Seaonal effects of anthills of Camponotus punctulatus on the microbial biomass and activity in a subtropical pasture from Argentina

Gonzalez-Polo, M.; Folgarait, P.J.; Martínez, A.

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Gonzalez-Polo, M.; Folgarait, P.J.; Martínez, A. "Seaonal effects of anthills of Camponotus punctulatus on the microbial biomass and activity in a subtropical pasture from Argentina " (2004) Ecologia Austral. 14(2):149-163

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Abstract:

Ánts are important sources of soil disturbance and have often been considered ecosystem engineers. The physical and chemical changes produced by these insects may affect soil microorganisms. Camponotus punctulatus, a native ant species in Argentina, builds large soil nests called tacurúes, after agriculture disturbance. Soil nutrient concentrations in anthills are greater in comparison to control soils. We hypothesized that the higher concentration of soil nutrients may be due to increased decomposition and mineralization because of the greater abundance and activity of microorganisms in the anthill. We also hypothesized that microbial biomass and activity should be greater at warmer and wet season. We collected six paired soil samples (on and off the anthill) throughout one year at five different times from a sown pasture of Setaria sphacelata in Corrientes, Argentina. At the beginning of each soil-sampling period, we buried litterbags (1 μm mesh) with Setaria sphacelata and removed the buried ones from last sampling period. From soil samples, we quantified microbial biomass by the fumigation-incubation technique, whereas microbial activity was measured by dehydrogenase (total and fungal) and cellulase activity, and microbial decomposition was quantified from litterbags. Principal Components Analysis indicated that anthills were characterized by lower microbial activity at all sample periods throughout the year. However, decomposition was significantly higher in anthills during January-April and April-July, despite a lower microbial activity and biomass. The comparison between total and fungal dehydrogenase activity showed a significantly higher bacterial activity on anthills. Microorganism biomass and activity, as well as decomposition, changed throughout the year according to seasonal variations in temperature and precipitation. The peak of microbial activity was recorded in January, whereas the greatest microbial biomass was observed during the winter months. Decomposition was positively correlated with dehydrogenase and cellulase activity, but negatively correlated with microbial biomass at both microsites. Our results suggest that microbial biomass reflects mainly inactive microorganisms (because of the significant negative correlation with decomposition), whereas dehydrogenase activity is proposed as a good indicator of active soil microbial status. The greater proportion of bacterial activity in the anthill could help to explain (among others possibilities that are discussed) the enhancement of nutrients at this microsite, although more studies are needed in this regard.

Registro:

Documento:	Artículo
Título:	Seaonal effects of anthills of Camponotus punctulatus on the microbial biomass and activity in a subtropical pasture from Argentina
Autor:	Gonzalez-Polo, M.; Folgarait, P.J.; Martínez, A.
Filiación:	Centro de Estudios e Investigaciones, Universidad Nacional de Quilmes, Roque Saénz Peña 180, Bernal 1876, Argentina Dpto. de Biología, Fac. de Cs. Exactas y Nat., Univ. de Buenos Aires, Buenos Aires, Argentina
Palabras clave:	Ants; Litter decomposotion; Northeaster Argentine; Setaria sphacelata; Soil enzymes; microbial activity; Argentina; South America; Western Hemisphere; World; Argentina (fish); Bacteria (microorganisms); Camponotus punctulatus; Formicidae; Hexapoda; Insecta; Setaria sphacelata
Año:	2004
Volumen:	14
Número:	2
Página de inicio:	149
Página de fin:	163
Título revista:	Ecologia Austral
Título revista abreviado:	Ecol. Austral
ISSN:	03275477
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03275477_v14_n2_p149_GonzalezPolo

Referencias:

