Revisiting molecular-level research on the impact of fire on soil organic matter: Progresses in the 21st century

Authors

  • J.M. de la Rosa Instituto de Recursos Naturales y Agrobiología de Sevilla, (IRNAS-CSIC), Avenida de la Reina Mercedes, 10. 41012, Sevilla.
  • H. Knicker
  • J.A. González-Pérez
  • F.J. González-Vila
  • N.T. Jiménez-Morillo
  • G. Almendros

DOI:

https://doi.org/10.18172/cig.2527

Keywords:

soil organic matter, wildfire, pyrogenic carbon, fire intensity, soil carbon sequestration.

Abstract

Wildfires represent an important disturbance in many ecosystems, especially in Mediterranean areas. It is well known that forest fires exert dramatic changes in soil organic matter (SOM) quality and quantity that in turn affect relevant and closely related characteristics like soil runoff and erosion response, through changes on factors like soil wettability and aggregation. The effects of severe heating in SOM are highly variable and depend on many interrelated factors. Therefore, SOM content may be impacted from its almost total removal to significant increases as a consequence of external inputs, mainly from forest necromass. Additionally to C losses or exogenous increases, pre-existing C forms in the soil may be transformed into recalcitrant pyrogenic material such as black carbon presumably contributing to the long-term C and N sequestration in soils. This paper presents a practical revision of the progresses during the last decade on the studies of the fire impacts on the SOM. During this period, several analytical methodologies have been improved to characterise molecular changes into the SOM due to fire. Other tools have appeared to predict soil recovery indexes after a wildfire event. On the other hand, recent studies have reported that pyrogenic SOM resulting from fires may be less recalcitrant than previously assumed.

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References

Alexis, M.A., Rumpel, C., Knicker, H., Leifeld, J., Rasse, D., Péchot, N., Bardoux, G., Mariotti, A. 2010. Thermal alteration of organic matter during a shrubland fire: a field study. Organic Geochemistry 41, 690-697.

Almendros, G., Gonzalez-Vila, F.J. 2012. Wildfires, soil carbon balance and resilient organic matter in Mediterranean ecosystems. A review. Spanish Journal of Soil Science 2 (2), 8-33.

Almendros, G., Polo, A., Lobo, M.C., Ibáñez, J. 1984. Contribución al estudio de la influencia de los incendios forestales en las características de la materia orgánica del suelo. II: Transformaciones del humus por ignición en condiciones controladas de laboratorio. Revue d’Ecologie et de Biologie du Sol 21, 145-160.

Almendros, G., Martín, F., González-Vila, F.J. 1988. Effects of fire on humic and lipid fractions in a Dystric Xerochrept in Spain. Geoderma 42, 115-127.

Almendros, G., González-Vila, F.J., Martin, F., Fründ, R., Lüdemann H.D. 1992. Solid state NMR studies of fire-induced changes in the structure of humic substances. Science of the Total Environment 117-118, 63-74.

Almendros, G., Knicker, H., González-Vila, F.J. 2003. Rearrangement of carbon and nitrogen forms in peat after progressive isothermal heating as determined by solid-state 13C- and 15N-NMR spectroscopies. Organic Geochemistry 34, 1559-1568.

Almendros, G., González-Vila, F.J., Knicker, H., Verdejo, T., González-Pérez, J.A., Dettweiler, J.A. 2010. Reappraisal of water-repellence-inducing soil organic material in mineral soils after controlled thermal heating. En Investigación y gestión para la protección del suelo y restauración de los ecosistemas afectados por incendios forestales, Fuegored 2010, Santiago de Compostela, pp. 91-94.

Arias, M.E., González-Pérez, J.A., González-Vila, F.J., Ball, A.S. 2005. Soil health–a new challenge for microbiologists and chemists. International Microbiology 8, 13-21.

Bárcenas-Moreno, G., García-Orenes, F., Mataix-Solera, J., Mataix-Beneyto, J., Baath, E. 2011. Soil microbial recolonisation after a fire in a Mediterranean forest. Biology and Fertility of Soils 47, 261-272.

