The Tint

Evolving techniques

It's kind of fun to make little "tweaks" or adjustments to our aquarium methodology or approaches to how we do certain things. This is what pushes the state of the art in aquaristics further down the road. Now, not every one of these adjustments is a quantum leap forward, at least, not initially. Many are simply subtle iterations of things we've played with before.

An example?

One of our fave approaches, sort of derived out of our "Urban Igapo" work, has been to "dry set" the aquarium.  A sort of technique I call the "transitional approach." 

Basically, all you're doing is adding the prepared botanicals and leaves to your aquarium before it's filled, and spraying them down with water and our sprayable Purple Non-Sulphur bacterial inoculant, "Nurture" to kick-start the biological processes. Let it sit. Spray it down daily.

Then fill it.

Unlike in our "Urban Igapo" approach, you're not trying to grow terrestrial grasses or plants during the "dry phase." You're simply creating and managing  what will ultimately be the submerged habitat in your aquarium for a while before filling it.

I've done this a number of times and had great results.

Stupidly simple. Yet, profoundly different.

Why?

Because, rather than our "traditional" approach of adding the botanicals and leaves to the aquarium after it's already filled, you're sort of replicating what happens in Nature in the wild when forest floors and other terrestrial environments are inundated by overflowing streams and rivers.

The thing I like about this approach (besides how it replicates what happens in the wild) is that it gives you the ability to really saturate and soften  the botanicals and leaves, and to begin the process of decomposition and bacterial colonization before you add the water. 

When do you fill the aquarium?

You can wait a few days, a week or two, or as long s you'd like, really. The idea is to get the materials physically placed, and to begin the process of colonization and "softening" by fungi and bacterial biofilms- known as "conditioning" by ecologists who study these habitats. 

And of course, fishes and invertebrates which live amongst and feed directly upon the fungi and decomposing leaves and botanicals will contribute to the breakdown of these materials as well! Aquatic fungi can break down the leaf matrix and make the energy available to feeding animals in these habitats. And look at this little gem I found in my research:

"There is evidence that detritivores selectively feed on conditioned leaves, i.e. those previously colonized by fungi (Suberkropp, 1992; Graca, 1993). Fungi can alter the food quality and palatability of leaf detritus, aecting shredder growth rates. Animals that feed on a diet rich in fungi have higher growth rates and fecundity than those fed on poorly colonized leaves. Some shredders prefer to feed on leaves that are colonized by fungi, whereas others consume fungal mycelium selectively..."

"Conditioned" leaves, in this context, are those which have been previously colonized by fungi! They make the energy within the leaves and botanicals more available to higher organisms like fishes and invertebrates! 

We've long maintained that the appearance of biofilms and fungi on your botanicals and wood are to be celebrated- not feared. They represent a burgeoning emergence of life -albeit in one of its lowest and most unpleasant-looking forms- and that's a really big deal. 

"Oh shit, he's going to talk about biofilms AGAIN!"

Well, just for a second.

Biofilms, as we probably all know by now, form when bacteria adhere to surfaces in some form of watery environment and begin to excrete a slimy, gluelike substance, consisting of sugars and other substances, that can stick to all kinds of materials, such as- well- in our case, botanicals. It starts with a few bacteria, taking advantage of the abundant and comfy surface area that leaves, seed pods, and even driftwood offer.

The "early adapters" put out the "welcome mat" for other bacteria by providing more diverse adhesion sites, such as a matrix of sugars that holds the biofilm together. Since some bacteria species are incapable of attaching to a surface on their own, they often anchor themselves to the matrix or directly to their friends who arrived at the party first.

It's a literal explosion of life. It's a gift from Nature. And we can all receive it and benefit from it! 

Another advantage of this approach? The traditional "cycling" time of a new tank seems to go much faster. Almost undetectable, in many of my experiments. I can only hypothesize and assume that it's likely a result of all of the bacterial growth in the "terrestrial" phase, and the concurrent  "conditioning" of the botanical materials.  

Tannin's creative Director, Johnny Ciotti, calls this period of time when the biofilms emerge, and your tank starts coming alive "The Bloom"- a most appropriate term, and one that conjures up a beautiful image of Nature unfolding in our aquariums- your miniature aquatic ecosystem blossoming before your very eyes!

The real positive takeaway here: Biofilms are really a sign that things are working right in your aquarium! A visual indicator that natural processes are at work, helping forge your tank's ecosystem.

So, what about the botanicals?

The idea of utilizing botanicals in the aquarium can be whatever you want, sure. However, if you ask me (and you likely didn't)- the idea of utilizing these materials in our tanks has always been to create unique environmental conditions and foster a biome of organisms which work together to form a closed microcosm. That is incredible to me.

And the idea of "dry setting" your botanical materials and sort of "conditioning" them before adding the water, this "transitional approach", while not exactly some "revolutionary" thing, IS an evolutionary step in the development of botanical-style aquarium keeping.

The "transitional approach" is definitely a bit different than what we've done in the past, and may create a more stable, more biologically diverse aquarium, because you're already fostering a biome of organisms which will make the transition to the  aquatic habitat and "do their thing" that much more quickly.

This IS unique.

We're talking about actually allowing some of the decomposition to start before water is ever added to our tanks. It's a functional approach, requiring understanding, research, and patience to execute. There's really nothing difficult about it.

And the aesthetics? They're going to be different than what you're used to, no doubt. They will follow as a result of the process, and will resemble, on a surprisingly realistic level, what you see in Nature.

But the primary reason is NOT for aesthetics... 

The interactions and interdependencies between terrestrial and aquatic habitats are manifold, beneficial, and quite compelling to us as hobbyists. To be able to study this dynamic first hand, and to approach it somewhat methodically, is a significant change in our technique.

And yeah, it's almost absurdly easy to do.

The hard part is that it requires a bit more patience; not everyone will see the advantages, or value, and the trade-off between waiting to fill your tank and filling it immediately. It may not be one that some are willing to make.

If you do, however, you will get to see, firsthand, the fascinating dynamic between the aquatic and the terrestrial environment in a most intimate way.

It could change your thinking about how we set up aquariums. 

It could.

At the most superficial level, it's an acknowledgement that, after many decades, we as hobbyists are acknowledging and embracing this terrestrial-aquatic dynamic. It's a really unique approach, because it definitely goes against the typical "aquatic only" approach that we are used to.

When you consider that many aquatic habitats start out as terrestrial ones, and accumulate botanical materials and provide colonization points for various life forms, and facilitate biological processes like nutrient export and production of natural food resources, the benefits are pretty obvious. Again, the "different aesthetics" simply come along as "part of the package"- both in Nature and in the aquarium.

Replicating this process and managing it in the aquarium also provides us as hobbyists highly unique insights into the function of these habitats. 

From a hobby perspective, evolving and managing a closed ecosystem is really something that we should take to easily.

Setting up an aquarium in this fashion also provides us with the opportunity to literally "operate" our botanical-style aquariums; that is, to manage their evolution over time through deliberate steps and practices is not entirely unknown to us as aquarium hobbyists.

It's not at all unlike what we do with planted aquarium or reef aquarium. In fact, the closest analog to this approach is the so-called "dry start" approach to planted aquariums, except we're trying to grow bacteria and other organisms instead of plants.

Yes, it's an evolution.

Simply, a step forward out of the artificially-induced restraints of "this is how it's always been done"- even in our own "methodology"- yet another exploration into what the natural environment is REALLY like, how it evolves, and how it works- and understanding, embracing and appreciating its aesthetics, functionality, and richness.  

Earth-shattering? Not likely.

Educational? For sure.

Thought provoking and fun? Absolutely.

A simple, yet I think profound "tweak" to our approach.