Alexander, D.B., Bacteria and Archaea (1998) Principles and Applications of Soil Microbiology, pp. 44-71. , DM Sylvia; JJ Fuhrmann; PG Hartel & DA Zuberer (eds). Prentice Hall. Upper Saddle River
Austin, A., Vitousek, P.M., Precipitation, decomposition and litter decomposability of Metrosideros polymorpha in native forests on Hawai'i (2000) J. Ecol., 88, pp. 129-138
Bardgett, R.D., Leemans, D.K., Cook, R., Hobbs, P.J., Seasonality of the soil biota of grazed and ungrazed hill grasslands (1997) Soil Biol. Biochem., 29, pp. 1285-1294
Beare, M., Parmelee, R.W., Hendrix, P.F., Cheng, W., Coleman, D.C., Crossley, D.A., Microbial and faunal interactions and effects on litter nitrogen and decomposition agroecosystems (1992) Ecol. Monogr., 62, pp. 569-591
Brown, M.J.F., Human, K.G., Effects of harvester ants on plant species distribution and abundance in a serpentine grassland (1997) Oecologia, 112, pp. 237-243
Burns, R.G., (1978) Soil Enzymes, , Academic Press. Londres
Carnevalli, R., (1994) Fitogeografía De La Provincia De Corrientes, Argentina, , Gobierno de la provincia de Corrientes-INTA. Corrientes
Couteaux, M.M., Botter, P., Breg, B., Litter decomposition, climate and litter quality (1995) Trends Ecol. Evol., 10, pp. 63-66
Culver, D.C., Beattie, A.J., Effects of ant mounds on soil chemistry and vegetation patterns in a Colorado montane meadow (1983) Ecology, 64, pp. 485-492
Czerwinski, Z., Jakubczyk, H., Petal, J., The in-fluence of ants of the genus Myrmica on the physico-chemical and microbiological properties os soil within the compass of anthills in the Strzeleckie meadows (1969) Polish Journal of Soil Science, 2, pp. 51-58
Czerwinski, Z., Jakubczyk, H., Petal, J., Influence of anthills on the meadow soils (1971) Pedobiologia, 1, pp. 277-285
Dalal, R.C., Soil microbial biomass - What do the numbers really mean? (1998) Aust. J. Exp. Agr., 36, pp. 649-665
Daniel, W.W., (1990) Applied Nonparametric Statistics, , 2da edn. PWS-Kent. Boston
Dauber, J., Wolters, V., Microbial activity and functional diversity in the mounds of three different ant species (2000) Soil Biol. Biochem., 32, pp. 93-99
Dilly, O., Munch, J.C., Microbial biomass content, basal respiration and enzyme activities during the course of decomposition leaf litter in a black alder (Alnus glutinosa (L) Gaertn.) forest (1996) Soil Biol. Biochem., 28, pp. 1073-1081
Eldridge, D.J., Effects of ants on sandy soils in semi-arid Eastern Australia: Local distribution of nest entrance and their effects on infiltration of water (1993) Aust. J. Soil Res., 31, pp. 509-518
Eriksson, K.E.L., Blanchette, R.A., Ander, P., Biodegradation of cellulose (1990) Microbial and Enzymatic Degradation of Wood and Wood Components, pp. 89-180. , KEL Eriksson; RA Blanchette & P Ander (eds). Springer-Verlag. Nueva York
Fioretto, A., Papa, S., Sorrentino, G., Fuggi, A., Decomposition of Cistus incanus leaf litter in a Mediterranean maquis ecosystem: Mass loss, microbial enzyme activity and nutrient changes (2001) Soil Biol. Biochem., 33, pp. 311-321
Folgarait, P.J., Ant biodiversity and its relationship to ecosystem functioning: A review (1998) Biodiv. Conserv., 7, pp. 1221-1244
Folgarait, P.J., Perelman, S., Gorosito, N., Pizzio, R., Fernández, J., Effects of Camponotus punctulatus ants on plant community composition and soil properties across land-use histories (2002) Plant Ecol., 163, pp. 1-13
Frankenberger, W.T., Dick, W.A., Relationships between enzyme activities and microbial growth and activity indices in soil (1983) Soil Sci. Soc. Am. J., 47, pp. 945-951
Gholz, H.L., Wedin, D.A., Smitherman, S.M., Harmon, M.E., Partons, W.L., Long-term dynamics of pine and hardwood litter in contrasting environments: Toward a global model of decomposition (2000) Glob. Change Biol., 6, pp. 751-765
Gonzalez-Polo, M., Variación estacional de la comunidad microbiana y la descomposición vegetal de Setaria sphacelata en hormigueros de Camponotus punctulatus (2001), Tesis de Licenciatura, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires; Grant, R.F., Rochette, P., Soil microbial respiration at different water potentials and temperature: Theory and mathematical modeling (1994) Soil Sci. Soc. Am. J., 58, pp. 1681-1690
Gunadi, B., Verhoef, H.A., Bedaux, J.J.M., Seasonal dynamics of decomposition of coniferous leaf litter in a forest plantation (Pinus merkusii) in Central Java, Indonesia (1998) Soil Biol. Biochem., 30, pp. 845-852
Gupta, V.V.S.R., Roper, M.M., Kirkegaard, J.A., Angus, J.F., Changes in microbial biomass and organic matter levels during the first year of modified tillage and stubble management practices on a red earth (1994) Aust. J. Soil Res., 32, pp. 1339-1354
