Tenco is one of New Zealand’s largest exporters of forest products. We have built to this position since 1991 when the company was set up to export lumber to growing Asian export markets. Experience and reputation count; from small beginnings Tenco has become the largest independent exporter of New Zealand lumber and New Zealand’s 4th largest log exporter. Tenco has a regular shipping program of their own log vessels and in combination with these and other ships currently calls at 7 New Zealand ports (5 North Island and 2 South Island).
Tenco buys standing forests. Tenco currently has a number of forests which they purchased at harvestable age to log over a number of years for export and domestic markets. Tenco also regularly buys smaller tracts of forest to harvest immediately or immature forests to hold until harvest time. Tenco is interested in broadening the base of owners from whom it purchases forests and stands of trees. A deal with Tenco is a certain transaction. The owner and Tenco will agree on a value of the tree crop and then Tenco will pay this amount to the owner either in a lump sum amount or on rate per volume unit out-turn from the forest depending on the nature of the tree crop.
Tenco knows there are a lot of farmers who have trees that are close or ready to harvest and will be asking themselves how they should proceed with the sale of their trees. For some farmers the kind of certain transaction with money in the bank could well be appealing. Tenco is actively interested in buying harvestable forests or trees from areas including all the North Island (except the Gisborne and East Coast districts) and Nelson & Marlborough in the South Island .
If you own a forest in this area (16 years and older) and are ready to enter into this kind of agreement Tenco is interested to develop something with you.
Please contact: Josh.Bannan@tenco.co.nz
Work: +64 7 357 5356 Mobile: +64 21 921 595 www.tenco.co.nz
NZFFA Member Blogs
Any member of NZFFA can set up their own blog here, just ask Head Office to set one up for you and join the ranks of our more outspoken members...
You can either publish your blogs yourself, or email a document to head office for publishing.
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John Purey-Cust Ponders
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School of Forestry blog
Shem Kerr's blog
Wink Sutton's Blog
Friday, February 27, 2009
As a young FRI scientist on my first field trip with Harry Bunn, then director of Production Forestry Research and also my greatest mentor, we visited a three-year-old radiata pine stand. It was depressing. Inadequate site preparation, poor tree stock and poor planting had resulted in half the trees dying. Those that had survived had not been released. Understandably, I was critical.
As we returned to our hotel Harry commented that I might have handled the situation differently. What I said had left the young forester feeling helpless. I would have been more effective if, instead of being critical, I had given advice on how to rectify the problem and how to prevent a repeat. Since then I have always tried to live up to this Bunn philosophy ‘don’t be critical unless you can offer a better solution.’
A recent experience reminded me of Harry’s wise and fatherly advice. Of all my presentation material the most dramatic, and the most frightening, is the graph showing the growth in human population since the birth of Christ. In AD 1 the global population is estimated to have been about 250 million, and it grew nearly a billion by 1800 and 1.6 billion by 1900. Since then the population growth has been explosive. Currently there are nearly seven billion of us.
While the population growth in some countries has been static, or even declining, the total global population is still increasing. This population explosion has very serious implications.
Some, especially from the environmental movement, claim we must reduce our level of consumption. But is this realistic or too simplistic? If we lower consumption not only are there both fewer lower paid jobs and less government taxation incomes but also greater social demands. In democratic societies it would be political suicide for any party to advocate consumption-reducing policies if the result was increased unemployment and less social spending.
In a keynote address to the UNFF intersessional expert meeting on ‘The Role of Planted Forests in Sustainable Forest Management’ in Wellington in 2003, I attempted to argue that consumption was not the problem, it was unsustainable consumption.
If we had sustainable consumption, such as a more wood based economy using responsible forest management, we could increase consumption without reducing the planet’s resources. I could have strengthened my case by demonstrating that although wealthy societies or the wealthy in poorer countries have the greatest level of consumption they also have the lowest increase in population. I could also have demonstrated that as wealth increases so does the consumption of wood.
At that Wellington meeting was the New Zealand environmentalist, Sandy Gauntlett of the Global Forest Coalition. Sandy Gauntlett is anti-plantation claiming that they are not forests and have destructive effects. He dismissed my solution with the comment −
‘Wink Sutton’s paper ... was little more than an argument for increased consumption, and planning for consumption, of wood, and hence for more plantations.’
Gauntlett is at liberty to disagree with me but by casually dismissing my well reasoned argument he missed the opportunity to advance his realistic and socially acceptable solution to this major global problem. The environmental movement would be far more effective if, instead of being critical, it followed the Harry Bunn principle of offering politically acceptable solutions.
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Tuesday, May 29, 2007
Recent silvicultural improvements, such as seed source – almost all seed now comes from seed orchards – nursery practice, tree handling, planting methods, weed control and the adoption of regimes that do not include a production thinning, have all reduced initial stocking levels. The initial spacing is now generally determined by how many trees need to be planted to ensure a final crop stocking of high quality stems, for which a ratio of three to one is usually adequate.
