New Zealand Journal of Agricultural Research abstracts
A practical model for predicting soil water deficit in New Zealand pastures
S. J. R. WOODWARD
AgResearch
Ruakura Research Centre
Private Bag 3123
Hamilton, New Zealand
Email: simon.woodward@agresearch.co.nz
D. J. BARKER
AgResearch
Grasslands Research Centre
Private Bag 11008
Palmerston North, New Zealand
R. F. ZYSKOWSKI
Applied Management and Computing Division
P.O. Box 84
Lincoln University
Canterbury, New Zealand
Abstract Soil water is the single most important resource for
pasture and crop production in New Zealand farms. Because soil water is
difficult to measure, however, the ability to predict soil water status from
daily weather data is valuable, and has application for on-farm irrigation,
stocking, and supplementation decisions. In this paper a practical water
balance model is presented. The model uses daily rainfall and potential
evapotranspiration (PET) estimates to predict changes in the water
content in two overlapping soil zones: a rapidly recharged (and depleted) zone
of unspecified depth, and the total plant rooting zone. The use of two zones
improves predictions of actual evapotranspiration and plant stress compared
with models that use only one zone. An important factor determining the success
of soil water models is the ability to predict actual evapotranspiration,
AET. In this model actual evapotranspiration, AET, is calculated
as the lesser of potential evapotranspiration, PET, and total readily
available water (RAW) per day. RAW is defined as all of the water
in the rapidly recharged surface zone plus a proportion of the water in the
remainder of the soil profile. By validation against 11 historical data sets,
the model is shown to give accurate predictions of soil water deficit across a
range of New Zealand flat-land pastoral soils. The model parameters can be
easily estimated from commonly available soil properties (soil order
classification, and available water holding capacity) without the need for
additional site-specific calibration. This model provides an easily used,
practical decision tool for the management of drought, allowing early
prediction of decline in pasture growth and estimates of required irrigation.
Keywords soil water deficit; mathematical model; dynamical
system; available water holding capacity; actual evapotranspiration
New Zealand Journal of Agricultural Research, 2001, Vol. 44: 91-109
0028-8233/01/4401-0091 $7.00/0 (c) The Royal Society of New Zealand
2001
PDF file of entire paper: medium quality (1244K); (scanned from paper original: notes about this process)
This year's abstracts |
Journal home page |
All abstracts |
Publishing home page