Stay curious. Stay open-minded. Stay thoughtful. Stay observant. Stay creative.

And Stay Wet.

Scott Fellman

Tannin Aquatics 

Cool Places.

As you know, we receive a lot of questions around here about all sorts of aquarium-related topics. Usually, my answer is directly to the individual who asked, in the form of an email or DM. Sometimes, however, the answer is such that it is best addressed in the form of a blog post! 

Recently, a hobbyist asked me what my opinion was of the botanical-style aquarium as a type of "aquascaping approach", and how it fits in the overall aquascaping "universe." Exactly what our "thing" is...

First, I start with my assertion that the botanical-style aquarium is NOT an aquascaping "style"- it's a methodology to create a more natural-functioning aquarium by utilizing botanical materials to "fuel" the process. The look is a "collateral benefit" of the methodology.

I admit, I've never really been much of an "aquascaper."

You know- those hobbyists who can take a few rocks and a piece or two of wood and turn them into some sort of amazing design. That takes amazing talent and vision. And I made peace with that decades ago! I greatly admire those true artists who can employ all sorts of technique, color-coordination, and ratio and such snd come up with some incredible stuff with seeming ease.

On the other hand, I look at a lot of aquascaping work, admire the effort and talent  and such, and then get this feeling in my gut that I can't always explain. Well, I can, but it's not always...nice. Like, I look at many "modern scapes" and just kind of...yawn.

Ouch, I'm sounding like a proper asshole, I know.

But seriously, it's not that I think their work is shitty or something...I just find the "styles" of many of the beautiful tanks out there which the world goes crazy over to be just a bit..boring. Or, should I say- not my taste. Yeah, that's better.

It's weird, I do like certain planted tanks that just blow me away. Our friend, George Farmer, does amazing planted 'scapes which I would happily have in my own home if I had the talent. I love the work of our own Johnny Ciotti- a guy who was trained as a classic "Nature Aquarium Style" 'scaper, yet, a true artist who can take botanical elements and create stunning botanical-style aquariums with ease. Jeff Sense of Aquarium Design Group is another person who can work with just about any "media" you give him- rocks, wood, plants- and crank out something that is unmistakingly original, dynamic, and gorgeous.

I'll never be as talented as those guys. And I'm perfectly okay with that. I'm comfortable in my own skin. And it's largely because, a long time ago, I found what I truly love, and work with that. I think we should all have that degree of comfort with what we love. Sadly, many hobbyists don't- and feel that-in order to be considered "talented" or whatever- that they have to embrace a certain style or technique.

That's absurd.

I often think about the so-called "diorama style" tanks that pop up in contests, and are all over Instagram or whatever. They require enormous talent to execute, but they're far more "art" than they are "natural aquariums", I suppose. And I guess that's what gets me- these weird fantasy scapes have live plants and glued-together rock and wood and stuff, but they are anything but "natural", IMHO.

I guess what gets me is that the aquascaping world lauds these scapes as "the shit"- and sure, they are fantastic- amazing work. When they're called "natural", that sends shivers down my spine...I mean, doesn't Nature offer scenes that are equally as complex, interesting, and challenging to pull off? And, with the added bonus that you can replicate the function of these habitats, I can't see why you don't see more representations of flooded forests, vernal pools, Pantanal meadows, etc. in the major aquascaping contests.

I imagine how amazing a tank one of those diorama-style 'scapers could pull off if he/she tried to replicate an actual aquatic habitat as found in Nature. With there talent and ability to bring a vision to life....wow! I mean, sure, such a tank won't have a beach scene, winding road into a forest, or a mountain range, or any of that other cliche stuff- but it will have all of the amazing vibrancy and intricate structure of natural aquatic habitats. The possibilities are endless.

I've postulated about why we don't see more of these things in contests..

However,  the benefits of entering tanks like this would be many, including calling attention to the wonders of the natural world, and the precious wild habitats which are often threatened by human activities.

I think that a good part of the reason is that these natural habitats aren't "tight" from a design standpoint. They don't -on the surface, at least-seem to require any "discipline" in order to replicate. You have to cede a certain amount of your work to Nature. I think that freaks out a lot of artistic aquascapers.

Nature, and Her many ecological niches and features, provides an endless array of habitats to recreate in the home aquarium. And my "POV" has always been to look at these niches, figure out how and why they formed, and why they look the way that they do. By researching the processes which helped create the habitat, I'm challenged to create an aquarium which attempts to replicate both the form and the function of it.

Some of these habitats are not what you'd expect to see in an aquairum. They look- and function- fundamentally different from what we've worked with before.

Some of the aesthetics of these wild habitats freaks people out. They look so...random...so...undisciplined, if we were to ascribe artistic terms to them. It's a world where we set up the system to allow Nature to do the "finishing" work. It require s a certain trust in natural processes, and the ability to let go. The ability to realize that what we see is a "finished product" is only the very beginning.

"The Delta at the intersection between science and art.” 

That's where I play. 

I like it here. A lot of you do, too.

This "not quite a biotope aquarium" and "not quite an artistic aquascape" thing is the perfect "sweet spot" for my interest, attention, and skills. And I think it's the place where I can be most useful to the hobby. Biotope-inspired, I suppose. A more forgiving, easygoing "style" which places function over aesthetics, yet somehow always leads to something that I find aesthetically pleasing.

It's a strange, yet wonderful place, where I've made the many "mental shifts" that allow me to enjoy the beauty and elegance of stuff like decomposing leaves, sediment, biofilms, fungal growths, random aggregations of leaves, etc. A place where much of the attraction is because the aquariums I create are intended to let Nature do some of the work. 

If I were forced (and yeah, "forced" is the right word, because there are no defining "rules" here...no way) to offer some defining characteristics of the  "botanical-style" aquarium, I'd say that a certain "randomness", actually, is it.

I mean, we're all about replicating what happens in Nature, NOT about perfectly proportioned placements and such. Now, I must admit, some of the world-class aquascapers that have worked with our botanicals have applied these concepts to these types of aquariums and have produced stunning results.

However, I think the "raw" botanical aquarium "essence" is about a certain degree of randomness.

What our fishes eat...The wonder of food webs.

Yes, I admit that we talk about some rather obscure topics around here. Yet, many of these topics are actually pretty well known, and even well-understood by science. We just haven't consciously applied them to our aquarium work...yet.

One of the topics that we talk about a lot are food webs. To me, these are fascinating, fundamental constructs which can truly have important influence on our aquariums.

So, what exactly is a food web?

A food web is defined by aquatic ecologists as a series of "trophic connections" (ie; feeding and nutritional resources in a given habitat) among various species in an aquatic community. 

All food chains and webs have at least two or three of these trophic levels. Generally, there are a maximum of four trophic levels. Many consumers feed at more than one trophic level.

So, a trophic level in our case would go something like this: Leaf litter, bacteria/fungal growth, crustaceans...

In the wild aquatic habitats we love so much, food webs are vital to the organisms which live in them. They are an absolute model for ecological interdependencies and processes which encompass the relationship between the terrestrial and aquatic environments.

In many of the blackwater aquatic habitats that we're so obsessed with around here, like the Rio Negro, for example, studies by ecologists have determined that the main sources of autotrophic sources are the igapo, along with aquatic vegetation and various types of algae. (For reference, autotrophs are defined as organisms that produce complex organic compounds using carbon from simple substances, such as CO2, and using energy from light (photosynthesis) or inorganic chemical reactions.)

Hmm. examples would be phytoplankton!

Now, I was under the impression that phytoplankton was rather scarce in blackwater habitats. However, this indicates to scientists is that phytoplankton in blackwater trophic food webs might be more important than originally thought! 

