The effects of water potential (psi) on spore germination, germ tube elonga
tion, mycelial growth of Botryosphaeria dothidea, and development of Botryo
sphaeria blight of pistachio caused by this fungus were studied in the labo
ratory and greenhouse. In laboratory tests, spore germination, germ tube el
ongation, and mycelial growth of B. dothidea increased as psi decreased fro
m 0 to -2.0 MPa and declined as psi decreased below -2.0 MPa. Water stress
(psi < -0.260 MPa) increased the severity of Botryosphaeria blight on young
detached pistachio leaves. In greenhouse inoculation experiments, drought-
stressed 2-year-old pistachio trees (leaf <psi> < -0.635 MPa) developed mor
e severe Botryosphaeria blight disease than the nonstressed trees (<psi> >
-0.485 MPa) in both 1999 and 2000 experiments. In a similar experiment usin
g 1-year-old potted pistachio trees in 2000, withholding water treatments d
id not cause enough drought stress in pistachio leaves (psi > -0.584 MPa) a
nd did not result in higher disease than the nonstressed trees (psi = -0.46
6 MPa). The correlation coefficient between psi and disease index for 1999
experiments was 0.954, and for 2000 experiments I and II was 0.981 and 0.93
9, respectively. These results indicate that drought stress can be a major
predisposing factor of pistachio to infection by B. dothidea. Results from
this study can be used to better understand the disease outbreaks in Califo
rnia pistachio orchards and to develop integrated management strategies by
adjusting irrigation.