Content and changes in dissolved organic matter in meadow and arable soils over time
Abstract
Considering the discrepancies in the reports on seasonal changes in the content of dissolved organic carbon, this paper concerns the research which aimed at defining the content and seasonal changes in dissolved organic matter (DOM) in arable and meadow soils in moderate climate conditions. The research has involved the soils sampled in the kujawsko-pomorskie province (Poland). Gleic Phaeozems (meadow soils), Brunic Arenosols and Eutric Cambisols were sampled from the depth of 0-30 cm, 30-60 cm and 60-100 cm, November 2011 through September 2013. The soil samples were analyzed for dry weight content, pH, content of total organic carbon and total nitrogen. DOM was extracted with 0.004 mol·dm-3 CaCl2, in the extracts the content of dissolved organic carbon (DOC) and dissolved nitrogen (DNt) were assayed. The share of DOC was determined by the soil management. The analysis of variance did not show significant differences in the content of TOC and Nt across the soil sampling dates. Were recorded changes in DOC and DNt between successive sampling dates; for topsoil for DOC – from -12.06% to 13.34% (meadow soils) and for DNt -40.84% to 47.44% (arable soils).
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Chantigny, M.H., 2003. Dissolved and water-extractable organic matter in soils: a review on the influence of land use and management practice. Geoderma, 113: 357–380.
Chapman, P.J., Reynolds, B., Wheater, H.S., 1995. The seasonal variation in soil water acid neutralizing capacity in peaty podzols in mid-Wales. Water Air & Soil Pollution, 85: 1089–1094.
Embacher, A., Zsolnay, A., Gattinger, A., Munch, J.C., 2008. The dynamics of water extractable organic matter (WEOM) in common arable topsoils: II. Influence of mineral and combined mineral and manure fertilization in Haplic Chernozem. Geoderma, 148: 63–69.
Gaelen, N.V., Verschoren, V., Clymans, W., Poesen, J., Govers, G., Vanderborght, J., Diels, J., 2014. Controls on dissolved organic carbon export through surface runoff from loamy agricultural soils. Geoderma, 226: 387–396.
Gonet, S.S., Dębska, B., Pakuła, J., 2002. Content dissolved organic carbon in soils and organic fertilizers (in Polish). PTSH, Wroclaw.
Gonet, S.S., Dębska, B., 2006. Dissolved organic carbon and dissolved nitrogen in soil under different fertilization treatments. Plant Soil and Environment, 52 (2): 55-63.
Haynes, R.J., 2000. Labile organic matter as an indicator of organic matter quality in arable and pastoral soils in New Zealand. Soil Biology and Biochemistry, 32: 211–219.
Jaszczyński, J., Sapek, A., Chrzanowski, S., 2008. Soluble organic carbon in water post-bog habitats (in Polish). Water, Environment - Rural Areas, 1(22): 117–126.
Jokubauskaite, I., Slepetiene, A., Karcauskiene, D., 2015. Influence of different fertilization on the dissolved organic carbon, nitrogen and phosphorus accumulation in acid and limed soils. Eurasian Journal and Soil Science, 4(2): 137–143.
Kalbitz, K., Solinger, S., Park, J.H., Michalzik, B., Matzner, E., 2000. Controls on the dynamics of organic matter in soils: a review. Soil Science, 165: 277–304.
Kusińska, A., Szanser, M., Oktaba, L., 2004. The process of mineralization and humification in mono- and polyspecific litter of meadow ecosystem and the accumulation of humus in the substratum (in Polish). Soil Science Annual, LV (4): 79-84.
McDowell, W., Currie, W.S., Aber, J.D., Yano, Y., 1998. Effects of chronic nitrogen amendments on production of dissolved organic carbon and nitrogen in forest soils. Water Air & Soil Pollution, 105: 175–182.
Nadany, P., Sapek, A., 2004. Differentiation of organic carbon concentration in groundwater in differently used peat soils (in Polish). Water, environment - rural areas, 2b(12): 281–289.
Pezzolla, D., Gizzi, S., Zadra, C., Agnelli, A., Roscini, L., Gigliotti, G., 2013. Changes in the composition of soil dissolved organic matter after application of poultry manure. In: Xu J., Wu J., He, Y (eds.), Functions of Natural Organic Matter in Changing Environment, Dordrecht, Springer.
Qualls, R.G., Haines, B.L., Swank, W.T., 1991. Fluxes of dissolved organic nutrients and humic substances in a deciduous forest. Ecology, 72: 254–266.
Rosa, E., Dębska, B., 2018. Seasonal changes in the content of dissolved organic matter in arable soils. Journal of Soils and Sediments,18: 2703-2714.
Scott, M.J., Jones, M.N., Woof, C., Tipping, E., 1998. Concentrations and fluxes of dissolved organic carbon in drainage water from an upland peat system. Environment International, 24: 537–546.
Singh, S., Dutta, S., Inamdar, S., 2014. Land application of poultry manure and its influence on spectrofluorometric characteristics of dissolved organic matter. Agriculture, Ecosystems & Environment, 193: 25–36.
Staunton, S., Dumat, C., Zsolnay, A., 2002. Possible role of organic matter in radiocaesium adsorption in soils. Journal Environment Radioactivity, 58(2-3): 163–173.
Tipping, E., Woof, C., Rigg, E., Harrison, A.F., Ineson, P., Taylor, K., Benham, D., Poskitt, J., Rowland, A.P., Bol, R., Harkness, D.D., 1999. Climatic influences on the leaching of dissolved organic matter from upland UK moorland soils, investigated by a field manipulation experiment. Environment International, 25: 83–95.
Zsolnay, A., 1996. Dissolved humus in soil waters. In: A. Piccolo (ed.), Humic substances in terrestrial ecosystems. Amsterdam, Elsevier.
DOI: http://dx.doi.org/10.17951/pjss.2019.52.2.183
Date of publication: 2019-11-21 12:59:36
Date of submission: 2018-09-08 16:16:41
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