This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
BECHER M. 2013. Properties of organic matter of soil fertilised with spent mushroom (Agaricus L.) Substrate. Acta Agrophysica 20, 2: 241–252.BECHERM.2013Properties of organic matter of soil fertilised with spent mushroom (Agaricus L.) SubstrateActa Agrophysica202241252Search in Google Scholar
BECHER M., PAKUŁA K. 2014. Nitrogen fraction in spent mushroom substrate. Journal of Elementology 19, 2: 947–958. DOI: 10.5601/jelem.2014.19.2.330.BECHERM.PAKUŁAK.2014Nitrogen fraction in spent mushroom substrateJournal of Elementology19294795810.5601/jelem.2014.19.2.330Open DOISearch in Google Scholar
BEDNAREK W., RESZKA R. 2008. Influence of liming and mineral fertilization on the content of mineral nitrogen in soil. Journal of Elementology 13, 3: 301–308.BEDNAREKW.RESZKAR.2008Influence of liming and mineral fertilization on the content of mineral nitrogen in soilJournal of Elementology13330130810.2478/v10081-009-0023-zSearch in Google Scholar
CZEKAŁA J. 2010. Impact of long-term plant cultivation without participation of cereals on concentrations of nitrogen forms in soil humus horizons. Journal of Research and Applications in Agricultural Engineering 55, 3: 49–53. (in Polish)CZEKAŁAJ.2010Impact of long-term plant cultivation without participation of cereals on concentrations of nitrogen forms in soil humus horizonsJournal of Research and Applications in Agricultural Engineering5534953(in Polish)Search in Google Scholar
DUGGAN J.T., MCCABE T., HENNERTY M.J., MAHER M.J. 1998. Can spent mushroom compost be used as a crop nutrient source. Kinsealy Research Report 9–12.DUGGANJ.T.MCCABET.HENNERTYM.J.MAHERM.J.1998Can spent mushroom compost be used as a crop nutrient sourceKinsealy Research Report 9–12.Search in Google Scholar
HAAG D., KAUPENJOHANN M. 2001. Landscape fate of nitrate fluxes and emissions in Central Europe: a citrical reviev of concepts, date, and models for transport end relation. Agriculture, Ecosystems and Environment 86(1): 1–21. DOI: 10.1016/30167-8809(00)0026-8.HAAGD.KAUPENJOHANNM.2001Landscape fate of nitrate fluxes and emissions in Central Europe: a citrical reviev of concepts, date, and models for transport end relationAgriculture, Ecosystems and Environment86112110.1016/30167-8809(00)0026-8Open DOISearch in Google Scholar
IUSS WORKING GROUP WRB 2015. World Reference Base for Soil Resources 2014, update 2015, International soil classification system for naming soils and creating legends for soil maps. World Soil Resources Reports 106, FAO, Rome.IUSS WORKING GROUP WRB2015World Reference Base for Soil Resources 2014, update 2015, International soil classification system for naming soils and creating legends for soil mapsWorld Soil Resources Reports 106, FAO, Rome.Search in Google Scholar
JORDAN S.N., MULLEN G.J., MURPHY M.C. 2008. Composition variability of spent mushroom compost in Ireland. Bioreosurce Technolnology 99, 2: 411–418. DOI: 10.1016/j.biortech.2006.12.012.JORDANS.N.MULLENG.J.MURPHYM.C.2008Composition variability of spent mushroom compost in IrelandBioreosurce Technolnology99241141810.1016/j.biortech.2006.12.01217306529Open DOISearch in Google Scholar
KALEMBASA D., BECHER M., BIK B., MAKOLEWSKI A. 2012. Organic matter properties of spent mushroom substrate. Acta Agrophysica 19, 4: 713–723. (in Polish)KALEMBASAD.BECHERM.BIKB.MAKOLEWSKIA.2012Organic matter properties of spent mushroom substrateActa Agrophysica194713723(in Polish)Search in Google Scholar
