Monday 22 December 2014

Post 187 Australian conifer species


Prospective native Australian tree - Mount Spurgeon Black Pine (MSBP)

Many in local bonsai circles are taken with the Japanese Black Pine, but not many people realise that we have our own indigenous ‘black pine’. Prumnopitys Ladei is a real mouthful but it is within the Pinales order along with every other conifer you could imagine. It is in the Podocarp family and so is closely related to things like the Podocarpus – or Podocarpus elatus (Brown Pine or Plum Pine or Illawarra Plum).
Prumnopitys ladei, is endemic to the Atherton Tablelands of north Queensland. The distribution is rare with plants only found growing on the granite-derived soils of Mount Spurgeon and Mount Lewis at elevations of 1000-1200 m.  P. ladei has been included in the Rare or Threatened Australian Plants list.

 The small distribution is in sharp contrast with the adaptability and hardiness of this conifer that shows great horticultural potential. Although found naturally in the wet tropics, it can be grown successfully in sub-tropical and cooler districts, such as Canberra.
It is a slow growing and very long lived species which can reach 20m in its natural rain forest habitat. 
 
 The leaves are small and are similar to those of the yew; strap-shaped, 10-40 mm long and 2-3 mm wide, with a heavy but soft texture. 

The seed cones are highly modified, reduced to a central stem 1-5 cm long bearing several scales; from one to five scales are fertile, each with a single seed surrounded by fleshy tissue like a berry. This is a little similar to the podocarpus fruit.


In an open space it has a typical attractive coniferous upright conical shape very like swamp cypresses of a similar age.


It is suggested that the MSBP is a Gondwana plant – along with the Wollemi Pine. Here is a picture of the Wollemi leaf structure.
By comparison the Wollemi leaves are 30 to 80 mm long and 2 to 5 mm wide, not such a good bonsai prospect.

The leaf structure is very similar to the Coastal Redwood/ Californian Redwood of the USA north west coast (Sequoia sempervirens). The redwood is regularly used for bonsai in the 
 US.
The other tree with a similar foliage pattern is the Swamp Cypress even though it might be much softer and lighter weight







Sunday 14 December 2014

Post 186 Ficus air layer separation

In October I posted a story about the air layering of a previously trunk chopped ficus.

In Post 175 I showed setting up an air layering using the drilled hole and toothpick process. This failed to show any sign of producing roots and so I reverted to the removal of a full ring of bark. After doing that, a little over two months later I noticed a few roots sticking out under the edge of the temporary dam  I had placed around the layering site and decided it was time to investigate further.


This was what it looked like after setting up the layering October and wrapped the dam around the tree. The 'top' had been previously grafted on because it refused to shoot.


After removing the dam, a little light scratching around the surface showed good root development in most places around the circumference. The top of the tree has developed nicely in the last couple of months. It looked like there were plenty of roots to support the tree on separation and with months of growing season left the time was right.


 After cutting off the trunk and major roots to the old structure this is the point of separation.

 Leaving a very nicely rooted little flared trunk. In this photo you can see the roots coming from the line of the removed ring of bark. Above that line there are the previously drilled holes which have shown no root development activity.

Finally repotted in a temporary plastic pot to get it stabilised and recover from surgery. I expect that after a little extra moisture and shade for a week it will be ready to go back out to the open nursery. This concludes a process that has been ongoing for a while to 'harvest' a short section of trunk by getting leaves attached on one end and roots on the other; just think of the possibilities to turn the 'never going to get quite there trees' in your collection into something with promise.
What about a nice handmade bonsai pot for it is the next question? Ahhh well perhaps in the next batch.I want to be able to display this one at a club show next September and at this rate I'm confident of getting there: Ficus benjamina 'shorty'.

Monday 8 December 2014

Post 185 Bonsai potting soil

Potting 'soil' for our trees is an ever present interesting  topic for discussion. Despite the accessible research that's been done enthusiasts entering the field are swayed by the offerings by suppliers of commercial potting media. These products will rarely offer a sustainable option for most growers of most species under most conditions; without some modification.

To start with, calling a potting medium, which is formulated for growing a plant in a pot, 'soil', is just the first contradiction. Then to be confronted with a wide range of commercial products which are primarily composted and decomposed organic matter which is so different from 'soil' as we know it in our gardens, adds to the confusion; along with our trusting acceptance that if a product is offered it must be good at what it claims to do.