Ingham, R.E., Trofymow, J.A., Ingham, E.R., Coleman, D.C., Interactions of bacteria, fungi, and their nematode grazers: Effects on nutrient cycling and plant growth (1985) Ecol. Monogr., 55, pp. 119-140
Jakubczyk, H., Czerwinki, Z., Petal, J., Ants as agents of soil habitat changes (1972) Ekol. Pol., 20, pp. 153-161
Jenkinson, D.S., Ladd, J.N., Microbial biomass in soil, measurement and turnover (1981) Soil Biochemistry, pp. 415-472. , EA Paul & JN Ladd (eds). Marcel Dekker. Nueva York
Jenkinson, D.S., Powlson, D.S., The effects of biocidal treatments on metabolism in soil (1976) Soil Biol. Biochem., 8, pp. 209-213
Jones, C.G., Lawton, J.H., Shachak, M., Organisms as ecosystem engineers (1994) Oikos, 69, pp. 373-386
Kristiansen, S.M., Amelung, W., Abandoned anthills of Formica polyctena and soil heterogeneity in a temperate deciduos forest: Morphology and organic matter composition (2001) Eur. J. Soil Sci., 52, pp. 335-365
Lavelle, P., Gilot, C., Fragoso, C., Pashanasi, B., Soil fauna and sustainable land use (1994) Soil Resilience and Sustainable Land Use, pp. 291-308. , I Szabolcs & D Greenland (eds). CAB International. Wallingford
Levan, M.A., Stone, E.L., Soil modification by colonies of black meadow ants in a New York old field (1983) Soil Sci. Soc. Am. J., 47, pp. 1192-1195
Lobry de Bruyn, L.A., Conacher, A.J., The bioturbation activity of ants in agriculture and naturally vegetated habitats in semi-arid environments (1994) Aust. J. Soil Res., 32, pp. 555-570
McCune, B., Mefford, J.M., (1997) Multivariate Analysis of Ecological Data, , Version 3.0. MjM Software Desing. Gleneden Beach
McGingley, M.A., Dhillion, S.S., Neumann, J.C., Environmental heterogeneity and seedling establishment: Ant-plant-microbe interactions (1994) Ecology, 8, pp. 607-615
Meentemeyer, V., Macroclimate and lignin control of litter decomposition rates (1978) Ecology, 59, pp. 465-472
Nkem, J.N., Lobry de Bruyn, L.A., Grant, C.D., Hulugalle, N.R., The impact of ant bioturbation and foraging activities on surrounding soil properties (2000) Pedobiologia, 44, pp. 609-621
Öhlinger, R., Dehydrogenase activity with substrate TTC (1988) Methods in Soil Biology, pp. 241-243. , F Schinner; R Öhlinger; E Kandeler & R Manrgesin (eds). Springer. Berlin
Paris, C.I., La biodiversidad de la mesofauna del suelo de los tacurúes y su rol en la descomposición de Setaria sphacelata (2001), Tesis de Licenciatura, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires; Paul, E.A., Clark, L.E., (1989) Soil Microbiology and Biochemistry, , Academic Press. San Diego
Perego, J., Guía de pasturas tropicales-subtropicales cultivadas para la provincia de Misiones (1996), INTA Centro Regional Misiones-EEA Cerro Azul. Cerro Azul; Purnell, M.F., Hein, N.M., (1969) Los Suelos De La Estación Experimental Agropecuaria De Mercedes, Provincia De Corrientes, , INTA. Concepción del Uruguay
Rogers, B.F., Tate III, R.L., Temporal analysis of the soil microbial community along a toposequence in Pineland soils (2001) Soil Biol. Biochem., 33, pp. 1389-1401
Santos, P.F., Phillips, J., Whitford, W.G., The role of mites and nematodes in early stages of buried litter decomposition in a desert (1981) Ecology, 62, pp. 664-669
Schnürer, J., Clarholm, M., Rosswall, T., Microbial biomass and activity in an agricultural soil with different organic matter contents (1985) Soil Biol. Biochem., 17, pp. 611-618
Shuijin, H., Bruggen, H.C., Efficiencies of chloroform fumigation in soil: Effects of physiological states of bacterias (1998) Soil Biol. Biochem., 30, pp. 1841-1844
Sparling, G.P., Soil microbial biomass, activity and nutrient cycling as indicators of soil health (1997) Biological Indicators of Soil Health, pp. 97-119. , C Pankhurtst; BM Doube & VVSR Gupta (eds). CAB International. Oxon
Toyota, K., Kitz, K., Young, I.M., Survival of bacterial and fungal populations following chloroform-fumigation: Effects of soil matric potential and bulk density (1996) Soil Biol. Biochem., 28, pp. 1545-1547
Vitousek, P.M., Turner, D.R., Parton, W.J., Sanford, R.L., Litter decomposition on the Mauna Loa matrix: Patterns, mechanism, and models (1994) Ecology, 75, pp. 418-429
Vossbrinck, C.R., Coleman, D.C., Woolley, T.A., Abiotic and biotic factors in litter decomposition in a semiarid grassland (1979) Ecology, 60, pp. 265-271
Wardle, D.A., How soil food webs make plants grow (1999) Trends Ecol. Evol., 14, pp. 418-420
Wagner, D., Brown, M.J.F., Gordon, D.M., Harvester ant nests, soil biota and soil chemistry (1997) Oecologia, 112, pp. 232-236