Now, lets get back to algae and macrophytes for a minute. Most of these life forms enter into food webs in the region in the form of...wait for it...detritus! Yup, both fine and course particular organic matter are a main source of these materials. I suppose this explains why heavy accumulations of detritus and algal growth in aquaria go hand in hand, right? Detritus is "fuel" for life forms of many kinds.

In Amazonian blackwater rivers, studies have determined that the aquatic insect abundance is rather low, with most species concentrated in leaf litter and wood debris, which are important habitats.  Yet, here's how a food web looks in some blackwater habitats : Studies of blackwater fish assemblages indicated that many fishes feed primarily on burrowing midge larvae (chironomids, aka "Bloodworms" ) which feed mainly with organic matter derived from terrestrial plants!

And of course, allochtonous inputs (food items from outside of the ecosystem), like fruits, seeds, insects, and plant parts, are important food sources to many fishes.  Many midwater characins consume fruits and seeds of terrestrial plants, as well as terrestrial insects.

Insects in general are really important to fishes in blackwater ecosystems. In fact, it's been concluded that the the first link in the food web during the flooding of forests is terrestrial arthropods, which provide a highly important primary food for many fishes.

These systems are so intimately tied to the surrounding terrestrial environment. Even the permanent rivers have a strong, very predictable "seasonality", which  provides fruits, seeds, and other terrestrial-originated food resources for the fishes which reside in them. It's long been known by ecologists that rivers with predictable annual floods have a higher richness of fish species tied to this elevated rate of food produced by the surrounding forests.

 

 

And of course, fungal growths and bacterial biofilms are also extremely valuable as food sources for life forms at many levels, including fishes. The growth of these organisms is powered by...decomposing leaf litter! 

Sounds familiar, huh?

So, how does a leaf break down? It's a multi-stage process which helps liberate its constituent compounds for use in the overall ecosystem. And one that is vital to the construction of a food web.

The first step in the process is known as leaching, in which nutrients and organic compounds, such as sugars, potassium, and amino acids dissolve into the water and move into the soil.The next phase is a form of fragmentation, in which various organisms, from termites (in the terrestrial forests) to aquatic insects and shrimps (in the flooded forests) physically break down the leaves into smaller pieces. 

As the leaves become more fragmented, they provide more and more surfaces for bacteria and fungi to attach and grow upon, and more feeding opportunities for fishes!

Okay, okay, this is all very cool and hopefully, a bit interesting- but what are the implications for our aquariums? How can we apply lessons from wild aquatic habitats vis a vis food production to our tanks? 

This is one of the most interesting aspects of a botanical-style aquarium: We have the opportunity to create an aquatic microcosm which provides not only unique aesthetics- it provides nutrient processing, and to some degree, a self-generating population of creatures with nutritional value for our fishes, on a more-or-less continuous basis.

Incorporating botanical materials in our aquariums for the purpose of creating the foundation for biological activity is the starting point. Leaves, seed pods, twigs and the like are not only "attachment points" for bacterial biofilms and fungal growths to colonize, they are physical location for the sequestration of the resulting detritus, which serves as a food source for many organisms, including our fishes.

Think about it this way: Every botanical, every leaf, every piece of wood, every substrate material that we utilize in our aquariums is a potential component of food production!

The initial setup of your botanical-style aquarium will rather easily accomplish the task of facilitating the growth of said biofilms and fungal growths. There isn't all that much we have to do as aquarists to facilitate this but to simply add these materials to our tanks, and allow the appearance of these organisms to happen. 

 

You could add pure cultures of organisms such as Paramecium, Daphnia, species of copepods (like Cyclops), etc. to help "jump start" the process, and to add that "next trophic level" to your burgeoning food web. 

In a perfect world, you'd allow the tank to "run in" for a few weeks, or even months if you could handle it, before adding your fishes- to really let these organisms establish themselves. And regardless of how you allow the "biome" of your tank to establish itself, don't go crazy "editing" the process by fanatically removing every trace of detritus or fragmented botanicals.

When you do that, you're removing vital "links" in the food chain, which also provide the basis for the microbiome of our aquariums, along with important nutrient processing.

So, to facilitate these aquarium food webs, we need to avoid going crazy with the siphon hose! Simple as that, really!

Yeah, the idea of embracing the production of natural food sources in our aquariums is elegant, remarkable, and really not all that surprising. They will virtually spontaneously arise in botanical-style aquariums almost as a matter of course, with us not having to do too much to facilitate it.

It's something that we as a hobby haven't really put a lot of energy in to over the years. I mean, we have spectacular prepared foods, and our understanding of our fishes' nutritional needs is better than ever.

Yet, there is something tantalizing to me about the idea of our fishes being able to supplement what we feed. In particular, fry of fishes being able to sustain themselves or supplement their diets with what is produced inside the habitat we've created in our tanks!

 

A true gift from Nature. 

I think that we as botanical-style aquarium enthusiasts really have to get it into our heads that we are creating more than just an aesthetic display. We need to focus on the fact that we are creating functional microcosms for our fishes, complete with physical, environmental, and nutritional aspects.

Food production- supplementary or otherwise- is something that not only is possible in our tanks; it's inevitable.

I firmly believe that the idea of embracing the construction (or nurturing) of a "food web" within our aquariums goes hand-in-hand with the concept of the botanical-style aquarium. With the abundance of leaves and other botanical materials to "fuel" the fungal and microbial growth readily available, and the attentive husbandry and intellectual curiosity of the typical "tinter", the practical execution of such a concept is not too difficult to create.

We are truly positioned well to explore and further develop the concept of a "food web" in our own systems, and the potential benefits are enticing! 

Work the web- in your own aquarium!

Stay curious. Stay observant. Stay creative. Stay diligent. Stay open-minded...

And Stay Wet.

Scott Fellman

Tannin Aquatics 

Transitional Habitats...A new aquarium hobby frontier?

We've spent a lot of time over the least several years talking about the idea of recreating specialized aquatic systems. We've talked a lot about transitional habitats- ecosystems which alternate between terrestrial and aquatic at various times of the year.  These are compelling ecosystems which push the very limits of conventional aquarium practice. 

As you know, we take a "function first" approach, in which the aesthetics become a "collateral benefit" of the function. Perhaps the best way to replicate these natural aquatic systems inner aquariums is to replicate the factors which facilitate their function. So, for example, let's look at our fave habitats, the flooded forests of Amazonia or the grasslands of The Pantanal.

To create a system that truly embraces this idea in both form and function, you'd start the system as a terrestrial habitat. In other words, rather than setting up an "aquarium" habitat right from the start, you'd be setting up what amounts to a terrarium. Soil/sand, terrestrial plants and grasses, leaves, seed pods, and "fallen trees/branches" on the "forest floor."

You'd run this system as a terrestrial display for some extended period of time- perhaps several weeks or even months, if you can handle it- and then you'd "flood" the terrestrial habitat, turning it into an aquatic one. Now, I'm not talking about one of our "Urban Igapo" nano-sized tanks here- I"m talking about a full-sized aquarium this time.  

This is different in both scale and dynamic. After the "inundation", it's likely that many of the plants and grasses will either go dormant or simply die, adding other nutrient load in the aquarium.

A microbiome of organisms which can live in the aquatic environment needs to arise to process the high level of nutrients in the aquarium. Some terrestrial organisms (perhaps you were keeping frogs?) need to be removed and re-housed.

The very process of creating and populating the system during this transitional phase from terrestrial to aquatic is a complex, fascinating, and not entirely well-understood one, at least in the aquarium hobby. In fact, it's essentially a virtually unknown one. We simply haven't created all that many systems which evolve from terrestrial to aquatic.