Soil, the real stuff in the ground, has a thin layer of topsoil and then subsoil going down to a more rocky geology. The material in the upper layers is basically decomposed rock - inorganic material. In the topsoil biological activity will introduce an amount of organic material. In some of our best cropping soils the organic content will always be less than 10% and often less than 5%. So most of our food is grown in a medium - called soil which is mostly inorganic, clays, sands and degraded rocks. The predominant feature of soil is that the particles are almost exclusively very very fine in size.

This uniformity of fine sizing means that the material generally has good moisture holding ability, which is enhanced by the presence of any clay content. The important feature about soil is that it is in the ground, enabling free moisture to continue to 'fall' down to the water table and so the top soils are rarely water logged. This is exactly why garden soils are less effective for plants in pots; because the lower part of the pot is not in contact with the sponging action of the lower ground and the capilliary action of the uniformly fine particles hangs onto the water and you will regularly get water logging in a pot of topsoil. The capilliary action is the effect you see if you stand a pot in a saucer of water and the moisture will rise up to a certain level above the water level itself. The finer the mix and the more uniform size the particles the greater the capacity to 'wick up' moisture and hold onto it.

Organic matter in soil performs a number of important purposes; it helps hold moisture and nutrients, supplies nutrients as it decomposes, feeds beneficial silo microbes and helps to buffer soil pH (ie keep it neutral). In bonsai potting media we would be looking for the organic component of our mixes to do the same things.

Plant roots have some other particular needs that we must provide for in composing our medium.
First up is getting wet occasionally so we want to make sure our mix is 'wettable' but at the same time should not stay wet. Highly organic mixes when they dry can become hydrophobic - ie water repellent so that once dry they are hard to wet again.
Secondly, healthy root conditions rely on oxygen rich ventilation of the rootspace. The plant's roots transpire releasing CO2 and taking in oxygen. In the absence of oxygen, health will decline and a build up of CO2 will result in a gradual decline in pH, further reducing root health. Additionally good soil microbes are aerobic (breath oxygen) and bad smelly thrive without it. These anaerobic microbes acidify the media, also diminishing root health.

To summarise we want a medium with some organic material for moisture retention, but more inorganic and it needs to be free draining to allow water in to wet the roots and hydrate the organics but sufficiently open to allow good ventilation too. Aeration, drainage and moisture retention suggests a majority of larger rather than superfine materials. 
The selection of the exact materials and the proportion of them becomes a matter of personal preference, experience and perhaps more importantly what you can get your hands on.

We are looking for inorganic and organic components.
The inorganic components may be porous (and thus water retaining) or impervious. Water retained in porous particles will be available to the roots but at the same time allows good ventilation of the spaces between the particles.

This is Castle Mountain Zeolite, sizing 1 to 3mm, and no fines. Zeolite is a volcanic material which is hard, heavy and porous. It is milled and so has very helpful sharp edges, good for fine root development and trunk flaring. Zeolite is also cationically active and so works to hold onto some of the positively charged fertilizer nutrients. Until recently I have been using 'Tiler's Sand' sold by the bag in hardware stores. It is coarse and sharp but still very small and I've been wanting to replace it with something larger. This zeolite product fits the bill perfectly.


 This is Mt Sylvia Diatomite. It is fossilized diatom skeletons and almost purely silicon dioxide. It is porus and quite soft - chalky in fact. As you can see from the above picture the size range is quite large. The 'oversize' on the right is the material retained on top of a 6mm screen and the material on the left is the 'undersize' which goes through a 'flyscreen' size mesh. The screen used for the oversize is a garden variety one generally available at most hardware outlets, quite cheaply.  The quantity of fines isn't enough to justify fine screening but some may chose to take out the oversize. Caution should be taken in screening to avoid breathing the dust.