Such decisions may appear rational, but the thinking a century ago was very different. The following is my understanding of the evolution of initial spacing approaches and how initial spacing helped our understanding of radiata pine silviculture.
When the first government plantings began in the late 1890s, the approach to initial spacing was an attempt to replicate nature.
Following European practice trees were closely planted. Although the initial spacing could have been closer, the initial stocking adopted was at a rate of just under 7,000 trees per hectare – which was 1.2 metres or four feet square. The theory was that if trees were planted closely, the trees would grow straight and the lowest branches would soon die and fall off. As in the old growth stands, such trees would produce timber free of knots.
Most of the early plantings were with prison labour, and only a small area could be planted because of the very high stocking, but there would also have been early evidence that very high stocking levels resulted in early tree mortality. By 1910 the initial spacing had been reduced to about 3,000 trees per hectare.
Soon after the large scale plantings began in the late 1920s the initial spacing was extended to 1.8 by 2.4 metres – approximately 2,200 stems per hectare, and even to 2.4 metres square – approximately 1,700 trees per hectare. Adoption of the wider spacings was to reduce costs and to allow a greater area to be planted with the same resources.
In the late 1930s the initial plantings were harvested. The high initial stocking did not result in natural pruning and produced almost no clearwood. Most of the timber sawn was full of knots, many of them small and bark encased. If we were to produce clearwood, radiata pine had to be artificially pruned.
In the late 1940s and early 1950s a number of initial spacing trials were established in State forests such as Woodhill, Kaingaroa, Gwavas and Eyrewell forests, with spacings ranging from 1.8 metres to 4.8 metres. Some trials included examples of rectangular spacing.
When the ‘economics of silviculture’ group was established in the 1960s I joined the group and my responsibilities included initial spacing. My first approach was to evaluate those NZ Forest Service spacing trials. Measurements of tree diameters, basal area and heights were straight forward but branch measurements were not.
As it did not directly relate to log quality and was dependent on the total number of branches, a measure of average branch size was almost meaningless. Branch measurements were limited to the dominants and larger co-dominants – the trees most likely to be in the final crop. A meaningful and repeatable measure of the average branch size not only proved difficult to relate to log quality but also impossible to assess. Small branches were difficult to count – once trees age small dead branches can be easily broken off or they rot and fall off. As the size of the largest knots was important in determining sawn timber grades, branch measurements were concentrated on the assessment of the largest branches.
Economic evaluation of the initial spacing demonstrated the advantages of a wide spacing. The research also demonstrated the financial advantages of rectangular spacing – lower planting, selection and releasing costs. But do trees planted at rectangular spacing differ in tree form? Measurements in the spacing trials showed that rectangular spacings were not significantly different from their square planting equivalents. Branch sizes between the rows were no smaller than those within the rows.
This uniform development was confirmed by measurements in an unthinned mature radiata pine stand planted at 7.3 by 1.8 metres. The between and within row tree diameters and average largest branch sizes were within one percent of each other.
Initially this was a surprising result but observations in mature radiata pine stands show that radiata pine branches have the ability to grow towards a more open space. Not all tree species appear to have this ability. Douglas fir branches, for example, almost always appear to grow straight out from the stem.
How important is spacing?
Some foresters place considerable emphasis on tree spacing at planting and at thinning for the final crop. However I am yet to be convinced that tree spacing is important. In radiata pine the spacing can vary, perhaps within the range of double and half the specified spacing, a ratio of four to one, with no or little effect on tree growth or form.
My evidence is mostly circumstantial –
- The ability of radiata pine branches to bend towards a light well
- A concerted but wasted research effort trying to demonstrate that a tree’s growth is determined by the size and closeness of its immediate neighbours
- Observations in unthinned mature radiata stands initially planted at 3,000 stems per hectare but with less than 10% of those trees surviving. It was not uncommon to find two large trees just 1.8 metres apart. There were a few examples of three large trees at the same spacing, and I even found one example of four large trees growing at the corners of a 1.8 metre square. If tree spacing was important there is no way these examples could exist.
Provided the overall stocking is as specified the actual spacing of those trees is a minor consideration. The research in the spacing trials was an important contribution to the paper Dr Bob Fenton and I wrote in 1968 advocating a sawlog regime that is similar to that is now practised in many New Zealand plantations.
Wink Sutton is the Patron of the NZFFA
In his excellent 1993 Radiata Pine Growers Manual Piers MacLaren has a very comprehensive discussion on initial spacing. Although spacing was one of my responsibilities when I was with the economics of silviculture team at the Forest Research Institute, I could not add anything substantial to what Piers has written.
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Disclaimer: Personal views expressed in this blog are those of the writers and do not necessarily represent those of the NZ Farm Forestry Association.