The soil biological communities are characterized by a higher diversity, by several orders of magnitude, comparedto aboveground biomass, and therefore, this environmental compartment has become one of the last great frontiersin the study of biodiversity. One of the main cause of its high biological diversity is represented by the complexityof the soil pore system, which provides an heterogeneous environment that allows the coexistence of severaldifferent species.The organization of the pore system influences soil flows which, directly or indirectly, affect metabolism,reproduction and ecological interactions of soil fauna. On the other hand one of the most significant effects ofsoil organisms on the soil structure is due to their activity as soil engineers through their burrowing and excretingactivities.Micromorphology has been for long a useful tool for characterizing the interaction between pedofauna andsoil physical properties. The study of soil thin sections provides the opportunity for investigating fauna-soilrelationships since evidence of animal activities such as burrowing and deposition of excrement (fecal pellets)can be identified and quantified. Image analysis techniques allow direct investigations of the soil pore system andprovide valid tools to quantitatively analyze both shape and size distribution of pores.Using a large collection of thin sections from very different soil types, we identified microsites with specific signsof pedofauna activities. Then for each feature produced by biological activity we have investigated pore sizedistribution (PoSD) and we have proved that different organisms produce very different PoSD signals.The outcoming results from this research are (i) the urgent need to better quantify relationships betweensoil biological activity and pores system in different soil types, (ii) the evidence that tests are required to understandingthe influence of specific pedofauna activities over soil structure and consequently on the soil functions.
Soil fauna activity and soil porosity: characterization by micromorphological image analysis.
Gargiulo L;Mele G;
2011-01-01
Abstract
The soil biological communities are characterized by a higher diversity, by several orders of magnitude, comparedto aboveground biomass, and therefore, this environmental compartment has become one of the last great frontiersin the study of biodiversity. One of the main cause of its high biological diversity is represented by the complexityof the soil pore system, which provides an heterogeneous environment that allows the coexistence of severaldifferent species.The organization of the pore system influences soil flows which, directly or indirectly, affect metabolism,reproduction and ecological interactions of soil fauna. On the other hand one of the most significant effects ofsoil organisms on the soil structure is due to their activity as soil engineers through their burrowing and excretingactivities.Micromorphology has been for long a useful tool for characterizing the interaction between pedofauna andsoil physical properties. The study of soil thin sections provides the opportunity for investigating fauna-soilrelationships since evidence of animal activities such as burrowing and deposition of excrement (fecal pellets)can be identified and quantified. Image analysis techniques allow direct investigations of the soil pore system andprovide valid tools to quantitatively analyze both shape and size distribution of pores.Using a large collection of thin sections from very different soil types, we identified microsites with specific signsof pedofauna activities. Then for each feature produced by biological activity we have investigated pore sizedistribution (PoSD) and we have proved that different organisms produce very different PoSD signals.The outcoming results from this research are (i) the urgent need to better quantify relationships betweensoil biological activity and pores system in different soil types, (ii) the evidence that tests are required to understandingthe influence of specific pedofauna activities over soil structure and consequently on the soil functions.File | Dimensione | Formato | |
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