KALEMBASA D., BECHER M. 2011. Nitrogen and carbon extracted by acid hydrolysis from spent mushroom substrate. Inżynieria Ekologiczna 27: 26–32. (in Polish)KALEMBASAD.BECHERM.2011Nitrogen and carbon extracted by acid hydrolysis from spent mushroom substrateInżynieria Ekologiczna272632(in Polish)Search in Google Scholar
KALEMBASA D., MAJCHROWSKA-SAFARYAN A. 2009. Affluence of the spent mushroom substrate from mushroom growing cellar. Zeszyty Problemowe Postępu Nauk Rolniczych 535: 195–200. (in Polish)KALEMBASAD.MAJCHROWSKA-SAFARYANA.2009Affluence of the spent mushroom substrate from mushroom growing cellarZeszyty Problemowe Postępu Nauk Rolniczych535195200(in Polish)Search in Google Scholar
KALEMBASA D., MAJCHROWSKA–SAFARYAN A. 2006. The influence of the cultivation of mushrooms on the chemical composition of the substrate. Zeszyty Problemowe Postępu Nauk Rolniczych 512: 247–254. (in Polish)KALEMBASAD.MAJCHROWSKA–SAFARYANA.2006The influence of the cultivation of mushrooms on the chemical composition of the substrateZeszyty Problemowe Postępu Nauk Rolniczych512247254(in Polish)Search in Google Scholar
KALEMBASA D., WIŚNIEWSKA B. 2006. Changes of chemical composition of soi land perennial ryegrass Lolium multiflorum under the influence of application of post-mushroom production bed. Zeszyty Problemowe Postępu Nauk Rolniczych 512: 265–276. (in Polish)KALEMBASAD.WIŚNIEWSKAB.2006Changes of chemical composition of soi land perennial ryegrass Lolium multiflorum under the influence of application of post-mushroom production bedZeszyty Problemowe Postępu Nauk Rolniczych512265276(in Polish)Search in Google Scholar
KALEMBASA S. 1995. Application of 15N and 13N isotopes in soil science and chemical-agricultural research. Wyd. WNT, Warszawa. (in Polish)KALEMBASAS.1995Application of 15N and 13N isotopes in soil science and chemical-agricultural researchWyd. WNT, Warszawa. (in Polish)Search in Google Scholar
KALEMBASA S, KALEMBASA D. 2016. Conversions and pathways of organic carbon and organic nitrogen in soils. (In:) Szajdak L.W. (Ed.) Bioactive Compounds in Agricultural Soils, Springer International Publishing SwitzerlandKALEMBASASKALEMBASAD.2016Conversions and pathways of organic carbon and organic nitrogen in soils(In:)SzajdakL.W.(Ed.)Bioactive Compounds in Agricultural SoilsSpringer International Publishing Switzerland10.1007/978-3-319-43107-9_3Search in Google Scholar
KALEMBASA S., KALEMBASA D. 1992. The quick method for the determination of C:N ratio in mineral soils. Polish Journal of Soil Science 25, 1: 41–46.KALEMBASAS.KALEMBASAD.1992The quick method for the determination of C:N ratio in mineral soilsPolish Journal of Soil Science2514146Search in Google Scholar
MAJCHROWSKA-SAFARYAN A., TKACZUK C. 2013. Possibility to use the spent mushroom substrate in soil fertilization as one of its disposal methods. Journal of Research and Applications in Agricultural Engineering 58, 4: 57–62. (in Polish)MAJCHROWSKA-SAFARYANA.TKACZUKC.2013Possibility to use the spent mushroom substrate in soil fertilization as one of its disposal methodsJournal of Research and Applications in Agricultural Engineering5845762(in Polish)Search in Google Scholar
MAZUR Z., MOKRA O. 2009. Content of macronutrients in natural fertilizers in Poland, in 2003–2005. Zeszyty Problemowe Postępu Nauk Rolniczych 537: 243–248. (in Polish)MAZURZ.MOKRAO.2009Content of macronutrients in natural fertilizers in Poland, in 2003–2005Zeszyty Problemowe Postępu Nauk Rolniczych537243248(in Polish)Search in Google Scholar
