SEASONAL VARIATION IN SOIL STRUCTURE
Reijo Heinonen and Risto Pekkala

Agricultural Research Centre, Department of Soil Science, Helsinki
Received löth April 1954

The seasonal variation in soil structure is important, especially from the point
of view of methodology in physical soil investigations. For, since the aim of these
studies is usually to describe the permanent or slowly changing properties Or the
soil, the effect of seasonal factors on the research material should be eliminated.

Experimental

Three sample plots, each 10 by 10 meters, were chosen from the Viik experi-
mental farm near Helsinki. The soil is clay loam (average texture: 40 per cent
clay, 20 per cent silt 2—20 /*, the rest mainly very fine sand) with about 5 per cent
organic matter. The pH of different plots was as follows; 1. pH 6.9, 2. pH 6.4,
3. pH 5.6. The crop made the main difference between the plots: 1. spring wheat

Fig. 1. Seasonal vara tion in aggregation, total porosity and moisture content of a clav loam topsoil under
spying wheat (plot 1).



with ley seeds undersown, 2. second year clover-timothy ley, 3. fifth year pasture
grass.

The layers o—s cm., 7 —12 cm., and 15—20 cm. of each plot were sampled
five times during the summer of 1949 at about monthly intervals. The sampling
was done with a 50 by 70 mm. cylinder in 8 replicates. The samples were weighed
immediately in the field and later in the air-dry condition. In connection with the
latter weighing, the specific gravity of the soil was determined by a rapid method
f4, p. 77). Wet-sieving analyses were made from the air-dry samples with the
automatic apparatus of Meyer and v. Rennenkampff (5), after 20 minutes’ prelim-
inary soaking. Because of the large number of replicates, the standard error of
the porosity and aggregation analysis presented in figs. 1 to 3 was rather low,
generally below 1 per cent.

Discussion

The total porosity of the topsoil changed up to 10 per cent in a month. Some-
what parallel changes took place in different plots and horizons. Especially in the
7 —12 cm. layer of the grass plots, the total porosity was closely correlated with
the amount of water-stable aggregates and with the moisture content. The total
porosity was generally at a minimum in July—August and at a maximum in the

Fig. 2. Seasonal variation in aggregation, total
porosity and moisture content of a clay loam topsoil

under 2nd year clover-timothy ley (plot 2).

Fig. 3. Seasonal variation in aggregation, total
porosity and moisture content of a clay loam

topsoil under sth year pasture grass (plot 3).

117SEASONAL VARIATION IN SOIL STRI CTURE



end of June and in the autumn. This may, however, be an accidental trend, depend-
ing on the actual moisture conditions only.

Aggregation was throughout the season definitely better in the 5 th year ley
(plot 3) than in the 2 nd year ley (plot 2) or spring wheat (plot 1), but the seasonal
variability was about as great in all, up to 20 per cent in a month. Different aggreg-
ate fractions are internally correlated in plots 1 and 2, while in plot 3 where the
amount of aggregates > 0.5 mm. is over 50 per cent, the fraction 0.5—1 mm. varies
independently of or even inversely with the fraction > 2 mm. Coarser aggregate
fractions are in all plots bigger in the deeper layers than in the surface layer, while
the fraction 0.5—1 mm. is at about the same level in the different layers or decreases
downwards (plot 3).

The effect of field-moisture on the aggregation, as revealed by figures 1 to 3,
is in line with the studies of Gliemeroth (3) and Alderfer (1, 2). Alderfer
(2, p. 195) found in Pennsylvania that an increase in moisture content very rapidly
produced a corresponding increase in aggregation. Within a 24-hour period follow-
ing a gentle 0.75-inch rain, the aggregation > 0.25 mm. of a siltloam soil was
increased approximately 35 per cent.

There is, however, one point in which our results differ distinctly from those
of Alderfer (1). He found that air-drying soil prior to wet-sieving completely
upset the seasonal variation. The maximum aggregation then occurred during the
dry midsummer, and the variation as a whole was much slighter than if assessed
in the field-moist condition. We, on the contrary, found wide seasonal variation
although wet-sieving was only done after air-drying. The effect of air-drying on
aggregation apparently varies under different conditions.

Conclusions

The seasonal variation in porosity and aggregation is so wide that samplings
made at different times are hardly comparable.

The aggregation, as assessed by wet-sieving after air-drying, and porosity are
often directly correlated with soil moisture. Therefore it might be advisable to
bring differently treated soils to a uniform moisture condition (field capacity)
before sampling, if more permanent structural properties are to be compared, and
seasonal effects to be eliminated.

References

(1) Alderfer, R. B. 1946. Seasonal variability in the aggregation of Hagerstown silt loam. Soil Sei.,
62, p. 151—-168.

(2) —)>— 1950. Influence of seasonal and cultural Conditions on aggregation of Hagerstown soil.
Ibid., 69, p. 193—203.

(3) Gliemeroth, G. 1948. Beeinflussung der Krümelung und der Krümeleigenschafttn durch die
Bodenfeuchtigkeit. Z. Acker- u. Pflßau, 91, p. 29—60.

118 REIJO HEINONEN AND RISTO PEKKALA



(4) Heinonen, R. 1954. Multakerroksen kosteussuhteista Suomen maalajeissa. Summary: Moisture
conditions in Finnish topsoils. Agrogeol. Julk., 62, p. I—B2.

(5) Meyer, L, & v. Rennenkampff,- U. 1936. Neuer Apparat und Methode zur automatischen Durch-
führung der Krümelanalyse nach Tjulin und Vorschläge zur Bestimmung des Krümel-
anteils, der Krümelgrössen und der Krümelfähigkeit des Bodens. Z. PflErnähr. Düng.,
43. p. 268 —28U.

SELOSTUS:

MAAN RAKENTEEN KAUSIVAIHTELUSTA

Reijo Heinonen ja Risto Pekkala

M'aatalouskoelaitoksen rnaatutkimusosasto, Helsink

Kolmesta koealasta otettiin kasvukauden 1949 aikana viisi kertaa näytteet, joista määritettiin
nävtteenottohetkellä esiintynyt kokonaishuokostila ja vesitila sekä ilmakuivassa maassa olevien veden-
kestävien murujen määrä. Havaintosarja antoi aiheen seuraaviin päätelmiin.

Kokonaishuokostilan ja muruisuuden kausivaihtelu on niin laajaa, että eri aikoina otettujen näyt-
teiden vertailukelpoisuus on hyvin rajoitettu.

Murujen määrä ja kokonaishuokostila riippuvat usein selvästi maan kosteuspitoisuudesta. Sen
vuoksi on suositeltavaa, että erilaisen käsittelyn saaneet maat saatetaan vakiokosteuteen (kenttä-
kapasiteettiin) ennen näytteenottoa, jos tutkitaan niiden pysyväisluontoisia rakenneominaisuuksia ja
halutaan välttää kausiluontoisten tekijöiden vaikutus.

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119SEASONAL VARIATION IN SOIL STRI CTURE