstream and vice versa, reducing gene flow, or the movement and mating of crayfishes, between upstream and downstream populations. The lack of gene flow isolates crayfish populations and increases their risk of local extinction. Conversely, crayfish moved freely throughout Shades Creek, with high gene flow between both sections.
“Conservation strategies focused on connecting crayfish populations up- and downstream of Lake Purdy – such as moving crayfish from downstream of the dam to upstream or building fish ladders – may help prevent the reduction and loss of crayfish populations,” said Dr. Barnett.
The team concluded that managing streams to mimic natural flow regimes and releasing water at similar stream temperatures may help maintain diverse stream communities. There were also more crayfish predators, such as bass, downstream than upstream of the Lake Purdy Dam, as well as more crayfish predators downstream of Lake Purdy than in Shades Creek, which was also correlated to lower crayfish abundance and diversity.
“There is still much to learn about the effects dams have on crayfishes, but it is clear that changes to stream ecosystems by dams have major consequences on crayfishes,” said Dr. Barnett. “We would like to thank Birmingham Water Works and the many landowners for allowing us to access streams through their property. This study could not have been conducted without them!”
Originally Posted by Yorkie
10-19-2020 ref. Diana Walstad
In her book, Ecology of the Planted Aquarium (Chapter 7), Diana Walstad talks about the use of aquarium plants to take up ammonium from the water. Section 4 within this chapter is entitled “Plants and Nitrifying Bacteria Compete”. The essence of this is that plants prefer to uptake ammonium instead of nitrate. So, I did a very basic experiment in order to probe deeper into this…
In an illuminated tank containing Java and Congo Fern, I was able to show that NH4 dropped from 2 mg/litre to 0.4 mg/litre over a period of just four hours! Late yesterday evening, I then added ammonium chloride to raise the NH4 to just under 3 mg/litre and left the tank overnight in darkness. At 12:40 pm today, I measured NH4 and it was still around 3 mg/litre. What could be the explanation for this? Is it because my plants only absorb NH4 in the presence of light, i.e. when the plants are photosynthesizing?
I usually don’t check other forums on APC (Aquatic Plant Central), so I would post your questions there.
Plants take up ammonia as their source of nitrogen for growth both day and night. (Nitrate is only taken up in the presence of light.)
Your plants reduced NH4 from 2 mg/l to 0.4 mg/l in 4 hours. This addition may have saturated their need for nitrogen. Then you added 3 mg/l. Was that immediately after the first reduction?
Plants take up N for growth along with some excess. But there’s a limit. There has to be some plant growth involved. Ferns aren’t fast growers. You’ll notice that most of the scientific testing is done on Elodea, duckweed, Hornwort, etc, not ferns. Usually, scientists doing these studies show that the uptake is accompanied by plant growth.
In an NPT (natural planted tank), growing plants take up ammonia as it is generated in small amounts by natural processes. This means small amounts as they grow.
High concentrations of ammonia are toxic to plants (my book, p. 20), so there’s some limit on how much they can take up and how fast.
Currently, I use plants as sole water purifiers in all of my 8 guppy tanks. No filters.
Originally Posted by dwalstad
September 2014
Your plants reduced NH4 from 2 mg/l to 0.4 mg/l in 4 hours. This addition may have saturated their need for nitrogen. Then you added 3 mg/l. Was that immediately after the first reduction?
Yorkie Re:
I am very grateful for your comprehensive reply – thank you!
With specific reference to the above – yes, the 3 mg/l total ammonia addition was immediately after the first reduction. I was guessing somewhat and, in hindsight, it was too great an increase. I measured total ammonia at 1900 this evening and it had dropped to 0.2 mg/l. Tomorrow, I’ll test total ammonia again and also include NO2 and NO3.
dwalstad Re:
Sounds like you have a scientific mind-set. Excellent.
The scientists looking for plant uptake of ammonia always check nitrates and nitrites to make sure that the N removal from the ecosystem is not due to nitrification.
Even then, it is hard to sort out. Nitrogen is recycled via many different pathways by many different organisms, bacteria species, etc. Everybody wants nitrogen!
