Effects of Climate Variability and Change on Groundwater Impacts of
Forestry Plantations
Abstract
Quantifying water use of various water consumers is an essential part of
sustainable water management. Annual evapotranspirartion (ET) of
plantation forests often exceeds that of dryland agriculture, which in
South Africa and South Australia has resulted in restrictions on
plantation development. In the latter case, water licenses are issued to
commercial forestry plantations to account for higher ET compared to
dryland pasture. Unlike irrigated crops, it is not practicable to
measure water use of plantations directly and so a set of ‘deemed’
average water use rates has been applied based on species and depth to
groundwater. Since the ‘deemed’ rates were calculated in 2013,
additional plot-scale measurements of annual ET from plantations
< 2 years old and post-canopy closure have been used to
quantify various components of evapotranspiration (ET). This has enabled
development of two empirical ET models for plantations in the region,
and facilitated an advanced understanding of the effect of plantations
on hydrological processes, particularly in relation to groundwater use.
In this study, we applied these models to estimate rotation-averaged
annual ET and net groundwater impacts (net groundwater extraction plus
recharge reduction compared to pasture) of plantations, driven by
climate and groundwater depth, for comparison with the deemed rates. The
modelling suggests that the groundwater impacts of plantations vary in
space and time and that the deemed rates over-estimate these impacts, on
average. Accounting for variation in the effects of climate on the
various components of ET, both spatially and temporally, may allow for
more flexible rules for water resource allocation than using the current
rule-of-thumb approach.