This is scoria, another volcanic rock. Also very sharp and heavy it would be a very good inorganic component to use if you can get a supply. Depending on where you get it from it may need screening to remove the fines.
Other inorganics which may be good include; coarse sand - nothing less than 1mm and certainly not that fine white sand offered for kids sandpits, deco - decomposed granite or other crushed gravels. Unfortunately many of these products are neither screened or washed and so contain too much superfine, media clogging, dust and mud. They take a lot of work to process them at home, both wet and dry, to get them into a useable state. I have seen recycled teracotta crushed to gravel size for home garden use. If you could get this in the right size range it would be a very useful porous inorganic material. In some places it is also possible to get baked clay particles (made for kitty litter use). I know a guy who raids bull ant nests for the aggregate they put on top of their nests. It's great stuff at 2 to 4mm, and you have to admire his dedication.
At the light weight end of the scale there are pumice, vermiculite and perlite mostly readily available and suitable. Each product has it's own particular values and you need to weigh up your experience and information you can collect in making a choice. We should never forget that one of the prime purposes of a media is anchorage of the tree.
Once again it depends on suppliers available in your area. All of these things are good as long as they are clean, dust-free, not too big, not too small and sharp with a mix of porous and impervious.

And then the organics:

 This is 7mm pine bark, slightly composted. It is nicely uniform in size with almost no fines. It is a size which contributes to free draining and at the same time offers the advantages of an organic component.

 This is Searles premium potting mix. As you can see from this picture it contains a wide sizing range.
 In this picture I've separated the overs and unders. The proportion of fines is large and too much to economically segregate out. The oversize is less and could happily be separated. Seeing the amount of undersize here is a disincentive to use a lot of this in a mix. Some of this fine organic material would however be nicely organically active in a mix as long as there's not too much to create a physical problem.

In this picture I separated the oversize to see what it's made of and you can see pine bark, decomposed timber chips, what looks like fly ash, a few river sand pebbles and a few particles of slow release fertilizer.

There is any number of packaged organic materials to use. Anything that has been composted and thus has a component of humus supplies some useful organic chemicals that promote healthy substrate flora and root growth.
If I could get some small grade charcoal I would use that too. This might be available through an orchid nursery.
Some people advocate using composted manures. These would be good for the nutrient boost and humus but I would be concerned about clogging up the mix and would rather see both nutrients and humus supplied by other means.
In composing a mix the big question is the ratio of organic to inorganic. Experienced long term growers of bonsai line up with agronomic research which suggests that the mix should have no more than 50% organic material. Some take this level all the way down to zero but for the bulk of enthusiasts a workable level would be 25% to 50%, but certainly no more.
Regardless of how much organic material you use the media will never supply all the necessary nutrients and trace elements. Additional fertilization is essential and as you reduce the organic content it becomes more essential, more often.

Some might ask if moisture retention and limiting organic content are not contradictory and in some ways they are. But it would be better to have to adjust your watering pattern to meet the needs of the trees in the best mix possible than to compose a sub-optimal mix to maximise short term water retention.

From materials readily available to me and ones that I can use without too much processing at home, this mix ticks all the right boxes for bonsai in SE Queensland, which has hot summers and warm dry winters:

25% by volume of zeolite
25% by volume of diatomite ( screened to remove the oversize)
25% by volume of the 7mm pine bark
25% by volume of the Searles PPM (screened to remove the oversize)

And this is what it looks like when wet. Using two porous inorganic materials is helpful in our climate where hydration is so important and can be challenging.

A final point to make is a reminder of the value of the beneficial microorganisms in the soil that work with plants for a healthy root system and nutrient uptake. Typical of these is  mycorrhiza which is abundantly obvious on pine tree roots. I find that cuttings always take better in media that has prevoiusly grown plants, perhaps an indication of healthy media flora, and so innoculating a new batch of potting mix with a few % of preloved clean material (even some recovered porous inorganic particles) might just give a repotted root-pruned tree a quick start to getting re-established.


Thursday 27 November 2014

Post 184 Pot 102 Revisited

In January this year I posted a story about some new pots made at the time. Pot 102 was one of those; a largish compound pot with an overlay glazing. In Post 140 I described the glazing process and result and suggested that this one would be a keeper. We that has been true for some time and I've quite enjoyed being a collector and seeing it on my shelves, happy for it to be there observed by not employed, a reminder of if not inspiration for what might be possible.
It is a pot that needed the right tree and I didn't nave one that made the match.

