Abstract:
Rice can be considered as the staple food for more than 50% of the world’s population.
However, production levels have rigorously dropped due to the unprecedented droughts
and water restrictions. According to the future climate change projections, increased
temperatures along with elevated C0 2 and reduction in water availability (due to reduced
rainfall) can cause serious threats to future rice production in Australia. Therefore, this
study evaluates the effect on rice water components (actual crop water use) with the
elevated temperature and C0 2 concentration of future rice production in Australia using
APSIM-Oryza model at two different ag'ro climatic regions in Australia.
Four rice varieties from two different climatic zones with five temperature and rainfall
levels were simulated according to the five different C0 2 concentrations. Three rice varieties
used at Riverina (in South-Eastern Australia in Temperate/Mediterranean summer
climatic region) were Amaroo, Langi, and Quest, representing late, mid and early maturity
types respectively. However, only one variety (IR72) was used for the Kununurra region in
Western Australia in Tropical hot and humid summer zone.
Five incremental changes of temperature o (base), +1, +2, +3, +4 °C with a combination
of five rainfall changes (+10, 0, -10, -20, and -30%) were in the simulation to
represent the range of projected climatic changes in Australia over the next 60 years. The
total number of future climate scenarios considered for this simulation were 25. The corresponding
C0 2 concentrations associated with above temperature levels in this study
were 380, 435, 535, 640 and 750 ppm. Actual crop water use was increased in var. Quest,
Langi, Amaroo and IR72 by 7.17%, 8.47%, 6.9% and 39.6% respectively along with the total
irrigation demand of rice to compensate the decline in rainfall with increased temperature
at both sites. Higher increase in crop water use was in var.IR72. Riverina region has
relatively higher potential to cope with future climatic changes than Kununurra region. In
Kununurra region predicted crop water use is comparatively higher than the rice varieties
in Riverina region.