Sure, we've created terrariums, paludariums, etc. We've seen plenty of "seasonally flooded forest" aquairums in biotope aquarium contests...But this is different. Rather than capturing a "moment in time", recreating the aquatic environment after the inundation, we're talking about recreating the process of transformation from one habitat to another.

Literally, creating the aquatic environment from a terrestrial one.

Psychologically, it would be sort of  challenging!

I mean, in this instance, you've been essentially running a "garden" for several months, enjoying it and meeting the challenges which arise, only to embark several months later on a process which essentially destroys what you've created, forcing you to start anew with an entirely different environment, and contend with all of its associated challenges (the nitrogen cycle, nutrient control, etc.)

Modeling the process. 

Personally, I find this type of approach irresistible. Not only do you get to enjoy all sorts of different aspects of Nature- you get to learn some new stuff, acquire new skills, and make observations on processes that, although common in Nature, were previously unrecorded in the aquarium hobby. 

You'll draw on all of your aquarium-related skills to manage this transformation. You'll deal with a  completely different aesthetic- I mean, flooding an established, planted terrestrial habitat filled with soils and plants will create a turbid, no doubt chaotic-looking aquascape, at least initially. 

This is absolutely analogous to what we see in Nature, by the way.Seasonal transformations are hardly neat and tidy affairs. 

Yes, we place function over form. However, that doesn't mean that you can't make it pretty! One key to making this interesting from an aesthetic perspective is to create a hardscape of wood, rocks, seed pods, etc. during the terrestrial phase that will please you when it’s submerged.

You'll need to observe very carefully. You'll need to be tolerant of stuff like turbidity, biofilms, algae, decomposition- many of the "skills"we've developed as botanical-style aquarists.You need to accept that what you're seeing in front of you today will not be the way it will look in 4 months, or even 4 weeks.

You'll need incredible patience, along with flexibility and an "even keel.”

We have a lot of the "chops" we'll need for this approach already! They simply need to be applied and coupled with an eagerness to try something new, and to help pioneer and create the “methodology”, and with the understanding that things may not always go exactly like we expect they should.

For me, this would likely be a "one way trip", going from terrestrial to aquatic. Of course, much like we've done with our "Urban Igapo" approach, this could be a terrestrial==>aquatic==>terrestrial "round trip" if you want! That's the beauty of this. You could do a complete 365 day dynamic, matching the actual wet season/dry season cycles of the habitat you're modeling.

Absolutely. 

The beauty is that, even within our approach to "transformational biotope-inspired" functional ecosystems, you CAN take some "artistic liberties" and do YOU. I mean, at the end of the day, it's a hobby, not a PhD thesis project, right?

Yeah. Plenty of room for creativity, even when pushing the state of the art of the hobby! Plenty of ways to interpret what we see in these unique ecosystems.

Habitats which transition from terrestrial to aquatic require us to consider the entire relationship between land and water- something that we have paid scant little attention to in the aquarium hobby, IMHO. 

And this is unfortunate, because the relationships and interdependencies between aquatic habitats and their terrestrial surroundings are fundamental to our understanding of how they evolve and function.

There are so many other ecosystems which can be modeled with this approach! Floodplain lakes, streams, swamps, mud holes...I could go on and on and on. The inspiration for progressive aquariums is only limited to the many hundreds of thousands of examples which Nature Herself has created all over the planet.

We should look at nature for all of the little details it offers. We should question why things look the way they do, and postulate on what processes led to a habitat looking and functioning the way it does- and why/how fishes came to inhabit it and thrive within it.

With more and more attention being paid the overall environments from which our fishes come-not just the water, but the surrounding areas of the habitat, we as hobbyists will be able to call even more attention to the need to learn about and protect them when we create aquariums based on more specific habitats.

The old adage about "we protect what we love" is definitely true here!

And the transitional aquatic habitats are a terrific "entry point"into this exciting new area of aquarium hobby work.

Stay inspired. Stay creative. Stay observant. Stay resourceful. Stay diligent...

And Stay Wet.

Scott Fellman

Tannin Aquatics 

Someplace like...home?

Like so many of you, I am utterly awed by the sheer variety of tropical fish species that we've managed to breed in our aquariums over the decades. This is a testimony to the skill set and dedication of talented hobbyists and commercial breeders worldwide. And with obvious implications for some wild populations of fishes whose habitats arena danger, the idea of breeding fishes is a timely one.

Of course, there are absolutely benefits to a well-managed wild fishery, too, including protection of resources, economic benefits to indigenous peoples, and the preservation of wild populations. Programs like Project Piaba in Brazil have shown the tangible benefits to the people, environment, and the fishes that may be had with a properly-managed program of sourcing wild-caught fishes.

And, when it comes to the way we keep our fishes in the hobby on an everyday basis, I find a very interesting dichotomy here...

Have you ever thought about the way we've "domesticated" the fishes that we keep in our aquariums? I mean, the way we have sort of categorically "made" fishes more accommodating of the environmental conditions that we would like to provide them with in our aquariums? For example,  we've proudly advertised that fishes like Discus don't require soft, acidic water to thrive and reproduce. In fact, a number of breeders spawn and rear them in harder, more alkaline conditions.

This is interesting and makes me think about this from multiple angles...good and bad.

As you know, I tend to spend a fair amount of time snooping around the scientific literature online, looking for tidbits of information that might fit nicely into our fascination and evolving technique with natural blackwater and brackish- aquariums.

It's a pretty fun, albeit geeky- pastime, really- and quite educational, too!

And one of the interesting things about sifting through much of the scientific stuff is that you can occasionally find bits and pieces of information which may not only confirm a "hunch" that you have had about something- these data can sometimes send you into an entirely new direction! (I know that it can, lol!)

As a lover of brackish-water habitats, I've spent a lot time over the years researching suitable fishes and other aquatic organisms from this environment for aquarium keeping. I've made a lot of interesting discoveries about brackish water habitats and the fishes which supposedly occur in them. 

Notice I use the term "supposedly..?"

Interestingly, many of the fishes that we in the hobby have assigned the "brackish" moniker to are actually seldom found in these types of habitats. Perhaps some small populations of some of these fishes might be from mildly brackish environments, but many of them are primarily found in pure freshwater.

Perhaps through a combination of misinformation, assumption, and successful practice by a few hobbyists over the years, we've sort of attached the "brackish water fish" narrative to them in general.

Now, sure, many fishes can adapt to brackish water conditions, but I'm more fascinated by the fishes which are actually found naturally in these environments. And it's always interesting when you can find out that a fish which you have previously dismissed as not having typically come from this environment actually does come from it naturally!

It's like a little discovery!

One of those happy "surprises" is our good friend, the "Endler's Livebearer", Poceilia wingei. Many of you love this fish and keep it extensively. 

This popular fish is widely kept under "typical livebearer conditions" in the aquarium ( higher pH and harder water).

However, there are a number of wild populations form their native Venezuela which inhabit mildly brackish water coastal lagoons and estuaries, for example, Laguna de los Patos, near Cumana, which has definite ocean influence, although it is far less salty than researchers thought it may have been in the past. And the wild populations residing there might very well be considered "endangered", or at least, limited.

Now, this kind of stuff is not "revolutionary" from a hobby standpoint, as it seems like we've known this for some time. And although the fish are very adaptable, we don't hear all that much about keeping them in what we'd call "brackish" conditions (like typically SG of 1.003-1.005, although I like to push it a bit higher, lol). It's just interesting to ponder and kind of get your head around.

And with all of the popularity of this fish, it seems to me like the brackish water habitat for this species has not been embraced much from a hobby standpoint.

And I suppose it makes sense- it's far easier to simply give fishes harder, alkaline water than to "mess with adding salt" to their tanks for a lot of hobbyists. In addition, wild populations of these fishes are scant, as is natural habitat data, so indeed confirming with any great certainty that they are even still occurring in these types of habitats is sketchy.

