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Restoring a kangaroo grass
understorey
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By Ian Cole,
Terrestrial Ecologist, CNR, DLWC, Cowra |
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Whilst
scattered box trees are a relatively common sight across the wheat sheep
belt, the diverse plant communities that used to live beneath them have
long since gone, replaced with a few agricultural species, weeds and
hardy native plants. Animal species that depended on the original plant
species for habitat are also largely absent.
These
original grass-dominated
understoreys are therefore
extremely important because they largely determine the aesthetic
and conservation value of these
communities. In the
original plant communities these grasses exerted a powerful influence
over other plant species, at some times suppressing species and at other
times allowing them to recruit, producing distinctive and diverse plant
communities. Restoration of these communities therefore must include
strategies that will ensure the re-establishment of the original grassy
understorey species. If this can be accomplished other species may be
reintroduced at a later stage to restore to the vegetation a structure,
function and habitat value to something more like the original.
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Surprisingly therefore, whilst the conditions necessary for the
regeneration of the dominant eucalypt component of some of these
communities has been well studied, little work has been done on
restoring their grassy understorey. Fencing off areas, although
successful in allowing regeneration of tree and shrub species, does
not necessarily result in regeneration of the original grass
species. A more interventionist approach of introducing seed onto
the site may be needed in some situations.
Themeda triandra
(Kangaroo grass) was one of the more widespread grassy understorey
dominants. This resilient grass is well adapted to the variable
Australian climate as it can utilise rainfall and soil nutrients
efficiently. Its roots enhance soil health and structure by binding
and aggregating soil particles, increasing soil porosity, cycling
nutrients, increasing soil organic matter and supporting a large
number of soil organisms. |
Fig. 1. This Grassy White Box woodland with severely depleted
native understorey is situated at the Centre for Natural Resources
(Cowra), and is typical of much of the well farmed wheat sheep belt
across NSW and
northern Victoria
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Kangaroo grass seed comprises a dark brown caryopsis tightly enclosed by
2 glumes. At one end of this ‘seed’ is a sharp pointed callus while at
the other is a long bent awn. Under natural conditions the awn moves the
seed along the ground until it finds a crack or stone. A dormancy period
between 2-24
months prevents most seed from germinating immediately, and most seed
will germinate the following spring as soil temperatures rise to 200-250C.
Harvesting seed
Although
seed yield per hectare is low, seed is relatively easy to harvest on a
small scale. Readiness for harvest is indicated by a colour change in
the plant from a dark green/black to a dark green/red colour. When ripe,
seed is shed quickly from the plant and in hot dry windy weather nearly
all seed will be lost within a week. By the time the plant has turned
red most of the seed has been shed. On the small scale, reasonable
amounts of seed can be harvested by cutting and tying seed heads into
sheaves and hanging them upside down over a plastic sheet. After about a
week nearly all of the seed will have fallen out, together with a bit of
chaffy material, to produce a relatively concentrated seed product,
which is easily stored. It is best not to remove too much trash, as it
will prevent the awns from tangling and matting the seed together. A
more innovative method involves dragging a sheet of hessian material
over the ripe seedheads. Ripe seed lodges in the hessian, which can then
be cut into appropriate sized pieces for sowing.
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Seed-hay
can be harvested from moderately large areas by using a
whipper-snipper, and raking and packing stems into wool bales. On
flatter ground, mowers and balers make harvesting easier work.
However, with all seed-hay methods, seed loss in hot windy weather
loss can be relatively high. Because the seed content of seed-hay is
relatively low, a large amount of product has to be dried and
stored. It is probably more cost effective to spread it directly
onto the site to be sown after harvest. This allows the seed to fall
and find suitable microsites using natural mechanisms. If direct
spreading is envisaged, it is not necessary to dry the seed-hay and
a forage harvester may be more efficient in harvesting seed.
The most convenient way of harvesting kangaroo grass seed is to use
a brush harvester such as the ‘Grass
Hopper’. In a reasonable season this machine is capable
of harvesting up to 100 kg of high quality seed-floret material per
hour.
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Fig. 2. Trials at Cowra are being used to develop restoration
technologies to reintroduce native understorey species such as
kangaroo grass (Themeda triandra) and poa tussock (Poa
sieberiana).
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The
most convenient way of harvesting kangaroo grass seed is to use a brush
harvester such as the ‘Grass
Hopper’. In a reasonable season this machine is capable of
harvesting up to 100 kg of high quality seed-floret material per hour.
Seed floret material is a more concentrated product than seed-hay and is
easily dried and stored. The floret material bulks out the awned seed
preventing tangling and is easily spread out at sowing time. Direct
heading kangaroo grass is moderately successful; but lowers seed
germination and damages awns, limiting the seed’s self-planting
abilities.