Citas:

---------- APA ----------

Gonzalez-Polo, M., Folgarait, P.J. & Martínez, A. (2004) . Seaonal effects of anthills of Camponotus punctulatus on the microbial biomass and activity in a subtropical pasture from Argentina . Ecologia Austral, 14(2), 149-163.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03275477_v14_n2_p149_GonzalezPolo [ ]

---------- CHICAGO ----------

Gonzalez-Polo, M., Folgarait, P.J., Martínez, A. "Seaonal effects of anthills of Camponotus punctulatus on the microbial biomass and activity in a subtropical pasture from Argentina " . Ecologia Austral 14, no. 2 (2004) : 149-163.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03275477_v14_n2_p149_GonzalezPolo [ ]

---------- MLA ----------

Gonzalez-Polo, M., Folgarait, P.J., Martínez, A. "Seaonal effects of anthills of Camponotus punctulatus on the microbial biomass and activity in a subtropical pasture from Argentina " . Ecologia Austral, vol. 14, no. 2, 2004, pp. 149-163.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03275477_v14_n2_p149_GonzalezPolo [ ]

---------- VANCOUVER ----------

Gonzalez-Polo, M., Folgarait, P.J., Martínez, A. Seaonal effects of anthills of Camponotus punctulatus on the microbial biomass and activity in a subtropical pasture from Argentina . Ecol. Austral. 2004;14(2):149-163.
Available from: https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03275477_v14_n2_p149_GonzalezPolo [ ]