And often, so-called 'populations" of fishes in these specialized habitats might have been distributed as a result of actions by man, and are not even naturally occurring there- further confounding things!

In general, the question about adding salt to livebearer tanks has been debated for a long time, and there are many views on the subject. Obviously, the ultimate way to determine if you should or should not add salt to an Endler's or other livebearer tank would be to consider the natural habitats of the population you're working with.

Easier said than done, because  the vast majority of them are now commercially or hobbyist bred for generations- especially Endler's- and wild collection data is not always easy to obtain.

I think the debate will go on for a long time!

Yet, with the increasing popularity of brackish water aquariums, we're hoping to see more experiments along this line for many different species! I was recently very happy to secure some specimens of the miserably-named "Swamp Guppy", Micropoceilia picta, a fish which absolutely does come from brackish water. And I have no intention of ever "adapting" them to environmental conditions which are more "convenient" for us hobbyists!

Now, you know I've always been a fan of sort of "re-adapting" or "re-patriating" even captive-bred specimens of all sorts of fishes (like "blackwater-origin" characins, cichlids, etc.) to more "natural" conditions (well, "natural" from perhaps a few dozen generations back, anyhow). I am of the opinion that even "domesticated" fishes can benefit from providing them with conditions more reminiscent of those from the natural habitats from which they originated.

Although I am not a geneticist or biological ethicist, I never will buy into the thought that a few dozen captive generations will "erase" millions of years of evolutionary adaptation to specific habitats, and that re-adapting them to these conditions is somehow "detrimental" to them. Something just seems "off" to me about that thinking.

I just can't get behind that.

Now, even more compelling "proof" of that it's not so "cut-and-dry" is that many of the recommended "best practices" of breeding many so-called "adaptable" species are to do things like drop water temperatures, adjust lighting, or perform water exchanges with peat-influenced water, etc....stuff intended to mimic the conditions found in the natural habitats of the fishes...

I mean...WTF? Right? 

Like, only give the fishes their "natural" conditions when we want to breed them? Really? That mindset just seems a bit odd to me...

Of course, there are some fishes for which we don't really make any arguments against providing them with natural-type environmental conditions, such as African rift lake Cichlids.

I find this absolutely fascinating, from a "hobby-philosopher" standpoint!

And then, there are those fishes which we have, for various reasons (to minimize or prevent the occurrence of diseases) arbitrarily decided to manipulate their environment deliberately away from the natural characteristics under which they evolved for specific reasons. For example, adding salt to the water for fishes that are typically not known to come from brackish habitats.

Examples are annual Killifishes, such as Nothobranchius, which in many cases don't come from brackish environments naturally, yet we dutifully add salt to their water as standard practice. The adaptation to a "teaspoon of salt per gallon" or so environment is done for prophylactic reasons, rather than what's "convenient" for us- a rather unique case, indeed...and again, something that I find fascinating to look at objectively.

Is salt simply the easiest way to prevent parasitic diseases in these fishes, or are there other ways which don't require such dramatic environmental manipulations?

And then, of course, there are those unexpected populations of fishes, like various Danios and Gold Tetras, for example, which are found in mildly brackish conditions...Compelling, interesting...yet we can't conclude that all Gold Tetras will benefit from salt in their water, can we?

And, as we evolved to a more sustainable hobby, with greater emphasis on captive -bred or carefully-sourced wild fishes, and as more wild habitats are damaged or lost, will we also lose valuable data about the wild habitats of the fishes we love so much?  

Data which will simply make the "default" for many fishes to be "tap water?"

I hope not.

Is it possible, though, that we've been so good at "domesticating" our fishes to our easier-to-provide tap water conditions- and our fishes so adaptable to them- that the desire to "repatriate" them to the conditions under which they've evolved is really more of a "niche" thing for geeky hobbyists, as opposed to a "necessary for success" thing?

I mean, how many Discus are now kept and bred exclusively in hard, alkaline water- markedly different than the soft, acid blackwater environmental conditions under which they've evolved for eons? Am I just being a dreamer here, postulating without hard data that somehow the fishes are "missing something" when we keep and breed them in conditions vastly different than what the wild populations come from?

Do the same genetics which dictate the color patterns and fin morphology also somehow "cancel out" the fish's "programming" which allows them to be healthiest in their original native conditions?

How do we reconcile this concept?

In the end, there are a lot of variables in the equation, but I think that the Endler's discussion is just one visible example of fishes which could perhaps benefit from experimenting with "throwback" conditions. I'm by no means anything close to an expert on these fish, and my opinions are just that- opinions. Commercially, it may not be practical to do this, but for the hobbyist with time, resources, and  inclination, it would be interesting to see where it takes you.  

Like, would the same strain kept in both brackish and pure freshwater habitats display different traits or health characteristics?

Would there even be any marked differences between specimens of certain fishes kept under "natural" versus "domesticated" conditions? Would they show up immediately, or would it become evident only after several generations? And again, I think about brackish-water fishes and the difficulty of tracing your specimens to their natural source, which makes this all that much more challenging!

I look forward to many more such experiments- bringing natural conditions to "domesticated" fishes, and perhaps unlocking some more secrets...or perhaps simply acknowledging what we all know:

That there truly is "no place like home!"

Stay observant. Stay curious. Stay adventurous. Stay resourceful. Stay experimental. Stay relentless...

And Stay Wet.

Scott Fellman

Tannin Aquatics 

It's about the microbiome...

As we've all started to figure out by now, our botanical-influenced aquariums are a lot more of a little slice of Nature that you're recreating in your home then they are just a "pet-holding container."

The botanical-style aquarium is a microcosm which depends upon botanical materials to impact the environment.

This microcosm consists of a myriad of life format all levels and all sizes, ranging from our fishes, to small crustaceans, worms, and countless microorganisms. These little guys, the bacteria and Paramecium and the like, comprise what is known as the "microbiome" of our aquariums.

A "microbiome", by definition, is defined as "...a community of microorganisms (such as bacteria, fungi, and viruses) that inhabit a particular environment." (according to Merriam-Webster)

Now, sure, every aquarium has a microbiome to a certain extent:

We have the beneficial bacteria which facilitate the nitrogen cycle, and play an indespensible role in the function of our little worlds. The botanical-style aquarium is no different; in fact, this is where I start wondering...It's the place where my basic high school and college elective-course biology falls away, and you get into more complex aspects of aquatic ecology in aquariums.

Yet, it's important to at least understand this concept as it can relate to aquariums. It's worth doing a bit of research and pondering. It'll educate you, challenge you, and make you a better overall aquarist. In this little blog, we can't possibly cover every aspect of this- but we can touch on a few broad points that are really fascinating and impactful.

So much of this proces-and our understanding starts with...botanicals. 

With botanicals breaking down in the aquarium as a result of the growth of fungi and microorganisms, I can't help but wonder if they perform, to some extent, a role in the management-or enhancement-of the nitrogen cycle.

Yeah, you understand the nitrogen cycle, right?

How do botanicals impact this process? Or, more specifically, the microorganisms that they serve?

In other words, does having a bunch of leaves and other botanical materials in the aquarium foster a larger population of these valuable organisms, capable of processing organics- thus creating a more stable, robust biological filtration capacity in the aquarium? 

I believe that they do.

With a matrix of materials present, do the bacteria (and their biofilms- as we've discussed a number of times here) have not only a "substrate" upon which to attach and colonize, but an "on board" food source which they can utilize as needed?

Facultative bacteria, adaptable organisms which can use either dissolved oxygen or oxygen obtained from food materials such as sulfate or nitrate ions, would also be capable of switching to fermentationor anaerobic respiration if oxygen is absent.

