Abstract
Patagonian meadows are key for the development and sustainability of rural environments. However, they have been degraded due to a combination of weather conditions and overgrazing. Total soil organic carbon (TOC) has been found as a moderate indicator of meadow soil degradation by long-term heavy grazing. The aim of this study was to evaluate the particulate organic carbon (POC) (a more labile fraction of the soil organic matter) as an ecological indicator for assessing soil changes in natural Patagonian meadows, related to different long-term grazing managements. We worked in three locations along a precipitation gradient in Northern Patagonia. Each location has wet and mesic meadows with good and poor grassland condition, attributed to two long-term grazing pressures (light and heavy). We sampled soil throughout the plant-growing season following the natural soil moisture fluctuations, and quantified the POC content, the POC:TOC ratio, and the F>53 proportion. Along the different sampling dates, significant differences between good versus poor grassland condition were found in many cases in POC, a few in POC:TOC ratio, and none in F>53 proportion. The POC varies over time, in association with changes in the soil moisture (adjusted R2 vary between 0.76 and 0.99); therefore, the sampling date must be standardized (we recommend dry periods). The POC appears to be a sensitive indicator when assessing the effect of different soil management practices on soil quality, an important step for meadow conservation, restoration and sustainable use, but further research is needed to validate this exploratory study.
Similar content being viewed by others
Explore related subjects
Discover the latest articles, news and stories from top researchers in related subjects.References
Aguiar ADCF, Cândido CS, Carvalho CS et al (2013) Organic matter fraction and pools of phosphorus as indicators of the impact of land use in the Amazonian periphery. Ecol Indic 30:158–164
Archontoulis SV, Miguez FE (2015) Nonlinear regression models and applications in agricultural research. Agron J 107:786–798
Bastida F, Zsolnay A, Hernández T, García C (2008) Past, present and future of soil quality indices: a biological perspective. Geoderma 147:159–171
Bestelmeyer BT, Moseley K, Shaver PL et al (2010) Practical guidance for developing state-and-transition models. Rangelands 32:23–30. doi:10.2111/RANGELANDS-D-10-00077.1
Bonvissuto G, Somlo RC, Lanciotti ML et al (2008) Guías de condición para pastizales naturales de “Precordillera”, “Sierras y Mesetas” y “Monte Austral” de Patagonia. Ediciones INTA -EEA Bariloche, Argentina
Bran D, López C, Marcolín A et al (1998) Valles y mallines de la comarca de Ingeniero Jacobacci (Río Negro). Distribución y tipificación utilitaria. Proyecto de investigación estratégica: generación de tecnología para el aprovechamiento de mallines. Módulo I- Relevamiento, cartografía, clasificación y caracterización, Instituto Nacional de Tecnología Agropecuaria (INTA), Argentina
Buono G, Oesterheld M, Nakamatsu V, Paruelo J (2010) Spatial and temporal variation of primary production of Patagonian wet meadows. J Arid Environ 74:1257–1261
Cambardella C, Elliott E (1992) Particulate soil organic-matter changes across a grassland cultivation sequence. Soil Sci Soc Am J 56:777–783
Cambardella C, Gajda A, Doran J et al (2001) Estimation of particulate and total organic matter by weight loss-on-ignition. In: Lal R et al (eds) Assessment methods for soil carbon. Lewis Publisher, Boca Raton, pp 349–359
Chimner RA, Bonvissuto GL, Cremona MV et al (2011) Ecohydrological conditions of wetlands along a precipitation gradient in Patagonia, Argentina. Ecol Austral 21:329–337
Dale VH, Beyeler SC (2001) Challenges in the development and use of ecological indicators. Ecol Indic 1:3–10
Daubenmire R (1959) A canopy-coverage method of vegetational analysis. Northwest Sci 33:43–64
de Figueiredo CC, Resck DVS, Carneiro MAC (2010) Labile and stable fractions of soil organic matter under management systems and native cerrado. Rev Bras Ciênc Solo 34:907–916
de Sousa RF, Brasil EPF, de Figueiredo CC, Leandro WM (2015) Soil organic matter fractions in preserved and disturbed wetlands of the Cerrado biome. Rev Bras Ciênc Solo 39:222–231
Del Valle H, Elissalde N, Gagliardini D, Milovich J (1998) Status of desertification in the Patagonian region: assessment and mapping from satellite imagery. Arid Land Res Manag 12:95–121
Eldridge DJ, Delgado-Baquerizo M, Travers SK et al (2016) Do grazing intensity and herbivore type affect soil health? Insights from a semi-arid productivity gradient. J Appl Ecol 54:976–985. doi:10.1111/1365-2664.12834
