R. Baxter et al., EFFECTS OF ELEVATED CARBON-DIOXIDE ON 3 GRASS SPECIES FROM MONTANE PASTURE .2. NUTRIENT-UPTAKE, ALLOCATION AND EFFICIENCY OF USE, Journal of Experimental Botany, 45(278), 1994, pp. 1267-1278
Agrostis capillaris L.(4), Festuca vivipara L. and Poa alpina L. were
grown in outdoor open-top chambers at either ambient (340 mu mol mol(-
1) or elevated (680 mu mol mol(-1)) CO2 for periods from 79 to 189 d.
Under these conditions there is increased growth of A, capillaris and
P. alpina, but reduced growth of F. vivipara. Nutrient use efficiency,
nutrient productivity (total plant dry weight gain per unit of nutrie
nt) and nutrient allocation of all three grass species were measured i
n an attempt to understand their individual growth responses further a
nd to determine whether altered nutrient-use efficiencies and producti
vities enable plants exposed to an elevated atmospheric CO2 environmen
t to overcome potential limitations to growth imposed by soil fertilit
y. Total uptake of nutrients was, in general, greater in plants of A.
capillaris and P. alpina (with the exception of N and K in the latter)
when grown at 680 mu mol mol(-1) CO2. In F. vivipara, however, uptake
was considerably reduced in plants grown at the higher CO2 concentrat
ion. Overall, a doubling of atmospheric CO2 concentration had little e
ffect on the nutrient use efficiency or productivity of A, capillaris.
Reductions in tissue nutrient content resulted from increased plant g
rowth and not altered nutrient use efficiency. In P. alpina, potassium
, magnesium and calcium productivities were significantly reduced and
photosynthetic nitrogen and phosphorus use efficiencies were doubled a
t elevated CO2 with respect to plants grown at ambient CO2. F. vivipar
a grown for 189 d showed the most marked changes in nutrient use effic
iency and nutrient productivity (on an extracted dry weight basis) whe
n grown at elevated CO2. F. vivipara grown at elevated CO2, however, s
howed large increases in the ratio of nonstructural carbohydrate to ni
trogen content of leaves and reproductive tissues, indicating a substa
ntial imbalance between the production and utilization of assimilate.