Hmm...fermentation.

Well, that's likely another topic for another time. Let's focus on some of the other more "practical" aspects of this "biome" thing.

Like...food production for our fishes.

In the case of our fave aquatic habitats, like streams, ponds, and inundated forests, epiphytes, like biofilms and fungal mats are abundant, and many fishes will spend large amounts of time foraging the "biocover" on tree trunks, branches, leaves, and other botanical materials.

The biocover consists of stuff like algae, biofilms, and fungi. It provides sustenance for a large number of fishes all types.

And of course, what happens in Nature also happens the aquarium- if we allow it to, right? And it can function in much the same way?

Yeah.

I am of the opinion that a botanical-style aquarium, complete with its decomposing leaves and seed pods, can serve as a sort of "buffet" for many fishes- even those who's primary food sources are known to be things like insects and worms and such. Detritus and the microorganisms within it can provide an excellent supplemental food source for our fishes!

Sustenence...from the microbiome.

It's well known that in many habitats, like inundated forests, etc., fishes will adjust their feeding strategies to utilize the available food sources at different times of the year, such as the "dry season", etc.

And it's also known that many fish fry feed actively on bacteria and fungi in these habitats...So I suggest once again that a botanical-style aquarium could be an excellent sort of "nursery" for many fish and shrimp species! 

Again, it's that idea about the "functional aesthetics" of the, botanical-style aquariums. The idea which acknowledges the fact that the botanicals we use not only look cool, but they provide an important function (supplemental food production) as well. As we repeat constantly, the "look" is a collateral benefit of the function.

This is a profoundly important idea.

Perhaps arcane to some- but certainly not insignificant.

And of course, we've talked before about this "botanical nursery" concept- creating an aquarium for fish fry that has a large quantity of decomposing botanicals and leaves to foster the production of these materials, which serve as supplemental food for your fish fry. I have done this before myself and can attest to its viability. You fishes will have a constant supply of "natural" foods to supplement what you are feeding them in the early phases of their life.

Learn to make peace with your detritus! As always, look to the wild aquatic habitats of the world for an example of how this food source functions within the greater biome.

I'm fascinated by the "mental adjustments" that we need to make to accept the aesthetic and the processes of natural decay, fungal growth, the appearance of biofilms, and how these affect what's occurring in the aquarium. It's all a complex synergy of life and aesthetic.

And,  in order to make the mental shifts which make this all work, we we have to accept Nature's input here.

Understand that, when we create a botanical-filled aquarium, not only do we have the opportunity to create an aquarium which differs significantly from those in years past- we have a unique window into the natural world and the role of these materials in the wild.

One thing that's very unique about the botanical-style approach is that we tend to accept the idea of decomposing materials accumulating in our systems. We understand that they act, to a certain extent, as "fuel" for the micro and macrofauna which reside in the aquarium, and that they perform this function as long as they are present in the system.

A profound mental shift...

And it's all about the microbiome. today's simple idea with enormous impact!

Stay curious. Stay thoughtful. Stay observant. Stay diligent...

And Stay Wet.

Scott Fellman

Tannin Aquatics

The Bloom.

It's not magic...It's Nature.

As anyone who ventures down our tinted road knows, one of the great "inevitable" of utilizing botanicals in our aquariums is the appearance of biofilms. You know, those scuzzy, nasty-looking threads of goo, which make their appearance in our tanks shortly after immersion of the botanicals (much to the chagrin of many).

Biofilm.

Even the word conjures up an image of something that you really don't want in your tank. Something dirty, yucky...potentially detrimental to your aquarium's health. 

It's not.

However, let's be honest with ourselves here. The damn dictionary definition is not gonna win over many "haters":

We've long maintained that the appearance of biofilms and fungi on your botanicals and wood are to be celebrated- not feared. They represent a burgeoning emergence of life -albeit in one of its lowest and most unpleasant-looking forms- and that's a really big deal. 

Biofilms form when bacteria adhere to surfaces in some form of watery environment and begin to excrete a slimy, gluelike substance, consisting of sugars and other substances, that can stick to all kinds of materials, such as- well- in our case, botanicals. It starts with a few bacteria, taking advantage of the abundant and comfy surface area that leaves, seed pods, and even driftwood offer.

The "early adapters" put out the "welcome mat" for other bacteria by providing more diverse adhesion sites, such as a matrix of sugars that holds the biofilm together. Since some bacteria species are incapable of attaching to a surface on their own, they often anchor themselves to the matrix or directly to their friends who arrived at the party first.

Tannin's creative Director, Johnny Ciotti, calls this period of time when the biofilms emerge, and your tank starts coming alive "The Bloom"- a most appropriate term, and one that conjures up a beautiful image of Nature unfolding in our aquariums- your miniature aquatic ecosystem blossoming before your very eyes!

The real positive takeaway here: Biofilms are really a sign that things are working right in your aquarium! A visual indicator that natural processes are at work, helping forge your tank's ecosystem.

I recently had a discussion with our friend, Alex Franqui (the guy who designs our cool enamel pins). His beautiful Igarape-themed aquairum pictured above, is starting to "bloom", with the biofilms and sediments working together to create a stunning, very natural look. Alex is a hardcore aquascaper, and to see him marveling and rejoicing in the "bloom" of biofilms in his tank is remarkable.

He gets it.

And it turns out that our love of biofilms is truly shared by some people who really appreciate them as food...Shrimp hobbyists! Yup, these people (you know who you are!) go out of their way to cultivate and embrace biofilms and fungi as a food source for their shrimp. 

They get it.

And this makes perfect sense, because they are abundant in Nature, particularly in habitats where shrimp naturally occur, which are typically filled with botanical materials, fallen tree trunks, and decomposing leaves...a perfect haunt for biofilm and fungal growth! 

Nature celebrates "The Bloom", too.

There is something truly remarkable about natural processes playing out in our own aquariums, as they have done for eons in the wild.

Remember, it's all part of the game with a botanical-influenced aquarium. Understanding, accepting, and celebrating "The Bloom" is all part of that "mental shift" towards accepting and appreciating a more truly natural-looking, natural-functioning aquarium. The "price of admission", if you will- along with the tinted water, decomposing leaves, etc., the metaphorical "dues" you pay, which ultimately go hand-in-hand with the envious "ohhs and ahhs" of other hobbyists who admire your completed aquarium when they see it for the first time.

.

The reality to us as "armchair biologists" is that the presence of these organisms in our aquariums is beautiful to us for so many reasons. It's not only a sign that our closed microcosms are functioning well, but that they are, in their own way, providing for the well- being of the inhabitants! 

An abundance, created by "The Bloom."

The "mental stretches" that we ask you to make to accept these organisms and their appearance really require us to look at the wild habitats from which our fishes come, and reconcile that with our century-old aquarium hobby idealization of what Nature (and therefore our "natural" aquariums) actually look like.

Sure, it's not an easy stretch for most. 

It's likely not everyone's idea of "attractive", and you'd no doubt freak out snobby contest judges with a tank full of biofilms and fungi, but to most of us, we should take great delight in knowing that we are providing our fishes with an extremely natural component of their ecosystem, the benefits of which have never really been studied in the aquarium in depth.

Why? Well, because we've been too busy looking for ways to remove the stuff instead of watching our fishes feed on it, and our aquatic environments benefit from its appearance!

We've had it all wrong, IMHO. 

It's okay, we're starting to come around...

Welcome to Planet Earth.

Yet, there are always those doubts...and some are not willing to sit by and watch the "slime" take over...despite the fact that we know it's okay...

Celebrate "The Bloom."

