Ja. Lyttonhitchins et al., THE SOIL CONDITION OF ADJACENT BIODYNAMIC AND CONVENTIONALLY MANAGED DAIRY PASTURES IN VICTORIA, AUSTRALIA, Soil use and management, 10(2), 1994, pp. 79-87
Physical and chemical properties were compared during 1992 in adjacent
bio-dynamic and conventionally managed Haploxeralfs under improved, s
ummer-irrigated pastures in the Goulburn Valley of N.E. Victoria. Inte
nsive dairy production has been practised on both the farms since the
early 1950s, and aspects of the bio-dynamic method have been practised
on one farm for the past 18 years. Particle-size analysis showed that
the soil profiles of each field are derived from similar parent mater
ials. The bio-dynamic soil had greater macro-porosity to a depth of at
least 420 mm, lesser soil strength at 60, 120 and 200 mm, smaller dry
bulk density values between 120 and 200 mm and larger organic matter
content in the upper 50 mm. Volumetric soil water content measured alo
ng three transects to a depth of 1.4 m in the summer showed that the b
io-dynamic field was drier at depths greater than 200 mm. After heavy
rains during the winter, the conventionally managed soil had an air-fi
lled porosity unfavourable for plant roots (2%) at 200 mm depth, where
as the bio-dynamic soil was marginal for root growth (7%). The more fa
vourable physical and chemical properties in the bio-dynamic soil may
be attributed to less grazing pressure, longer intervals between irrig
ations, use of the bio-dynamic horn-manure preparation, intermittent c
ompost applications, less tractor traffic and the encouragement of tal
ler pasture growth.