As I load my truck with nets & buckets battery air packs in anticipation for today’s collecting (treasure hunt). Going to my favorite place a magical creek full of koi & goldfish. The creek periodically dries up so I feel a need to rescue as many as possible. My biggest so far is about 11/2 ft orange n black koi named Titan very handsome.
But Ghost has escaped my net twice. She is a beautiful white female. I’m hoping my next trip third time will be my charm. But I am content until then to relax and watch hundreds of baby frogs hop all about. The beautiful deer at the waters edge having a cool drink don’t seem to be concerned with me. I have collected such beautiful wonders of nature there; Crystals, plants, arrowheads & even the biggest mystery snail I’ve ever seen – (Mo).
The water is cool & refreshing as I wade through or in a few cases get drug down the river by ghost, almost medicinal for my body & soul.
Blessed Be fish family & I hope everyone has a magical place to go to just like Ghosts creek.
submitted by Scott Burden @Fancy Tail Aquatics
November 2020
The Start of Guppies
The Guppy takes its name from Robert John Lechmere Guppy, a conchologist, geologist and also President of the Scientific Association of Trinidad. This was around 1866 roughly. These were small fish that he had collected from streams in Trinidad.
The Guppy continued to be sent to many different Museums by various collectors and acquired no less than 11 different scientific names. These turned out to be different strains and not new species.
The scientific name of Guppies has undergone a number of revisions in the past 100+ years, finally settling on the name of Poecilia reticulata
The first recorded live Guppies to enter Europe were into Germany in December 1908. The German Hobbyists were so impressed with the reproductive rate of the Guppy that they nicknamed it the Millionenfisch (million Fish).
Around 1920 a fish club in Germany developed the first points system for judging Guppies, the maximum points available was 50, the club held the first recorded Guppy show in November 1922.
The first International Guppy show was in 1954 held in Germany
After this, I can not find much more information of the first true breeding species. I just thought you would like a small break down of the slow coming of the species.
I have only been in the hobby for about 4 years, yet many of my peers consider me an authority figure on certain subjects. I have delved deep into the world of the aquarium hobby and familiarized myself with subjects of water chemistry, advanced plant care, and, my biggest passion, the keeping and breeding of dwarf shrimp. Of particular interest to me are those of the genus Caridina.
Shrimp keeping has exploded in popularity since the late 2000’s. Dedicated breeders in Germany, Hungary, Singapore, Taiwan, Japan, China, and Thailand have stabilized and perfected beautiful and colorful strains of shrimp. What once cost 4 figures for a male/female pair can now be purchased at $5 each thanks to those pioneers of the shrimp-keeping hobby.
It seems that every freshwater aquarium owner loves these colorful, active, and easy-to-breed shrimp, and many get their toes wet (no pun intended) with the popular Neocaridina davidi strain, “Red Cherries”. Cheap, hardy, gregarious, and prolific breeders, they remain the most popular freshwater shrimp commonly kept in the hobby.
However, more advanced hobbyists know that the real hidden treasures are the Caridina shrimp, and in particular those known as “crystals” and “Taiwan bees”. I will delve into the biology and care of these beautiful animals that are becoming evermore refined into more complex and beautiful strains.
Taiwan bees, of the genus Caridina, are more finicky when it comes to their care. Unlike their Neocaridina cousins, Caridina need very soft, acidic water. What this means is, especially here in the US, most people’s water is just too hard to keep them. In my experience, they usually don’t last more than a few weeks in hard, alkaline water. I will get into the specifics of their needs shortly, but chances are if you live somewhere in the US, you have hard, alkaline water.Taiwan bees need rather specific conditions to truly thrive. For hardier breeds, such as Crystal Reds and Crystal Blacks, a pH of less than 7.0 is required, with a general hardness of between 4 and 7, and a carbonate hardness as close to 0 (zero) as you can get it. These shrimp have molting issues in hard water, and also will not breed. For more delicate strains such as Zebra Pintos, Blue Bolts, and King Kongs, a pH as low as 5 is recommended, with a general hardness of 3-5 and again, a carbonate hardness as close to 0 as possible. These shrimp tend to be more expensive, and the lower pH recommended to prevent bacterial and fungal infections. However, not everyone is keeping shrimp that can cost $50 a piece (Skyfish Boas cost an astounding $1200 each). We will focus on the easier Crystal varieties which includes Crystal Reds, Crystal Blacks, and Golden Bees.