For kangaroo
grass, producing a pure awned seed product is not particularly
useful because the awns tangle and mat to produce a solid mass of seed
that cannot be teased out for spreading without damaging the awns. Pure
kangaroo grass seed will therefore usually be awnless and may even have
the callus removed. Removal of the awn and callus has no marked effect
on germination. Although removal of the glumes is possible, and has the
positive effect of reducing dormancy, it is difficult to accomplish
without damaging the seed; so it is not usually attempted. Because pure
kangaroo grass seed has no natural mechanism to place it in suitable
microsites, it needs to be sown using conventional planting machinery.
Limited amounts of kangaroo grass seed are available commercially at
prices ranging from $25 to $600 per kg depending on the type of product
and the amount of viable seed contained per kilogram.
Sowing
Products
containing awned seed are probably more suited to direct spreading on
inaccessible or non-arable areas than are un-awned seed products.
Although awned seed has a remarkable ability to find suitable
microsites, establishment rates are poor in areas with complete
groundcover of other species or where the soil surface is compacted or
crusted. Rough cultivation before spreading seed-hay will therefore
improve establishment. Establishment has been improved in some
situations by reducing the vegetative cover in spring. A knockdown
herbicide is applied in early spring before germination of the kangaroo
grass, and is followed by burning the dead material. Alternatively,
crash grazing followed by herbicide application produces a litter
‘mulch’ that has proved beneficial to establishment especially in dry
seasons.
Pure
(un-awned) kangaroo seed may also be sown into a freshly worked but
rough seedbed that will allow seed to fall into depressions where it
will be covered by loose particles of soil and trash. On non-arable
sites where this is not possible, hydroseeding or hydromulching
techniques should be considered, but are probably only relevant to small
scale well-funded revegetation projects. Apart from this, the better use
for pure seed is on relatively flat terrain where it can be accurately
sown about 1 cm deep into a relatively uniform seedbed using
conventional seeding machinery.
Establishment rates using all these techniques will vary considerably
depending on site conditions and season. As a guide, it is reasonable to
expect about 5% of spring sown viable seed to develop into established
plants by the end of summer from a relatively dry season, and up to 50%
in a more favourable season. Even low plant establishment should be
considered successful, as kangaroo grass competes well with most species
especially where site fertility is low. Even densities of 1-2
plants per square metre are capable of developing into thick stands
within 3-5
years, given a couple of favourable seasons. On higher fertility sites
the ability of kangaroo grass to compete with other grassy perennials,
such as phalaris and paspalum, is much reduced. These perennials should
be controlled either by herbicide or cultivation before sowing kangaroo
grass.
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Management
After the
first 6 weeks, young kangaroo grass seems to tolerate light grazing from
several types of herbivores including rabbits, deer and kangaroos,
although plant numbers are reduced. Establishment areas should, however,
be fenced to exclude sheep and cattle in the first year. Once kangaroo
grass is established, high intensity-intermittent grazing by sheep or
cattle should be timed to suppress weed growth and to prevent the
kangaroo grass from becoming too tall and rank. Tall, rank kangaroo
grass stands become poorly rooted and are severely damaged by grazing.
Weed
suppression can also be augmented by herbicides if this is appropriate
to the site. Kangaroo grass seems to be tolerant of Simazine, Atrazine,
Verdict®, Glean®, and most selective broadleaf herbicides when they are
used at the rates recommended on the label to control specified weeds in
pasture.
This article was first published
in Woodland Wanderings, 2003.
Further information:
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Ian
Cole, Iain Dawson, Warren Mortlock, and Susan Winder. (2000). Using
Native Grass Seed in Revegetation, FloraBank Guideline 9.
FloraBank, Canberra |
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Cole I & Lunt ID (2005).
Restoring kangaroo grass (Themeda
triandra)
to grassland and woodland understoreys: a review of establishment
requirements and restoration exercises in SE Australia. Ecological
Management and Restoration 6(1), 28-33. |
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Cole I, Lunt ID & Koen T (2005).
Effects of sowing treatment and landscape position on
establishment of the perennial tussock grass Themeda triandra
(Poaceae) in degraded Eucalyptus woodlands in south-eastern
Australia. Restoration Ecology 13(3), 552-561. |
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Cole
I, Lunt ID & Koen T (2004).
Effects of soil disturbance, weed control and mulch treatments on
establishment of Themeda triandra (Poaceae) in a
degraded white box (Eucalyptus albens) woodland in
central New South Wales. Australian Journal of Botany 52(5),
629-637. |
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