Blurring the lines between Nature and the aquarium, from an aesthetic sense, at the very least- and in many respects, from a "functional" sense as well, proves just how far hobbyists have come...how good you are at what you do. And... how much more you can do when you turn to nature as an inspiration, and embrace it for what it is.

The same processes which occur on a grander scale in Nature also occur on a "micro-scale" in our aquariums. And we can understand and embrace these processes- rather than resist or even "revile" them- as an essential part of the aquatic environment.

Enjoy. Observe...Rejoice. 

Celebrate "The Bloom."

Meet Nature where it is.

Stay excited. Stay bold. Stay inspired. Stay humble. Stay fascinated.

And Stay Wet.

Scott Fellman

Tannin Aquatics

Natural processes and the mental shifts we need to make...

We so often discuss natural processes and features in our aquarium work.

There are a lot of interesting pieces of information that we can interpret from Nature when planning, creating, and operating our aquariums. The idea of replicating natural processes and occurrences in the confines of our aquariums, by simply setting up the conditions necessary for them to occur is fundamental to our botanical-oriented approach.

It goes without saying that there are implications for both the biology and chemistry of the aquatic habitats when leaves and other botanical materials enter them. Many of these are things that we as hobbyists observe every day in our aquariums!

Example?

Well, let's talk about our old friend and sometimes nemesis, biofilm.

A lab study I came upon found out that, when leaves are saturated in water, biofilm is at its peak when other nutrients (i.e.; nitrate, phosphate, etc.) tested at their lowest limits. Hmm...This is interesting to me, because it seems that, in our botanical-style aquariums, biofilms tend to occur early on, when one would assume that these compounds are at their highest concentrations, right? And biofilms are essentially the byproduct of bacterial colonization, meaning that there must be a lot of "food" for the bacteria at some point if there is a lot of biofilm, right?

More questions...

Does this imply that the biofilms arrive on the scene and peak out really quickly; an indication that there is actually less nutrient in the water? Is the nutrient bound up in the biofilms? And when our fishes and other animals consume them, does this provide a significant source of sustenance for them? Can you have water with exceedingly low nutrient levels, while still having an abundant growth of biofilms?

Hmm...?

Oh, and here is another interesting observation:

When leaves fall into streams, field studies have shown that their nitrogen content typically will increase. Why is this important? Scientists see this as evidence of microbial colonization, which is correlated by a measured increase in oxygen consumption. This is interesting to me, because the rare "disasters" that we see in our tanks (when we do see them, of course, which fortunately isn't very often at all)- are usually caused by the hobbyist adding a really large quantity of leaves at once, resulting in the fishes gasping at the surface- a sign of...oxygen depletion?

Makes sense, right? 

These are interesting clues about the process of decomposition of leaves when they enter into our aquatic ecosystems. They have implications for our use of botanicals and the way we manage our aquariums. I think that the simple fact that pH and oxygen tend to go down quickly when leaves are initially submerged in pure water during lab tests gives us an idea as to what to expect.

A lot of the initial environmental changes will happen rather rapidly, and then stabilize over time. Which of course, leads me to conclude that the development of sufficient populations of organisms to process the incoming botanical load is a critical part of the establishment of our botanical-style aquariums.

Fungal populations are equally important in the process of breaking down leaves and botanical materials in water as are higher organisms, like insects and crustaceans, which function as "shredders." So the “shredders” – the animals which feed upon the materials that fall into the streams, process this stuff into what scientists call “fine particulate organic matter.”

And that's where fungi and other microorganisms  make use of the leaves and materials, processing them into fine sediments. Allochthonous material can also include dissolved organic matter (DOM) carried into streams and re-distributed by water movement.

And the process happens surprisingly quickly, too.

In experiments carried out in tropical  rainforests in Venezuela, decomposition rates were really fast, with 50% of leaf mass lost in less than 10 days! Interesting, but is it tremendously surprising to us as botanical-style aquarium enthusiasts? I mean, we see leaves begin to soften and break down in a matter of a couple of weeks- with complete breakdown happening typically in a month or so for many leaves. And biofilms, fungi, and algae are still found in our aquariums in significant quantities throughout the process.

So, what's this all mean? What are the implications for aquariums? 

I think it means that we need to continue to foster the biological diversity of animals in our aquariums- embracing life at all levels- from bacteria to fungi to crustaceans to worms, and ultimately, our fishes...All of which form the basis of a closed ecosystem, and perhaps a "food web" of sorts for our little aquatic microcosms.

It's a very interesting  concept- a fascinating field for research for aquarists, and we all have the opportunity to participate in this on a most intimate level by simply observing what's happening in our aquariums every day!

And facilitating this process is remarkably easy:

*Approach building an aquarium as if you are creating a biome.

*Foster the growth and development of a community of organisms at all levels.

*Allow these organisms to grow and multiply.

*Don't "edit" the growth of biofilms, fungal growths, and detritus.

Keeping it together: The beauty of "buttress roots" and their function in the flooded forests...

There is something incredibly compelling about the way terrestrial trees and shrubs interact with the aquatic environment. This is a surprisingly dynamic, highly inter-dependent relationship which has rarely been discussed in aquarium circles.

Let's have that talk!

We have talked a lot about roots before...They are structures which are so important in so many ways to these ecosystems, in both their terrestrial and aquatic phases.

Not only do they help "secure the soils" from falling away, they foster epiphytic algae, fungal growth, and biofilms, which supplement the foods of the resident fishes. And of course, they provide a physical habitat for fishes to forage, seek shelter, and reproduce among. In short, these roots create a unique "microhabitat" which harbors a diversity of life.

And they look pretty aesthetically cool, too!

So yeah- this makes them an irresistible subject for a natural-looking- and functioning- aquascape!. And relatively easy to execute, too!

With a variety of interesting natural materials readily available to us as hobbyists, it's easier than ever to recreate these habitats in as detailed a version as you care to do. 

As usual with my ramblings, this blog has become yet another homage to roots and other forest features, and how they function in the transitional aquatic habitats we love so much.

One of the foundational root types that we can replicate in or aquarium works what botanists call "buttress roots." Not only are these interesting structures to replicate in our aquariums, they are an important component of the ecosystems which make up the flooded forests, particularly in areas like Amazonia.

Buttress roots are large, very wide roots that help keep shallow-rooted forest trees from toppling over. They are commonly associated with nutrient-poor soils (you know, like the kinds you see in the igapo or varzea ecosytems). These roots also serve to take uptake nutrients are available in these podzolic soils.

The buttress roots of various species of forest trees often weave in and out of each other horizontally, and create a vast network which serves to keep many trees in the forest from toppling over. And since these habitats often flood during the rainy season, buttress roots help stabilize the trees and retain soils during this inundation.

Isn't that interesting? Even the trees have made adaptations over eons which allow them to survive under these harsh conditions! As you might suspect, the "white-water" flooded forests (Varzea) tend to be richer in species diversity and density than the less nutrient-dense blackwater-flooded Igapo forests. Seems like everything in these ecosystems is a function of nutrient availability, isn't it?

However, the use of larger pieces of wood- or several pieces of wood aggregated together- can create really interesting structures which can replicate the form and function of buttress roots in the aquarium. 

At the very least, you can try a fairly large piece of aquatic wood (or several smaller pieces, aggregated to form one large piece) some time. I think you might find this sort of arrangement quite fascinating to play with!

Arrange the wood in such a way as to break up the tank space and give the impression that it simply rooted naturally. Let it create barriers for fishes to swim into, and disrupt water flow patterns. Allow it to "cultivate" fungal growth and biofilms on its surfaces, and small pockets where leaves, botanicals, substrate materials, and...detritus can collect.

This is exactly what happens in Nature.