A friend wanted a pot for a group of three ficus, Queensland small leaf figs and so brought the tree over for a consult and design review. The first thought was a long low oval. The group was growing in a rectangular pot and the trees have lots of aerials taking up a lot of the surface area - a large and rectangular 'footprint'. That rectangular shape at ground level made any thought of oval impractical as the pot would have to be too large to accommodate the rectangular footprint.
 

This is exactly the circumstance that I have designed my compound shaped pots for as well as the bowed wall rectangular pots. Both just soften and lighten up the composition a little and work well with a tree with a large footprint.
With the movement of the trees to the right the best position for the group in a pot was to the left of centre. I'd done a couple of photoshop constructs to help make a decision on the size of a new commissioned pot and in discussing the shape suggested we lift it out and sit in in Pot 102 for size and shape evaluation.



Well as soon as it went in there we both kind of knew it wasn't coming out. Size and colour and texture all worked well with the trees.
So it's not a keeper any more or at least not for me. It has a better home now in the hands of a dedicated young guy with a long bonsai future ahead of him and matched with a group of trees that over time will develop into an even more impressive display than they do now.

Tuesday 18 November 2014

Post 183 Tanuki No 4 update

In June ( Post 155 ) I posted an update on this tanuki which I got started in October 2013 ( Post 126 ).

In spring I repotted the tree in a bonsai pot with plenty of room. Summer is with us now and the tree has a head of steam up and growing vigorously. It is time to give it a first shaping and little trim, especially to keep the top under control. Here are front and back pictures before the trim, or actually just after I started and thought about taking some shots.






As you can see I had left a number of branches on the tree simply to thicken up the trunk and ensure it was secure within the channel in the ceramic tanuki. I've taken a couple of these off this time and left one or two on that are still likely to come off later.




The trim will no doubt encourage some back budding and multiple leaders to emerge. The plan is to grow it on, get some extension in a couple of the lower branches and fill out the profile more. Then in spring next year put it in a more appropriate pot and it should be ready for display.

Monday 10 November 2014

Post 182 Zeolite

Finding the right inorganic components for a good bonsai growing medium is challenging. Size range is critical as is the absence of very fine material. The physical nature of the particles is important too. Sharp surfaces make for much better root development too and with that comes trunk flare. It is possible to buy all sorts of crushed or decomposed rock products but to get them ready for use demands a lot of sieving and washing; hard work and what do you do with the 30% of the material you don't want.

Diatomite is a product sold as an absorbent because of its porosity and as such it is processed and screened to a sizing that is good for bonsai use. It is also readily available in small bags. Diatomite is a mined product but is the remains of marine organisms and is totally a silica material and can be quite soft.

Another mineral product that has wide use as an absorbent and filtrate (filter bed material) is zeolite. It is a hard volcanic rock, typically alumino silicate like the rest of the crust and is also very porous like diatomite. The interesting thing about zeolite is that it is cationically active forming weak bonds with positive nutrient ions like ammonium, potassium, magnesium, calcium and various metals that are useful as trace elements. So zeolite can act as a reservoir of these essential nutrients and TEs for the plant to access over time, as well as the water that it can store in the minute pores in the rock.



I searched out a supplier for Castle Mountain Zeolite this week and managed to get my hands on some of their product. It is sold as Booster Crystals!

 This one is screened to 1 to 3 mm in size and has almost no fines at all. While 2 to 4.5mm would be ideal, as it will be very useful. The rock is crushed so it is very sharp and will be a very valuable additive to my bonsai medium. I can easily see this taking up a 20% position in my mix.

Sunday 2 November 2014

Post 181 Celtis stumps development

In August I pulled up all my Celtis stumps and put them in ploy boxes and other large containers to make it easier to work on them. With our first day in the mid 30s and afternoon thunderstorm, spring is well over and summer is now with us for the next 5 months. Not so good for human comfort but think of the cut and grow cycles that can fit into all that time.


Until just last week this is what they all looked like with the spring flush extended out a good 750 mm in many cases. The early lengths of these shoots has now hardened off and it's time to shorten them back and develop some more close ramification option value.

The pruning of this season's growth to date takes the leaders back to about 25 to 30 mm length and after a week these are shooting abundantly. As is the case with any defoliation of a deciduous tree to develop ramification and structure, the tree will generally produce more new shoots than you might want and not always where you want. It is important to choose which ones to let grow and remove the rest to avoid clutter and to focus the tree's resources where you want results.




