Acta Univ. Agric. Silvic. Mendelianae Brun. 2023, 71(3), 131-140 | DOI: 10.11118/actaun.2023.009

Interannual Effect of Digestate Fertilization on Yields and Quality of Winter Rye Forage

Jan Pazdera1, 2, Ladislav Varga1, Ladislav Ducsay1
1 Institute of Agronomic Sciences, Faculty of Agrobiology and Food Resources, Slovak University of Agriculture in Nitra, Tr. A. Hlinku 2, 949 76 Nitra, Slovakia
2 KWS OSIVA s.r.o., Pod Hradbami 2004/5, 594 01 Velké Meziříčí, Czech Republic

In two-year pilot field experiments (harvest 2021-2022) we explored the interannual effect of digestate fertilization (30 t/ha prior to sowing) on yields and some qualitative parameters of winter rye (KWS Progas) forage silage. The yields of the aboveground biomass differed insignificantly on a year to year basis: 31.07 t/ha FM in 2021 and 25.17 t/ha FM in 2022 (4.9 t/ha DM in 2021 and 4.2 t/ ha DM in 2022) although the dry matter content differed significantly: 15.6% in 2021 and 16.6% in 2022. Interannual differences in the qualitative parameters were significant for these characteristics (% of DM) - Ntot.: 2.2% (2021) versus 1.9% (2022); crude protein: 13.8% (2021) versus 11.7% (2022); ash matter: 6.5% (2021) versus 7.6% (2022); NDF: 63.8% (2021) versus 57.8% (2022). Differences of ADF were insignificant 37.0% (2021) versus 35.2% (2022). The results show that the applied dose of digestate (150 kg N/ha plus other nutrients) is sufficient to achieve an adequate yield and quality of winter rye forage. The influence of the year was significant for dry matter content and most of the monitored qualitative parameters, especially from the point of view of the intensity and distribution of air temperatures and rainfall. In addition, the residual nutrients in the soil after the winter rye forage harvest (N, K) will be utilized by the subsequently grown maize in the dual rye-maize system.

Based on results of two-year field experiments, digestate applied to winter rye forage prior to sowing at an amount of 30 t/ha proved to be sufficient in terms of biomass yield and its quality. In view of this finding digestate is a suitable and efficient organic fertilizer with readily available nitrogen and other macro- and microelements. The use of digestate is a cost-effective substitution for expensive mineral fertilizers, namely nitrogen, which is a very current topic now. Considering that winter rye forage is harvested in spring, usually in May, a very important factor for achieving high yields is the course of the weather i.e. the total amount and distribution of precipitation and temperature during vegetation especially. Residual nutrients in the soil after the winter rye forage harvest will be utilized by the subsequently grown maize in the dual rye-maize system which is an important economic-environmental benefit.

Keywords: winter rye, silage, quality, dry matter, crude protein (CP), ash content, acido-detergent fibre (ADF), neutral-detergent fibre (NDF)

Received: February 21, 2023; Revised: May 2, 2023; Accepted: May 3, 2023; Published: July 1, 2023  Show citation

ACS AIP APA ASA Harvard Chicago IEEE ISO690 MLA NLM Turabian Vancouver
Pazdera, J., Varga, L., & Ducsay, L. (2023). Interannual Effect of Digestate Fertilization on Yields and Quality of Winter Rye Forage. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis71(3), 131-140. doi: 10.11118/actaun.2023.009
Share...
Download citation
  • BibTeX (.bib)
  • Bookends (.ris)
  • EasyBib (.ris)
  • EndNote (.enw)
  • EndNote 8 (.xml)
  • ISI WoS (.isi)
  • Medlars (.medlars)
  • Mendeley (.ris)
  • MODS (.xml)
  • Papers (.ris)
  • RefWorks (.txt)
  • RefManager (.ris)
  • RIS (.ris)
  • MS Word (.xml)
  • Zotero (.ris)
    • Open full article