MERCIK S., STĘPIEŃ W., FIGOT E. 1995. Dynamics of changes in the content of carbon and nitrogen in the soil and the fate of N with mineral fertilizers and organic fertilizers statistical experiments. Zeszyty Problemowe Postępu Nauk Rolniczych 421a: 277–283. (in Polish)MERCIKS.STĘPIEŃW.FIGOTE.1995Dynamics of changes in the content of carbon and nitrogen in the soil and the fate of N with mineral fertilizers and organic fertilizers statistical experimentsZeszyty Problemowe Postępu Nauk Rolniczych421a277283(in Polish)Search in Google Scholar
MEDINA E., PAREDES C., PEREZ–MURIA M.D., BUSTAMANTE M.A., MORAL R. 2009. Spent mushroom substratem as component of growing media for germination and growth of horticultural plants. Bioresource Technology 100, 18: 4227–4232. DOI: 10.1016/j.biortech.2009.03.055.MEDINAE.PAREDESC.PEREZ–MURIAM.D.BUSTAMANTEM.A.MORALR.2009Spent mushroom substratem as component of growing media for germination and growth of horticultural plantsBioresource Technology100184227423210.1016/j.biortech.2009.03.05519409775Open DOISearch in Google Scholar
MEYSNER T., SZAJDAK L., KUŚ J. 2006. Impact of the farming systems on the content of biologically active substances and the forms of nitrogen in the soils. Agronomy Research 4, 2: 531–542.MEYSNERT.SZAJDAKL.KUŚJ.2006Impact of the farming systems on the content of biologically active substances and the forms of nitrogen in the soilsAgronomy Research42531542Search in Google Scholar
MOHD HANAFI F.H., REZANIA S., MAT TAIB S., MD DIN M.F., YAMAUCHI M., SAKAMOTO M., HARA H., PARK J., EBRAHIMI S.S. 2018. Environmentally sustainable applications of agro-based spent mushroom substrate (SMS): an overview. Journal of Material Cycles and Waste Management 20: 1383–1396. DOI: 10.1007/s10163-018-0739-0.MOHD HANAFIF.H.REZANIAS.MAT TAIBS.MD DINM.F.YAMAUCHIM.SAKAMOTOM.HARAH.PARKJ.EBRAHIMIS.S.2018Environmentally sustainable applications of agro-based spent mushroom substrate (SMS): an overviewJournal of Material Cycles and Waste Management201383139610.1007/s10163-018-0739-0Open DOISearch in Google Scholar
PAREDES C., MEDINA E., BUSTAMANTE M.A., MORAL, R. 2016. Effects of spent mushroom substrates and inorganic fertilizer on the characteristics of a calcareous clayey-loam soil and lettuce production. Soil Use and Management 32: 487–494. DOI: 10.1111/sum.12304.PAREDESC.MEDINAE.BUSTAMANTEM.A.MORALR.2016Effects of spent mushroom substrates and inorganic fertilizer on the characteristics of a calcareous clayey-loam soil and lettuce productionSoil Use and Management3248749410.1111/sum.12304Open DOISearch in Google Scholar
PAUL J.P., WILLIAMS B.L. 2005. Contribution of α-amin N to extractable organic nitrogen (DON) in three soil types the Scottish uplands. Soil Biology and Biochemistry 37: 801–803. http://dx.doi.org/10.1016/j.soilbio.PAULJ.P.WILLIAMSB.L.2005Contribution of α-amin N to extractable organic nitrogen (DON) in three soil types the Scottish uplandsSoil Biology and Biochemistry37801803http://dx.doi.org/10.1016/j.soilbio.10.1016/j.soilbio.2004.09.011Search in Google Scholar
POLISH SOIL CLASSIFICATION 2019. Polskie Towarzystwo Gleboznawcze, Komisja Genezy Klasyfikacji i Kartografii Gleb. Wydawnictwo Uniwersytetu Przyrodniczego we Wrocławiu, Polskie Towarzystwo Gleboznawcze, Wrocław-Warszawa. (in Polish)POLISH SOIL CLASSIFICATION2019Polskie Towarzystwo Gleboznawcze, Komisja Genezy Klasyfikacji i Kartografii GlebWydawnictwo Uniwersytetu Przyrodniczego we WrocławiuPolskie Towarzystwo GleboznawczeWrocław-Warszawa(in Polish)Search in Google Scholar
RUTKOWSKA B., SZULC W., STĘPIEŃ W., ŁOBODA J. 2009. Possibility of agricultural utilization of spent mushroom substrate. Zeszyty Problemowe Postępu Nauk Rolniczych 535: 349–356. (in Polish)RUTKOWSKAB.SZULCW.STĘPIEŃW.ŁOBODAJ.2009Possibility of agricultural utilization of spent mushroom substrateZeszyty Problemowe Postępu Nauk Rolniczych535349356(in Polish)Search in Google Scholar
