Ok. Atkin et al., THE RELATIONSHIP BETWEEN THE RELATIVE GROWTH-RATE AND NITROGEN ECONOMY OF ALPINE AND LOWLAND POA SPECIES, Plant, cell and environment, 19(11), 1996, pp. 1324-1330
This study investigates the nitrogen economy of six altitudinally cont
rasting Poa species which differ in their relative growth rate (R). Tw
o alpine (Poa fawcettiae and P. costiniana), one sub-alpine (P. alpina
) and three temperate lowland species (P. pratensis, P. compressa and
P. trivialis) were grown hydroponically under identical conditions in
a growth room. The low R exhibited by the alpine species mas associate
d with lower plant organic nitrogen concentration (n(P)) and lower nit
rogen productivity (Pi(P), amount of biomass accumulation per mol orga
nic nitrogen and time). The differences in Pi(P) between the alpine an
d lowland species did not appear to be due to differences in the carbo
n concentration or the proportion of total plant organic nitrogen allo
cated to the leaves, stems or roots. Variations in Pi(P) were also not
due to variations in photosynthetic nitrogen use efficiency (Phi(N),
the rate of photosynthesis per unit organic leaf nitrogen) or shoot or
root respiration rates per unit organic nitrogen (Gamma(SH) and Gamma
(R), respectively) per se. Rather, the lower Pi(P) in the alpine speci
es was probably due to a combination of small variations in several of
the parameters (e.g. slightly lower Phi(N), slightly higher Gamma(SH)
, and Gamma(R), and slightly higher proportions of total plant organic
nitrogen allocated to the roots). The alpine species exhibited lower
organic acid and mineral concentrations. However, no differences in wh
ole-plant construction costs (grams of glucose needed to synthesize on
e gram of biomass) were observed between the alpine and lowland Poa sp
ecies. The lack of substantial differences in Phi(N) between the alpin
e and lowland species contracts with the large differences in Phi(N) b
etween slow- and fast-growing lowland species that have been reported
in the literature. The reasons for the unusually high Phi(N) values ex
hibited by the alpine Poa species are discussed.