Barros, N., Salgado, J., Villanueva, M., Rodriquez-Anon, J., Proupin, J., Feijoo, S., Martin-Pastor, M. 2011. Application of DSC-TG and NMR to study the soil organic matter. Journal of Thermal Analysis and Calorimetry 104, 53-60.

Bodí, M.B., Cerdà, A., Mataix-Solera, J., Doerr, S.H. 2012. Repelencia al agua en suelos forestales afectados por incendios y en suelos agrícolas bajo distintos manejos y abandono. Cuadernos de Investigacion Geográfica 38 (2), 53-74.

Bowman, D.M., Boggs, G.S., Prior, L.D., Krull, E.S. 2007. Dynamics of Acacia aneura-Triodia boundaries using carbon (C-14 and delta C-13) and nitrogen (delta N-15) signatures in soil organic matter in central Australia. The Holocene 17, 311-318.

Certini, G. 2005. Effects of fire on properties of forest soils: a review. Oecologia 143, 1-10.

Chandler, C., Cheney, P., Thomas, P., Trabaud, L., Williams, D. 1983. Forest Fire Behavior and Effects. Fire in Forestry, vol I. Wiley, New York, pp 171-202.

Czimczik, C.I., Preston, C.M., Schmidt, M.W.I., Werner, R.A., Schulze, E.D. 2002. Effects of charring on mass, organic carbon, and stable carbon isotope composition of wood. OrganicGeochemistry 33, 1207-1223.

De la Rosa, J.M., Knicker, H. 2011. Bioavailability of N released from pyrogenic organic matter: An incubation study. Soil Biology and Biochemistry 43, 2368-2373.

De la Rosa, J.M., González-Pérez, J.A., González-Vázquez, R., Knicker, H., López-Capel, E., Manning, D.A.C., González-Vila, F.J. 2008a. Use of pyrolysis/GC–MS combined with thermal analysis to monitor C and N changes in soil organic matter from a Mediterranean fire affected forest. Catena 74, 296-303.

De la Rosa, J.M., Lopez Capel, E., González-Vila, F.J., González-Perez, J.A., Manning, D.A.C. 2008b. Direct detection of black carbon in soils by Py-GC/MS, 13C NMR spectroscopy and thermogravimetric techniques. American Journal of Soil Science Society 72, 258-267.

De la Rosa, J.M., González-Pérez, J.A., Knicker, H., López-Capel, E., Manning, D.A.C., González- Vila, F.J. 2009. Structural properties of non combustion derived refractory organic matter which interfere with BC quantification. Journal of Analytical and Applied Pyrolysis 85, 299-308.

De la Rosa, J.M., Varela, M.E., Faria, S.R., González-Vila, F.J., Knicker, H., González-Pérez, J.A., Keizer, J., 2012. Characterization of wildfire effects on soil organic matter using analytical pyrolysis. Geoderma 191, 24-30.

Doerr, S.H., Woods, S.W., Martin, D.A., Casimiro, M. 2009. Natural background’ soil water repellency in conifer forests of the north-western USA: Its prediction and relationship to wildfire occurrence. Journal of Hydrology 37, 12-21.

Fernández, J.M., Plante, A.F., Leifeld, J., Rasmussen, C. 2011. Methodological considerations for using thermal analysis in the characterization of soil organic matter. Journal of Thermal Analysis and Calorimetry 104, 389-398.

Francioso, O., Sánchez-Cortés, S., Bonora, S., Roldán, M.L., Certini, G. 2011. Structural characterization of charcoal size-fractions from a burnt Pinus pinea forest by FT-IR, Raman and surface-enhanced Raman spectroscopies. Journal of Molecular Structure 994, 155-162.

González-Pérez, J.A., González-Vila, F.J., Almendros, G., Knicker, H. 2004.The effect of fire on soil organic matter—a review. Environment International 30, 855-870.

