St. Collinson et al., RELATIVE IMPORTANCE OF AIR AND FLOODWATER TEMPERATURES ON THE DEVELOPMENT OF RICE (ORYZA-SATIVA), Experimental Agriculture, 31(2), 1995, pp. 151-160
Plants of rice (Oryza sativa) cultivar IR36 were grown under flooded a
nd free-draining conditions at a constant air temperature of 28 degree
s C with an 11.5 h d(-1) photoperiod in both a growth cabinet and a gl
asshouse. The nutrient solution within flooded pots was maintained at
20 degrees, 24 degrees or 28 degrees C, or was not controlled. Rate of
floral development was enhanced by warmer nutrient solution temperatu
res at the same air temperature; times to panicle emergence were reduc
ed by an average of 17 d with increase in the nutrient solution temper
ature from 20 degrees to 28 degrees C. In comparable treatments, plant
s grown in the growth cabinet reached panicle emergence later than tho
se grown in the glasshouse, possibly because mean air temperature was
on average 0.8 degrees C cooler in the growth cabinet. An independent
model, derived from a previous investigation, provided a good predicti
on of the times from sowing to panicle emergence for plants grown in b
oth the glasshouse and the growth cabinet when based on the mean of th
e temperatures of the nutrient solution and the air, showing that it i
s important to determine water/root temperature as well as air tempera
ture when investigating the effect of environment on development of th
e rice plant.