The variation in bulk density value

The variation in bulk density values between the different green
space soils was small (Table 3), and neither the green space types nor
soil depth had a significant effect on bulk density (Table 2). The mean
value for bulk density ranged from 1.24 to 1.32 g/cm3 at 0–0.1 m and
from 1.25 to 1.39 g/cm3 at 0.1–0.3 m (Table 3). Generally, the bulk
density of the upper layers of soil is lower than in the subsoil because
i) the upper horizons include litter and humus fromthe trees present
and ii) of the effect of the weight of the topsoil compacting the
deeper soil. In Anji, the green space soils were largely composed of
backfill and the usual soil layers had been changed. Moreover,
there was a lack of humus accumulation in upper soil horizons of
the green space soils. Most of all, the STREET and PROT top soils are
frequently trodden on by pedestrians, which leads to the upper
layer soil becoming more compact. In Anji, the bulk density values
of natural soils are 0.62 g/cm3 and 0.67 g/cm3 at 0–0.15 m and
0.15–0.2 mrespectively (Zhejiang Soil Survey, 1993), and are obviously
lower than any of those for the green space soils. According to the USDA
standard, plant root growth is affected when the bulk density of sandy
clays reaches 1.49 g/cm3 (Soil Quality Test Kit Guide, 2001). The bulk
density of the green space soils was lower than this value except for
the maximum value observed at the 0–0.1 m depth for the STREET
soil (Table 2). The ideal bulk density is considered to be less than
1.10 g/cm3 for plant root growth (Soil Quality Test Kit Guide, 2001).
Thus, the bulk density of the green space soils did not appear to affect
plant root growth, but it was not very suitable due to limitations in
moisture holding capacity, aeration and drainage (Jim, 1998).