When setting up for these shrimp, you first need to determine the parameters of your tap. Chances are you are not blessed with the magic numbers for these shrimp, so most people will have to resort to using reverse-osmosis (RO) or distilled water and add minerals to it to reach the ideal ranges. This sounds tedious but all I do is mix a small spoonful of shrimp salts into a 1 gallon jug of water once a week (it would be more or less depending on the volume of your tank). For Crystal Reds and other softwater Caridina, you need a salt that only raises the general hardness (GH) of your water, but not carbonate hardness (KH). You will also need a GH and KH test kit, as well as a TDS pen, which reads the total dissolved solids (TDS) of your water. You can get a general idea of what your GH to TDS ratio is over time; at a TDS of 90 my GH is approximately 5 degrees. These numbers depend on the brand of salt you use, and even the batch-to-batch ratios.
The next most important thing when keeping these shrimp is your substrate. In order to keep the pH acidic and the water soft, a buffering substrate is required. Commonly known as “aqua soils”, these soil/clay based substrates keep water acidic, remove carbonate hardness, and maintain a low general hardness as well. They often can leach ammonia into the water, but that can be an advantage; by leaching ammonia, you can cycle a tank with no fish, no dosing ammonia, no adding fish food, etc. Not all soils leach ammonia, but you should still properly cycle a tank before adding any living things. With all shrimp, it is also important to allow the tank to mature and become established for several weeks or even months after it cycles. This ensures enough biofilm (a layer of bacteria and other microbes that grow on surfaces in a tank) and algae has accumulated to keep them well fed.
Keep in mind the longevity of aqua soils is around 2 years (if following the steps and using RO/distilled water), so once you hit the year-and-a-half milestone of a tank, it is time to consider setting up another one to cycle and mature so you can transfer your shrimp safely. Once the buffering capacity is depleted, it no longer functions to keep your pH low, and you will see a decrease in breeding and generally less activity out of your shrimp.
For the more finicky strains, to maintain a very low pH and soft water, some breeders use akadama, which is a special potting soil used for bonsai. This substrate can pull pH down as low as 5.0, and yet Taiwan Bees thrive in these conditions. Admittedly I have yet to use this substrate, but plan to in the future when keeping the more rare, less hardy strains. Plants are an integral part of a shrimp tank. While any and all plants are beneficial, those of particular interest to shrimp keepers are floating plants and mosses. Floaters such as Amazon frogbit, dwarf water lettuce, and Salvinia natans pull nutrients from the water, keeping nitrates low, as well as forming an inverted lawn of roots for shrimp to hide and forage. Likewise, this fin fluffy texture of mosses provides surface area for shrimps to feed and for babies to hide and mature. Aqua soils, while providing the perfect conditions for shrimp, are also the best substrate for plants. Plants also prefer more acidic water, so you can expect great growth.
Lighting is generally only important for two things: plant health and growing algae. I have seen tanks where the walls look like green shag-carpet; this is perfect for shrimp and many breeders strive to provide plenty of vertical green pasture for their little “cattle” to graze. Algae of any kind is welcome in shrimp setups (unless they are primarily for display), although I have heard anecdotal tales of shrimp becoming entangled in string algae that grew too unruly…
When it comes to feeding your shrimp, it’s a varied and interesting topic. Truth be told, there isn’t much your shrimp won’t eat, or in some cases can’t eat. In the wild they live as detritivores, so feed on algae, mulm, leaf litter, and organic matter. I feed my shrimp high quality commercial shrimp foods, as well as fresh vegetables such as zucchini and romaine lettuce. They also love fruits, but feed in moderation as the high levels of sugars in fruit can fowl tank water. That being said, watermelon was a big hit with my colonies. Hardwood and non-citrus fruit tree leaves, dried and collected away from high traffic areas, are long lasting and sustainable sources of food for shrimp. I have had lots of success with oak, magnolia, persimmon, and the ever popular Indian almond leaf. They also provide beneficial tannins, keeping the pH low and preventing the growth of harmful fungus and bacteria. It is advisable to feed a source of protein once a week to help with egg production and prevent cannibalism. I usually feed frozen bloodworms which my shrimp love.