It's fascinating and important for us to understand- at least on a superficial level- the concept of replicating some of the structures and features of these transitional habitats, such as flooded forest floors.

By understanding how these structures work, why the exist, and how they provide a benefit to the organisms which live among them, we will be in an excellent position to incorporate exciting features- such as buttress roots-into our future aquariums!

Stay inspired. Stay educated. Stay bold. Stay creative. Stay thoughtful...

And Stay Wet.

Scott Fellman

Tannin Aquatics 

Epiphytes, macrophytes, allochthonous input, and other "natural" fish foods...

As a hardcore enthusiast of the blackwater/botanical-style aquarium, you're more than well-attuned to the nuances involved in managing a system filled with decomposing leaves, seed pods, wood, etc. And you're keenly aware of many of the physiological/ecological  benefits that have been attributed to the use of these materials in the aquarium. However, I am willing to bet that most of us have not really considered the "nutritional" aspects of both botanicals and the life forms they foster as an important part of the "functional/aesthetic" dynamic we've touched on before.

Let's consider some of the types of food sources that our fishes might utilize in the wild habitats that we try so hard to replicate in our aquariums, and perhaps develop a greater appreciation for them when they appear in our tanks. Perhaps we will even attempt to foster and utilize them to our fishes' benefits in unique ways? 

One of the important food resources in natural aquatic systems are what are known as macrophytes- aquatic plants which grow in and around the water, emerged, submerged, floating, etc. Not only do macrophytes contribute to the physical structure and spatial organization of the water bodies they inhabit, they are primary contributors to the overall biological stability of the habitat, conditioning the physical parameters of the water. Of course, anyone who keeps a planted aquarium could attest to that, right? 

One of the interesting things about macrophytes is that, although there are a lot of fishes which feed directly upon them, the plants themselves are perhaps most valuable as a microhabitat for algae, zooplankton, and other organisms which fishes feed on. Small aquatic crustaceans seek out the shelter of plants for both the food resources they provide (i.e.; zooplankton, diatoms) and for protection from predators (yeah, the fishes!).

So, plants in the aquarium have been valued by aquarists "since the beginning" for all sorts of benefits- that's not really groundbreaking. I personally think that one of the more interesting functions of plants in the aquarium is to serve as this sort of "feeding ground" for fishes in all stages of their existence. Oh, yeah, they look cool, too! 

Perhaps most interesting to us blackwater/botanical-style aquarium people are epiphytes. These are organisms which grow on the surface of plants or other substrates and derive their nutrients from the surrounding environment. They are important in the nutrient cycling and uptake in both nature and the aquarium, adding to the biodiversity, and serving as an important food source for many species of fishes.

In the case of our aquatic habitats, like streams, ponds, and inundated forests, epiphytes are abundant, and many fishes will spend large amounts of time foraging the biocover on tree trunks, branches, leaves, and other botanical materials. Although most animals use leaves and tree branches for shelter and not directly as a food item, grazing on this epiphytic growth is very important. Some organisms, such as nematodes and chironomids ("Bloodworms!") will dig into the leaf structures and feed on the tissues themselves, as well as the fungi and bacteria found in and among them. These organisms, in turn, become part of the diet for many fishes.

And the resulting detritus produced by the "processed" and decomposing pant matter is considered by many aquatic ecologists to be an extremely significant food source for many fishes, especially in areas such as Amazonia and Southeast Asia, where the detritus is considered an essential factor in the food webs of these habitats. And of course, if you observe the behavior of many of your fishes in the aquarium, such as characins, cyprinids, Loricarids, and others, you'll see that in between feedings, they'll spend an awful lot of time picking at "stuff" on the bottom of the tank. In a botanical style aquarium, this is a pretty common occurrence, and I believe an important benefit of this type of system. 

I am of the opinion that a botanical-style aquarium, complete with its decomposing leaves and seed pods, can serve as a sort of "buffet" for many fishes- even those who's primary food sources are known to be things like insects and worms and such. Detritus and the organisms within it can provide an excellent supplemental food source for our fishes! It's well known that in many habitats, like inundated forests, etc., fishes will adjust their feeding strategies to utilize the available food sources at different times of the year, such as the "dry season", etc. And it's also known that many fish fry feed actively on bacteria and fungi in these habitats...so I suggest one again that a blackwater/botanical-style aquarium could be an excellent sort of "nursery" for many fish species! 

You'll often hear the term "periphyton" mentioned in a similar context, and I think that, for our purposes, we can essentially consider it in the same manner as we do "epiphytic matter." Periphyton is essentially a "catch all" term for a mixture of cyanobacteria, algae, various microbes, and of course- detritus, which is found attached or in extremely close proximity to various submerged surfaces. Again, fishes will graze on this stuff constantly.

And then, of course, there's the "allochthonous input" that we've talked about so much here: Foods from the surrounding environment, such as flowers, fruits, terrestrial insects, etc. These are extremely important foods for many fish species that live in these habitats. We mimic this process when we feed our fishes prepared foods, as stuff literally "rains from the sky!" Now, I think that what we feed to our fishes directly in this fashion is equally as important as how it's fed.

I'd like to see much more experimentation with foods like ants, fruit flies, and other winged insects. Of course, I can hear the protests already: "Not in MY house, Fellman!" I get it. I mean, who wants a plague of winged insects getting loose in their suburban home because of some aquarium feeding experiment gone awry, right?

That being said, I would encourage some experimentation with ants and the already fairly common wingless fruit flies. Can you imagine one day recommending an "Ant Farm" as a piece of essential aquarium food culturing equipment? Why not right?

As many of you may recall, I've often been amused by the concerns many hobbyists express when a new piece of driftwood is submerged in the aquarium, often resulting in an accumulation of fungi, algal growth and biofilm. I realize this stuff looks pretty shitty to most of us, particularly when we are trying to set up a super-cool aquascaped tank. That being said, I think we need to let ourselves embrace this. I think that those of us who maintain blackwater. botanical-style aquariums have made the "mental shift" to understand, accept, and even appreciate the appearance of this stuff.

When you start seeing your fishes "graze" casually on the materials that pop up on your driftwood and botanicals, you start realizing that, although it might not look like the aesthetics we had in mind, it is a beautiful thing to our fishes. And this made me think that an "evolved" preparation technique for driftwood might be to "age" it in a large aquarium that also serves as an acclimation system for certain fishes. For example, fishes like Headstanders (Chilodus punctatus) and various loaches, catfishes, and others, would be excellent additions to this "driftwood prep tank." You could get the benefit of having the gunky stuff accumulate on the wood outside of your main display (if it bothers you, of course), while helping acclimate some cool fishes to captivity!

Just throwing the idea out there.

And of course, we've talked before about the "botanical nursery" concept- creating an aquarium for fish fry that has a large quantity of decomposing botanicals and leaves to foster the production of these materials, which serve as supplemental food for your fish fry. I have done this before myself and can attest to its viability. You fishes will have a constant supply of "natural" foods to supplement what you are feeding them in the early phases of their life. Learn to make peace with your detritus! 

This little discussion has probably not created any earth-shattering "new" developments, but I believe that it has at least looked at a few of the terms you see bandied about now and again in hobby literature, perhaps clarifying their significance to us. And I think it's really about us understanding what happens in nature and how we can work with it instead of against it, taking advantage of the food sources that she provides to our fishes when we don't rush off for the algae scraper and siphon hose before considering the upside!

Another "mental shift", I suppose...one which many of you have already made, no doubt. I certainly look forward to seeing many examples of us utilizing "what we've got" to the advantage of our fishes! 

Stay bold. Stay open-mined. Stay interested. Stay creative. Stay engaged.

And Stay Wet.

Scott Fellman

Tannin Aquatics