Club of bologna proceedings

29
favour leaching in saline soils, or to bre
a
k 
hardpans, etc.; the latter obje
c
tive can be
reached with the use of rippers. When no serious 
problems exist no initial deep ploughing seems 
suitable in soils with good o.m. content in the 
upper layers. When the soil has just been drained 
from a we
t
land, the deeper soil layers have a 
very low redoxy potential and deep ploughing
gives very bad results initially; it would be wiser 
to chisel the soil rather deeply plus a seco
n
dary 
very shallow inverting ploughing (in the following 
years the depth of this plo
u
ghing could be
gradually increased until good soil aeration
throughout the soil profile is reached).
In managing soil tillage, the basic criteria are:
°
to understand which is the best soil status for 
tilling (soil workability); 
°
what to do when the soil is 
n
ot at opt
i
mum 
workability. 
The first question is not the subject of this report; 
it is theoretically one of the most complex
problems, depending on soil moi
s
ture, texture, 
structure, content type and state of soil colloids, 
plasticity, cohesion and adhesi
o
n, working
implements and requir
e
ments for the final seed 
bed. 
Of great interest is the way of tackling inc
i
dental 
unfavourable workability conditions. Very often 
experimental requirements press for the adoption 
of a previously precisely
d 
esigned tillage
programme for each "trea
t
ment"; deviations from 
the scheduled proc
H
dure are however frequently 
imposed by weather conditions and one can face 
contingent problems, reducing the damage to a 
minimum, through reduction of mechanical impact 
(e.g. passing from
d 
eep ploughing to shallow
ploughing or chiselling or discing or sweeping or 
even planting on no
-
tilled soil), provided that an 
increase in
N
-fertilization and herbicide use is 
ensured (see
Fig. 14
). Higher rates of
N 
-
fertilizers and a "stronger" herbicide c
o
ntrol tend 
to suppress differences among tillage methods [8] 
(
Fig. 20
). 
In practice the modern operator feels more free. 
In general, when optimizing an equ
a
tion like n. 1, 
he prefers to choose a suff
i
ciently flexible system 
among those just discussed (this is the reason e.g. 
for the scarce diffusion of the ridge system
outside the USA corn belt). An important aspect 
of this flexibility is to permit adaptation to
different conditions (crop requirements, seasonal 
events, occasional concentration of labour an
d
machinery demand) without an excessive amount 
of costly equipment (like those ne
c
essary for a 
good direct seeding); the chosen system should 
allow to face highest number of conditions
occurring in a given ped
o-
climatic situation. In 
areas where conve ntional ploughing is usually the 
most advisable method, tools for mimimum tillage 
are easily found, since they are also used for 
secondary tillage; in the case of a very rainy
tillage season, shallow tillage without inversion is 
frequently applied, since the s oil upper layers dry 
more easily and quickly to reach wor
k
ability 
conditions. 
Apart from this deterministic evaluation of a
contingent problem, the operator has to face a 
more subtle uncertain aspect: how the weather 
will be in the immediate future, up unt
i
l seeding. 
In some climates there is a high probability of soil 
freezing at least for a few days and down to a 
sufficient depth. This gives the possibility of
delaying any secondary tillage until later, taking 
advantage of its effects; in a warmer climate
the 
fitting of tillage operations into a suitable period 
of the year, soon after or soon before the dry 
season, can be very important (autumn deep
ploughing before a dry winter season exposes to 
the danger of a very rough hard cloddy field, 
difficult to
p 
repare for seeding before next
spring). 
Finally, after flexibility, reliability is an a
t
tractive 
trait. Mean differences in yield among tillage
systems can be negligible, but the spread of
yields around their means can be wide or narrow. 
This implies that 
t
he risk of a relatively lower 
yield in some years can be very different within 
similar mean yields. Even in the case of a normal 
distribution of yields around their means, low

3 0
yields have an asymmetrical economic weight: low 
yields have more important con sequences. For this 
reason the operator (especially one on a small family 
farm and/or in economically under-developed 
agriculture) is prone to choose the system which 
ensures the most stable yield over the years. This 
seems to be one of the reasons for the preference for 
the additional tillage programmes. 

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