Kaly Ouattara, Kolo Yeo, Lombart MM Kouakou, and Wouter Dekoninck (2023)
Ant nests effect on organic matter, carbon, and nitrogen flux in the soil under grasses tufts in Lamto savannah (Côte d’Ivoire)
Agrosystems, Geosciences & Environment, 6( e20374):1-8.
Ants are known to contribute to the physical and chemical improvement of the soil. In
this context, the hypothesis put forward is that ants improve the nitrogen (N) supplementation necessary to ensure the high primary production measured in the Lamto
savannah. Recent investigations in the humid savannah ecosystem showed that ant
nests’ association with perennial grasses enhances their growth, productivity, and
microorganism activity. This study aimed at understanding the effect of ant nests
on organic matter (OM), carbon (C), and N flux beneath grass tufts. Under each
grass tuft chosen to carry out this study, soil samples were taken from the depths of
0–10 cm using an auger at shrubby, clear grassy, and transitional grassy savannah.
The analytical method by incineration of the loss on fire was used to determine the
OM amount. The Kjeldahl method was used to determine the total N amount in the
soil under grass tufts. The results showed that these components’ amount is higher
beneath grass tufts associated with ant nests than those not associated with ant nests.
The presence of ant nests increases OM and C amount in the soil under Hyparrhenia
diplandra tufts than Andropogon schirensis, and Loudetia simplex tufts. In contrast,
N amount is higher under L. simplex tufts than A. schirensis; but mean under H.
diplandra. The carbon/nitrogen ratios less than 10 indicate high OM mineralization
under grass tufts associated with ant nests. This provides the plants with an adequate
supply of nutrients
PDF available, Open Access, Impact Factor, RBINS Collection(s)
- DOI: 10.1002/agg2.20374
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