González-Pérez, J.A., González-Vila, F.J., González-Vázquez, R., Arias, M.E., Rodríguez, J., Knicker, H. 2008. Use of multiple biogeochemical parameters to monitor the recovery of soils after forest fires. Organic Geochemistry 39, 940-944.

González-Vila, F.J., Almendros, G. 2013. El controvertido efecto de los incendios: El fuego en el ciclo del carbono en los ecosistemas mediterráneos. En Cuando se quema el bosque. El impacto del fuego en los ecosistemas, Mètode, pp. 83-87.

Guénon, R., Vennetier, M., Dupuy, N., Roussos, S., Pailler, A., Gros, R. 2013.Trends in recovery of Mediterranean soil chemical properties and microbial activities after infrequent and frequent wildfires. Land Degradation and Development 24, 115-128.

Hilscher, A., Knicker, H. 2011.Carbon and nitrogen degradation on molecular scale of grassderived pyrogenic organic material during 28 months of incubation in soil. Soil Biology and Biochemistry 43, 261-270.

Huber, E., Bell, T.L., Adams, M.A. 2013. Combustion influences on natural abundance nitrogen isotope ratio in soil and plants following a wildfire in a sub-alpine ecosystem. Oecologia 173, 1063-1074.

Johnson, D.W., Curtis, P.S. 2001. Effects of forest management on soil C and N storage: metaanalysis. Forest Ecology and Management 140, 227-238.

Kavdır, Y., Ekinci, H., Yüksel, O., Mermut, A.R. 2005. Soil aggregate stability and 13C CP/MASNMR assessment of organic matter in soils influenced by forest wildfires in Çanakkale, Turkey. Geoderma 129, 219-229.

Knicker, H. 2000. Biogenic nitrogen in soils as revealed by solid-state carbon-13 and nitrogen-15 nuclear magnetic resonance spectroscopy. Journal of Environmental Quality 29, 715-723.

Knicker, H. 2007. How does fire affect the nature and stability of soil organic nitrogen and carbon? A review. Biogeochemistry 85, 91-118.

Knicker, H., González-Vila, F.J., Polvillo, O., González-Pérez, J.A., Almendros, G. 2005. Fire-induced transformation of C- and N- forms in different organic soil fractions from a DystricCambisol under a Mediterranean pine forest (Pinus pinaster). Soil Biology & Biochemistry 37, 701-707.

Kuhlbusch, T.A.J.,Crutzen, P.J. 1995. Toward a global estimate of black carbon in residues of vegetation fires representing a sink of atmospheric CO2 and a source of O2. Global Biogeochemical Cycles 9, 491-501.

Lammers, K., Arbuckle-Keil, G., Dighton, J. 2009. FT-IR study of the changes in carbohydrate chemistry of three New Jersey pine barrens leaf litters during simulated control burning. Soil Biology & Biochemistry 41, 340-347.

Lasheras-Álvarez, L., Pérez-Sanz, A., Gil-Romera, G., González-Sampériz, P., Sevilla-Callejo, M., Valero-Garcés, B.L. 2013. History of fire and vegetation in a Holocene sequence of the Central Pyrenees: the Basa de la Mora Lake. Cuadernos de Investigación Geográfica 39, 77-95.

Leifeld, J. 2007. Thermal stability of black carbon characterised by oxidative differential scanning calorimetry. Organic Geochemistry 38, 112-127.

Lützow M.V., Kögel-Knabner, I. Ekschmitt, K. Matzner, E. Guggenberger, G. Marschner, B. Flessa, H. 2006. Stabilization of organic matter in temperate soils: mechanisms and their relevance under different soil conditions – a review. European Journal of Soil Science 57, 426-444.

Martín, A., Díaz-Raviña, M., Carballas, T. 2012. Short- and medium-term evolution of soil properties in Atlantic forest ecosystems affected by wildfires. Land Degradation & Development 23, 427-439.

