From p 6
Managing the salinisation process will
involve treating the cause, ameliorating
the symptoms, or a combination of both.
While it is popular to promote use of
salinised land for agriculture, it must be
understood that unless the cause of the
salinisation is brought under control, the
land and its associated water resources
will continue to salt. Salt will continue to
be delivered to the water and
accumulate in the land.
Once the salinisation process is under
way, it is extremely difficult to slow, halt
or reverse it to protect water and land
resources. Preventing salinity is thus a
far better investment than any attempt
at control or management.
Few of our current farming systems can
significantly reduce recharge (water
leaking through to groundwater) to levels
similar to those that existed under natural
vegetation. To be effective, recharge
reduction must yield leakage rates similar
to native vegetation and occupy
approximately 40 per cent of a catchment
or landscape. This requires a revolution
in land use.
The need, market forces and opportunity
for a change in land use in rural Australia
are upon us. 'Business as usual' is not
an option, but what are the options for
change?
No single land-use option will halt the
growth of salinity and the loss of native
biodiversity in our land and rivers. We
need to develop and deploy a suite of
novel land uses that are matched to the
diverse climate, soils, and hydrological
conditions of the areas in which they are
deployed. These land uses, in
combination, need to deliver leakage
rates past the root zone that approach
those of natural vegetation. This will
require radical change to land use,
incorporating:
- The development of commercially
driven tree production systems and/
or novel tree species for large areas
of current crop and pasture zones.
These would include trees to
|
|
|
produce fruits, nuts, oils,
pharmaceuticals, bush foods and
forestry products such as specialty
timbers, charcoal, and biomass
energy.
|
- New farming systems comprising
novel mixes of all the best current
annual and perennial plants, the best
agronomy, companion plantings,
rotations and combinations.
- New forms of cereals, pulses,
oilseeds and forages selected or
bred for characteristics that
substantially reduce deep drainage
and nitrogen leakage.
- Refined land assessment tools that
best locate native vegetation, tree
crops, other perennial plants, and
high-value annuals to meet water
quantity and quality targets, and
biodiversity goals.
Devising the optimal placement of these
land uses in terms of salinity control,
productivity and maintenance of native
biodiversity will require a robust
understanding of landscape process and
function, and good maps of landscape
properties, particularly salt storage and
groundwater flow.
While a vision for the new industries and
prospective land uses is emerging, many
of the components described above do
not yet exist. A substantial new R&D
effort is needed that tackles the redesign
of farming and forestry systems and their
integration into the landscape as a whole.
This needs to combine biophysical and
economic studies that deliver novel
designs well matched to soil, climate and
catchment circumstances. These include
biodiversity; on-farm measurement and
improved land assessment techniques;
modern genetic improvement techniques;
and a participatory process that engages
community and land managers.
|
Disclaimer
T
he views and opinions expressed in
articles or letters in this Newsletter
are not necessarily the views of Sustainable
Population Australia Inc.
|
|
AGM
NSW Branch
Sat 27th Oct, 10.00 am
Conference Room
Radiology Section
Royal North Shore Hospital,
Pacific Hwy, St Leonards Sydney
(Emergency Building; go to X-Ray
Dept, Level 2; look for SPA signs)
|
Australian Demographic
Stats 3101.0 (from ABS)
T
he estimated resident population of
Australia at December 2000 was
19,277,100 persons, an increase of
225,100 from the previous December.
Natural increase in that time was
120,600, 900 less than the previous year.
Preliminary net overseas migration
(NOM) was 104,500 in the year ending
December 2000, compared with 88,400
the previous year. Over the last 20 years,
Australia has gained, on average, 99,300
permanent settlers each year, off-set by
a permanent departure average of
26,400 annually.
Queensland recorded the highest growth
of 1.7%, Tasmania the lowest at - 0.1%.
The national fertility rate was 1.742,
down from 1.757 the previous year. The
high 2.193 in the N T, the low 1.580 in
the ACT.
The proportion of settlers arriving on Skill
Migration visas has increased to 62 per
cent from around 20 per cent in the
1980s. This was partly due to the
introduction of a new Skill category
three years ago that replaced the
Concessional Family Category.
Over the past 20 years, the number of
long-term visitor arrivals increased four
fold to 133,200 in 1999-2000.
� � �
|