When doing maintenance on a Caridina tank, it is recommended to only do water changes when necessary. Unlike fish tanks, 50% water changes weekly can potentially kill these shrimp. They need their water conditions to remain stable, and when something changes too abruptly, such as temperature,hardness, or pH, it triggers them to molt. These premature molts can cause a lot of stress to the shrimp,and sometimes they cannot shed their outer molt at all, resulting in a failed molt; basically, the shrimp is trapped in it’s old shell like a straitjacket, and will almost invariably die as a result. While I was doing 20% water changes weekly, I now only perform 20% water changes when the TDS is around 10 ppm higher than my target range of about 90; so maybe twice a month. Throughout the week, I also top off evaporation with distilled water to ensure parameters remain stable and my shrimp are happy.
Avoid keeping most fish and crayfish with your shrimp, as well as larger freshwater crabs. Turtles, axolotls, and other aquatic reptiles and amphibians would decimate a population, so avoid at all costs (not that anyone with common sense would keep shrimp that cost $5 each with a hungry turtle). Almost everything loves the taste of shrimp, and even very small fish such as guppies or neon tetras will happily make a meal out of small shrimp. Most snails are safe with shrimp but avoid assassin snails as I have heard from multiple sources that they can potentially kill small shrimp. Larger aggressive shrimp such as whisker shrimp and freshwater prawns will kill and eat them.
Safe tank-mates include other species of dwarf shrimp (provided they can live in the same water parameters), most snails, freshwater clams, otocinclus, and small plecos.
Now the most exciting part of keeping Caridina: breeding them. If you have met their basic needs in the previous step, all it takes is time. Keep the temperature in the low 70s if possible, offer plenty of high quality food a few times a week, and keep their water clean, and within a few months of starting a tank you will see babies everywhere. Babies are miniature copies of the adults, and are a joy to watch. Keeping the shrimp in a tank by themselves ensures the most babies survive, and also ensuring that your filtration is covered if not using a sponge filter (the safest method). I use stainless steel mesh intake guards, too small for babies to fit through, on the intake of my canister filter. While these guards don’t harbor biofilm for shrimp to feed on, they don’t become clogged and are easier to clean.
The lifespan of these shrimp is between 1 and 2 years, and it is recommended to introduce new members once a year to ensure there is no genetic bottle-necking caused by inbreeding. Many keepers “cull” less desirable shrimp, but that is a term that doesn’t necessarily mean killing them. Shrimp with poor coloration or genetic defects can be kept in their own tank, where they can live out their lives content and well-fed, while the shrimp with richer colors are continually bred to strengthen their line.
Every now and again, an interesting new color morph appears. Shrimp keepers isolate these unusual genetics and breed them, hoping to work out the kinks and produce beautiful, valuable new lines. Morphs such as Dragon Blood, Boa, Nanacy Galaxy Pinto, and Mosura Blue Steel, can fetch hundreds if not thousands of dollars for viable male/female pairs! While these strains may take several generations to isolate and refine, it is well worth the work, and many breeders consider it a labor of love.
Shrimp keeping is a fascinating field of the aquarium hobby with it’s own idiosyncrasies that make it, at times, very unlike fish keeping. It is both challenging and rewarding and, if you have a good understanding of the biology and chemistry involved in keeping aquatic animals, is quite easy. With patience, attention to detail, and a strong foundational knowledge of aquaria, anyone can keep and breed these colorful crustaceans.
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This website uses cookies to improve your experience while you navigate through the website. Out of these cookies, the cookies that are categorized as necessary are stored on your browser as they are essential for the working of basic functionalities of the website. We also use third-party cookies that help us analyze and understand how you use this website. These cookies will be stored in your browser only with your consent. You also have the option to opt-out of these cookies. But opting out of some of these cookies may have an effect on your browsing experience.
Necessary cookies are absolutely essential for the website to function properly. This category only includes cookies that ensures basic functionalities and security features of the website. These cookies do not store any personal information.
Any cookies that may not be particularly necessary for the website to function and is used specifically to collect user personal data via analytics, ads, other embedded contents are termed as non-necessary cookies. It is mandatory to procure user consent prior to running these cookies on your website.
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