 


So each of the first cycle stubs now have two or three new shoots. I'll let these run out to that 600 to 750mm again, building the bulk  of the primary branches, building taper and a higher density of branches. This cycle two will be for about another 7 or 8 weeks before repeating the process again. It is likely at some time in this cycle that I will tip prune the more dominant vertical growth and allow the lower more horizontal branches to continue and catch up as much as possible. Within a week or two the new shoots will be wired into growing position.

The pot hoops around many of the stumps are to contain potting medium which covers surface air layering that I've done. I used the same technique as in Post 175 on the Ficus with a ring of holes drilled where I want a new flaring root structure to replace the few major dominant roots that came with the original dig.    From past experience I'm expecting to see a mass of new fibrous roots develop all around the circumference so that before next spring I can cut off the old root structure and plant the trees in more shallow pots when the time comes. With plenty of growth momentum it's a good time for this essential step.
There are a couple here that are looking quite prospective. It's good to start many and keep a few, just like new shoots.

Monday 27 October 2014

Post 180 More new pots

These are the reamining 5 pots from my last firing; all with new glaze formulations from my last trial series.
The first two are from an oval mould with a slightly convex wall. The size is a useful intermediate scale.


Oval with rounded flange and lower rib      Pot No125     313 x 245 x 62

 Oval with squared flange          Pot No 128           321 x 257 x 60

The next three are also from the one (different) mould. They show how a slump mould can be used as a basis with different wall profiles to create slightly different pots.  In Post 172 I showed a new bowed wall rectangular shaped pot, with less bow in the walls and more squared corners. These are the first three pots of that shape. Pot 27 shown in that post while still drying is now shown here, below, glazed.

The first one a quite assertive model with squared flange and lower rib as well as quite sharpish corners.      Pot No 124        336 x  242 x  67  

 This one has the same tight corners but no lower rib. It's Pot 127 from Post 172.   
 Pot No 127       340 x  250 x  72

And then finally Pot No 123  with the more rounded corners.      Pot No 123      325 x  240 x  67

Three different pots with slightly different characters from the same mould; from the more formal to the more relaxed.

Wednesday 22 October 2014

Post 179 New Shohin pots

After this year's show circuit I've been enthused to compete in more classes and so am working away to rapidly develop this season a few  potential shohins that have been on the 'back bench' for a while. I also have a few older trees that I've radically shortened (and posted about) and will work these into smaller pots too. So having something to put these trees into to show has been a motivator to make some stock and build the colour palette.  I'm happy to hang on to these pots especially the semis, no S47 and S48 which are very cute. I've got a couple of little benjamina 'shortys' looking very prospective for these.

The other motivator is a booking I have in a couple of weeks with one of our local Bonsai groups to do a pottery demonstration. I think a lot of people were very interested in and enjoyed the demo done by our Chinese pottery master friend at the Gold Coast conference. This will be an opportunity for a few more people to get a view of the process, albeit a little different, up quite 'close and personal'.

I've had a little warning of the slot and so the pots from this firing  will be useful to show first hand what the opportunities are and also to have something to sell if anyoine is inclined.

There were 16 pots in the last glaze firing - the 11 Shohins shown here as well as 5 mid sized oval and bowed wall rectangular pots. I posted a shot of the pots fresh from the bisque firing recently. The Shohins can be packed in and with the others being mid sized it was a productive glaze firing.

I was also keen to try out some of my 'new browns' from my recent Glaze trial 9. A number of them are here in this group along with a couple of new blues, also from that trial.




S41   Oval with square rim and lower rib    193 x 142 x 44


S42  Rounded rectangular with rounded rim and lower rib   175 x 130 x 52


S43  Oval with rounded rim and lower rib   175 x 130 x 52180 x 134 x 52


S44  Rectangular  165 x 115 x 50


S45  Oval  166 x 122 x 44


S46  Oval  175 x 132 x 55


S47  Square semi cascade   117 x 117 x 70


S48  Square semi cascade   117 x 117 x 70

Here's that little benjamina photoshopped into the pot. With the coming season's growth ahead I think a nice match.


 S49  Oval with textured walls   160 x 120 x 44
S50  Oval  178 x 127 x 46
S51 Rectangular    165 x 120 x 50