Moriondo, M., Good, P., Durao, R., Bindi, M., Giannakopoulos, C., Corte-Real, C. 2006. Potential impact of climate change on fire risk in the Mediterranean area. Climate Research 31, 85-95.

Nocentini, C., Certini, G., Knicker, H., Francioso, O., Rumpel, C. 2010. Nature and reactivity of charcoal produced and added to soil during wildfire are particle-size dependent. Organic Geochemistry 41, 682-689.

Parker, J.L., Fernandez, I.J., Rustad, L.E., Norton, S.A. 2001.Effects of nitrogen enrichment, wildfire, and harvesting on forest-soil carbon and nitrogen. Soil Science Society of America Journal 65, 1248-1255.

Pausas, J.G., Llovet, J., Rodrigo, A., Vallejo, R. 2008. Are wildfires a disaster in the Mediterranean basin?–A review. International Journal of Wildland Fire 17, 713-723.

Plante, A.F., Fernández, J.M., Leifeld, J. 2009. Application of thermal analysis techniques in soil science. Geoderma 153, 1-10.

Reeves III, J.B., McCarty, G.W., Rutherford, D.W., Wershaw, R.L. 2008. Mid-infrared diffuse reflectance spectroscopic examination of charred pine wood, bark, cellulose, and lignin: Implications for the quantitative determination of charcoal in soils. Applied Spectroscopy 62, 182-189.

Rovira, P., Romanyà, J., Duguy B. 2012. Long-term effects of wildfires on the biochemical quality of soil organic matter: A study on Mediterranean shrublands. Geoderma 179-180, 9-19.

Rumpel, C., González-Pérez, J.A., Bardoux, G., Largeau, C., Gonzalez-Vila, F.J., Valentín, C.

Composition and reactivity of morphologically distinct charred materials left after slash-and-burn practices in agricultural tropical soils. Organic Geochemistry 38, 911-920.

Saito, L., Miller, W.W., Johnson, D.W., Qualls, R.G., Provencher, L., Carroll, E., Szameitat, P. 2007.

Fire effects on stable isotopes in a Sierran forested watershed. Journal of Environmental Quality 36, 91-100.

Stevenson, F.J. 1994. Humus Chemistry: Genesis, Composition, Reactions. 2nd ed., Wiley, New York.

Tinoco, P., Almendros, G., Sanz, J., González-Vázquez, R., González-Vila, F.J. 2006. Molecular descriptors of the effect of fire on soils under pine forest in two continental Mediterranean soils. Organic Geochemistry 37 (12), 1995-2018.

Vega, J.A., Fontúrbel, T., Merino, A., Fernández, C., Ferreiro, A., Jiménez, E. 2013. Testing the ability of visual indicators of soil burn severity to reflect changes in soil chemical and microbial properties in pine forests and shrubland. Plant and Soil 369, 73-91.

Villar, M.C., Petrikova, V., Díaz-Raviña, M., Carballas, T. 2004. Changes in soil microbial biomass and aggregate stability following burning and soil rehabilitation. Geoderma 122, 73- 825 Wander, M. 2004. Soil organic matter fractions and their relevance to soil function. En Soil organic matter in sustainable agriculture, RM. Magdoff, R.R. Weil (eds.), CRC Press, Boca Raton, Florida.

Wiesenberg, G.L.B., Lehndorff, E., Schwark, L. 2009. Thermal degradation of rye and maize straw: Lipid pattern changes as a function of temperature. Organic Geochemistry 40, 167- 174.

Published

07-03-2014

How to Cite

1.
de la Rosa J, Knicker H, González-Pérez J, González-Vila F, Jiménez-Morillo N, Almendros G. Revisiting molecular-level research on the impact of fire on soil organic matter: Progresses in the 21st century. CIG [Internet]. 2014 Mar. 7 [cited 2024 Mar. 29];40(2):387-402. Available from: https://publicaciones.unirioja.es/ojs/index.php/cig/article/view/2527