This study investigated the effects of carbon dioxide (CO2) enrichment
and soil water deficit on the water use efficiency (WUE) and growth o
f Sanguisorba minor Scop. (salad burnet) and Anthyllis vulneraria L. (
kidney vetch), growing in controlled environments. Instantaneous WUE (
IWUE) increased in both species in elevated CO2, with a higher average
increase in unwatered (UW) A. vulneraria over the drying cycle. Total
plant WUE of A. vulneraria increased in elevated CO2 and under water
deficit: the UW plants in elevated CO2 had higher WUE and reduced wate
r loss. By contrast, thee was only an effect of water supply on S. min
or: total plant WUE increased and water loss decreased in the UW plant
s in both CO2 treatments. Total apparent root length (ARL) of both spe
cies increased with CO2 enrichment and in UW S. minor total ARL was in
creased. By contrast, for A. vulneraria, total ARL of UW plants increa
sed in ambient CO2, but decreased in elevated CO2 as compared with wel
l-watered (WW) plants. Shoot dry weight (SDW) and root dry weight incr
eased in both species (WW and UW) with CO2 enrichment. For UW S. minor
, SDW decreased relative to WW plants in both CO2 treatments. By contr
ast, ANOVA showed no significant effect of water supply on SDW of A. v
ulneraria. Leaflet length increased in both species in elevated CO2 an
d decreased following drought. Cell wall tensiometric extensibility (%
P) increased in expanding leaves of S. minor in elevated CO2 and for b
oth species %P decreased in the UW plants as compared with those WW. L
eaf water potential (Psi) of both species was lower in growing leaves
of WW plants in elevated CO2. Water deficit reduced the Psi of growing
leaves in both CO2 treatments. The different responses of these speci
es suggest that in a drier, enriched CO2 environment survival in a com
munity might depend on their ability to maintain growth at the same ti
me as conserving water.