Enriquez AS, Chimner RA, Cremona MV et al (2015) Grazing intensity levels influence C reservoirs of wet and mesic meadows along a precipitation gradient in Northern Patagonia. Wetl Ecol Manag 23:439–451
Franzluebbers A, Stuedemann J (2002) Particulate and non-particulate fractions of soil organic carbon under pastures in the Southern Piedmont USA. Environ Pollut 116:S53–S62
Gaitán JJ, Bran DE, Murray F (2007) Efecto de la severidad de quemado sobre la concentración de carbono orgánico en montículos e intermontículos en el monte austral. Ciencia del Suelo 25:53–63
Galantini JA, Suñer L (2008) Las fracciones orgánicas del suelo: análisis en los suelos de la Argentina. Agriscientia 25:41–55
García Martínez G (2005) Cambios edáficos asociados al pastoreo ovino en la estepa patagónica, Distrito Occidental. Facultad de Agronomía, Universidad de Buenos Aires (UBA)
Irisarri JGN, Oesterheld M, Paruelo JM, Texeira MA (2012) Patterns and controls of above-ground net primary production in meadows of Patagonia. A remote sensing approach. J Veg Sci 23:114–126
Janzen H, Larney F, Olson B (1992) Soil quality factors of problem soils in Alberta. In: Proceedings of the 29th annual alberta soil science workshop, Lethbridge, AB, pp 17–28
Jobbágy EG, Paruelo JM, León RJ (1995) Estimación del régimen de precipitación a partir de la distancia a la cordillera en el noroeste de la Patagonia. Ecol Austral 5:47–53
Koutika L-S, Hauser S, Henrot J (2001) Soil organic matter assessment in natural regrowth, Pueraria phaseoloides and Mucuna pruriens fallow. Soil Biol Biochem 33:1095–1101
Liu M, Ussiri DA, Lal R (2016) Soil organic carbon and nitrogen fractions under different land uses and tillage practices. Commun Soil Sci Plant Anal 47:1528–1541
Lopez DR, Cavallero L, Brizuela M, Aguiar MR (2011) Ecosystemic structural–functional approach of the state and transition model. Appl Veg Sci 14:6–16
López C, Gaitán J, Ayesa J et al (2005) Evaluación y clasificación de valles y mallines sudoeste de Río Negro. Area Recur Nat Relev Integrado INTA EEA Bariloche Comun Téc 97:1–27
Loss A, Pereira MG, Perin A et al (2013) Particulate organic matter in soil under different management systems in the Brazilian Cerrado. Soil Res 50:685–693
Manley J, Schuman G, Reeder J, Hart R (1995) Rangeland soil carbon and nitrogen responses to grazing. J Soil Water Conserv 50:294–298
Motta AC, Wayne Reeves D, Burmester C, Feng Y (2007) Conservation tillage, rotations, and cover crop affecting soil quality in the Tennessee valley: particulate organic matter, organic matter, and microbial biomass. Commun Soil Sci Plant Anal 38:2831–2847
Motulsky H, Christopoulos A (2004) Fitting models to biological data using linear and nonlinear regression: a practical guide to curve fitting. Oxford University Press, New York
Programme des Nations Unies pour l’environnement (2011) Towards a green economy: pathways to sustainable development and poverty eradication. United Nations Environment Programme
Six J, Conant R, Paul EA, Paustian K (2002) Stabilization mechanisms of soil organic matter: implications for C-saturation of soils. Plant Soil 241:155–176
Sparks DL, Page A, Helmke P et al (1996) Methods of soil analysis. Part 3-Chemical methods. Soil Science Society of America Inc, Madison
Videla LS, Rostagno CM, Toyos MA (2008) La materia orgánica particulada: comparación de métodos para su determinación y su valor como indicador de calidad de suelos del Chubut. Cienc Suelo 26:219–227
Walkley A, Black IA (1934) An examination of the Degtjareff method for determining soil organic matter, and a proposed modification of the chromic acid titration method. Soil Sci 37:29–38
Willis B (1914) El norte de la Patagonia, Naturaleza y Riquezas, Tomo I. de la Comisión de Estudios Hidrológicos
Acknowledgements
We thank Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Ministerio de Agricultura, Ganadería e Innovación de la Provincia del Chubut, and Instituto Nacional de Tecnología Agropecuaria (INTA) [Grant number: PATNOR-810342] for jointly funding this work. We thank San Ramón Ranch and the Juanita Ranch for granting permission to conduct this study at their properties. We also thank Dr. Paula Casanovas for discussions and comments on an earlier version of the manuscript.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
The authors declare that they have no conflict of interest.
Rights and permissions
About this article
Cite this article
Enriquez, A.S., Cremona, M.V. Particulate organic carbon is a sensitive indicator of soil degradation related to overgrazing in Patagonian wet and mesic meadows. Wetlands Ecol Manage 26, 345–357 (2018). https://doi.org/10.1007/s11273-017-9577-4
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11273-017-9577-4