Tuesday, 16 January 2001: 9:00 AM
We constructed and analyzed wet and dry soil moisture composites
for the mid-latitude GCIP region of the central US using long climate
model simulations made with the NCAR CCM3 and reanalysis
products from NCEP. Using the diagnostic composites as a guide, we
have completed a series of predictability experiments in which we
imposed soil water initial conditions in CCM3 for the GCIP region
for June 1 from anomalously wet and dry years, with atmospheric
initial conditions taken from June 1 of a year with ‘near-normal’ soil
water; and initial soil water from the near-normal year and
atmospheric initial conditions from the wet and dry years. Preliminary
results indicate that the initial state of the atmosphere is more
important than the initial state of soil water in determining the
subsequent late spring and summer evolution of soil water over the
GCIP region. Surprisingly, neither the composites or the
predictability experiments yielded a strong influence of soil moisture
on the atmosphere. To explore this further, we have made runs with
extreme dry soil moisture initial anomalies imposed over the GCIP
region (the soil close to being completely dry). These runs did yield a
very strong effect on the atmosphere that persisted for at least three
months. We conclude that the magnitude of the initial soil moisture
anomaly is crucial, at least in CCM3, and are currently investigating
whether a threshold exists, below which little impact is seen.
In a complementary study, we compared the impact of the initial condition of snow cover versus the initial atmospheric state over the western US (corresponding to the westward extension of the GAPP program follow-on to GCIP). In this case, the initial prescription of snow cover is far more important than the initial atmospheric state in determining the subsequent evolution of snow cover. We are currently working to understand the very different soil water and snow cover results.
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