SABIENĖ N., KUŠLENĖ G., ZALECKAS E. 2010. The influence of lead use on soil organic carbon and nitrogen content and redox potential. Žemdirbyste. Agriculture 97, 3: 15–24.SABIENĖN.KUŠLENĖG.ZALECKASE.2010The influence of lead use on soil organic carbon and nitrogen content and redox potentialŽemdirbyste. Agriculture9731524Search in Google Scholar
SMITH K.A., MACTAGGART I., TSURUTA H. 1997. Emissions of N2O and NO associated with nitrogen fertilization in intensive agriculture and the potential for mitigation. Soil Use and Management 13, 4: 296–304. DOI: 10.1111/j.1475-2743.1997.tb00601.SMITHK.A.MACTAGGARTI.TSURUTAH.1997Emissions of N2O and NO associated with nitrogen fertilization in intensive agriculture and the potential for mitigationSoil Use and Management13429630410.1111/j.1475-2743.1997.tb00601Open DOISearch in Google Scholar
SOIL SCIENCE SOCIETY OF POLAND 2009. Klasyfikacja uziarnienia gleb i utworów mineralnych Polskiego Towarzystwa Gleboznawczego 2008. Soil Science Annual 60, 2: 5–16. (in Polish)SOIL SCIENCE SOCIETY OF POLAND2009Klasyfikacja uziarnienia gleb i utworów mineralnych Polskiego Towarzystwa Gleboznawczego 2008Soil Science Annual602516(in Polish)Search in Google Scholar
SPYCHAJ-FABISIAK E., KOZERA W., MAJCHERCZYK E., RALCEWICZ M., KNAPOWSKI T. 2007. Evaluation of light soil fertility after the application of organic waste and manure. Acta Scientiarum Polonorum, s. Agricultura 6, 3: 69–76. (in Polish)SPYCHAJ-FABISIAKE.KOZERAW.MAJCHERCZYKE.RALCEWICZM.KNAPOWSKIT.2007Evaluation of light soil fertility after the application of organic waste and manureActa Scientiarum Polonorum, s. Agricultura636976(in Polish)Search in Google Scholar
SZULC W., RUTKOWSKA B., ŁABĘTOWICZ J. 2009. Fertilization value of organic wastes. Zeszyty Problemowe Postępu Nauk Rolniczych 535: 415–421. (in Polish)SZULCW.RUTKOWSKAB.ŁABĘTOWICZJ.2009Fertilization value of organic wastesZeszyty Problemowe Postępu Nauk Rolniczych535415421(in Polish)Search in Google Scholar
WIATER J. 2006. Content of some nitrogen forms in the soil from ecological farms. Zeszyty Problemowe Postępu Nauk Rolniczych 513: 527–533. (in Polish)WIATERJ.2006Content of some nitrogen forms in the soil from ecological farmsZeszyty Problemowe Postępu Nauk Rolniczych513527533(in Polish)Search in Google Scholar
WIATER J., DĘBICKI R. 1993. The influence of organic and organo-mineral substances on the status of organic carbon and nitrogen in soils. Zeszyty Problemowe Postępu Nauk Rolniczych 409: 65–72. (in Polish)WIATERJ.DĘBICKIR.1993The influence of organic and organo-mineral substances on the status of organic carbon and nitrogen in soilsZeszyty Problemowe Postępu Nauk Rolniczych4096572(in Polish)Search in Google Scholar
ZIED D.C., SÁNCHEZ J.E., NOBLE R., PARDO-GIMÉNEZ A. 2020. Use of Spent Mushroom Substrate in New Mushroom. Crops to Promote the Transition towards. A Circular Economy. Agronomy 10, 1239. DOI: 10.3390/agronomy10091239.ZIEDD.C.SÁNCHEZJ.E.NOBLER.PARDO-GIMÉNEZA.2020Use of Spent Mushroom Substrate in New Mushroom. Crops to Promote the Transition towardsA Circular Economy. Agronomy10123910.3390/agronomy10091239Open DOISearch in Google Scholar
ZMARLICKI K., BRZOZOWSKI P. 2018. Perspektywy, szanse i zagrożenia dla produkcji pieczarek. Instytut Ogrodnictwa, Skierniewice. (in Polish)ZMARLICKIK.BRZOZOWSKIP2018Perspektywy, szanse i zagrożenia dla produkcji pieczarekInstytut OgrodnictwaSkierniewice(in Polish)Search in Google Scholar
