S. Harris et W. Silvester, ACETYLENE-INDUCED AND ARGON-INDUCED DECLINES IN NITROGENASE ACTIVITY IN CORIARIA-ARBOREA, Soil biology & biochemistry, 26(5), 1994, pp. 641-648
When assayed in a continuous flow system, 4-month-old Coriaria arborea
plants underwent a decline in nitrogenase activity and nodule respira
tion upon exposure to acetylene (C2H2) (10 kPa). Neither nitrogenase n
or respiratory activity was recovered following initial exposure and i
nstead a new equilibrium level was reached. It is suggested C2H2-induc
ed declines in Coriaria can be explained by a variable nodule diffusio
n resistance mechanism. The size of the decline in nitrogenase activit
y was reduced with increasing plant age such that 12-month old plants
had a barely detectable decline. Prior adaptation to non-atmospheric p
O2 concentrations also affected the size of the decline. At 35 kPa O2
the decline was Significantly smaller than at 21 kPa O2 but at 12 kPa
O2 the extent of the decline was greater. Both the effect of plant age
and pO2 on the C2H2-induced decline offer support to the operation of
a variable diffusion resistance mechanism. Coriaria also underwent a
decline in respiratory activity when Ar replaced N2 in the assay gas s
tream. Lag-phase measurements showed the Ar-induced decline was accomp
anied by an increase in nodule diffusion resistance.