    References

    1. ALBURQUERQUE, J. A., DE LA FUENTE, C., CAMPOY, M., CARRASCO, L., NÁJERA, I., BAIXAULI, C., CARAVACA, F., ROLDÁN, A., CEGARRA, J. and BERNAL, M. P. 2012. Agricultural use of digestate for horticultural crop production and improvement of soil properties. European Journal of Agronomy, 43: 119-128. Go to original source...
    2. ARTHURSON, V. 2009. Closing the global energy and nutrient cycles through application of biogas residue to agricultural land-potential benefits and drawbacks. Energies, 2(2): 226-242. Go to original source...
    3. BABINCOVÁ, Z. and ROZBORILOVÁ, E. 2022. Definitive data on crop and vegetable yield in the Slovak Republic for 2021 [in Slovak: Definitívne údaje o úrode poľnohospodárskych plodín a zeleniny v SR za rok 2021]. Štatistický úrad Slovenskej republiky. ISBN 978-80-8121-881-1
    4. BARNES, J. P. and PUTNAM, A. R. 1983. Rye residues contribute weed suppression in no-tillage cropping systems. Journal of Chemical Ecology, 9(8): 1045-1057. Go to original source...
    5. BÅTH, B. and ELFSTRAND, S. 2008. Use of red clover-based green manure in leek cultivation. Biological Agriculture & Horticulture, 25(3): 269-286. Go to original source...
    6. BERMEJO, G., ELLMER, F. and KRÜCK, S. 2010. Use of dry and wet digestates from biogas plants as fertilizer in plant production. Available at: http://ramiran. uvlf. sk/ramiran2010/docs/Ramiran2010_0089_ final.pdf [accessed: 2023, January 10].
    7. BÍRO, D., JURÁČEK, M., ŠIMKO, M. et al. 2020. Preservation and treatment of feed [in Slovak: Konzervovanie a úprava krmív]. Reprint of the 2nd revised edition. Nitra: Slovak University of Agriculture. ISBN 978-80-7375-441-9
    8. BLANCO-CANQUI, H., SINDELAR, M. WORTMANN, C. S. and KREIKEMEIER, G. 2017. Aerial interseeded cover crop and corn residue harvest: Soil and crop impacts. Agronomy Journal, 109(4): 1344-1351. Go to original source...
    9. CIGÁNEK, K., LOŠÁK, T., SZOSTKOVÁ, M., ZATLOUKALOVÁ, A., PAVLÍKOVÁ, D., VÍTĚZ, T., FRYČ, J. and DOSTÁL, J. 2010. Verification of the effectiveness of fertilisation with digestates from biogas stations on yields of winter rape and winter wheat and changes in some agrochemical soil properties [in Czech: Ověření účinnosti hnojení digestáty z bioplynových stanic na výnos ozimé řepky a ozimé pšenice a změny vybraných agrochemických vlastností půdy]. Agrochémia:Agrochemistry, sv. XIV., (50)3: 16-21.
    10. DABNEY, S. M., DELGADO, J. A. and REEVES, D. W. 2001. Using winter cover crops to improve soil and water quality. Communications in Soil Science and Plant Analysis, 32(7-8): 1221-1250. Go to original source...
    11. DOLEŽAL, P. et al. 2019. Preservation, storage and treatment of roughages (lectures) [in Czech: Konzervace, skladování a úprava objemných krmiv (přednášky)]. 2nd edition. Brno: Mendel University. ISBN 978-80-552-2149-6
    12. DOLEŽAL, P. 2022. Personal communication [in Czech: Osobní sdělení]. Brno: Mendel University, The Department of Animal Nutrition and Forage Production.
    13. DORAN, B. 2018. Grazing Opportunities with Cereal Rye. Iowa State University Extension and Outreach. 5. 9. 2018. Available at: https://www.extension.iastate.edu/news/publication-addresses-value-cereal-rye-cow-calf-producers [accessed: 2020, September 30].
    14. EICKENSCHEIDT, T., FREIBAUER, A., HEINICHEN, J., AUGUSTIN, J. and DRÖSLER, M. 2014: Short-term effects of biogas digestate and cattle slurry application on greenhouse gas emissions affected by N availability from grasslands on drained fen peathlands and associated organic soil. Biogeosciences, 11: 6187-6207. Go to original source...
    15. EVERETT, L. A., WILSON, M. L., PEPIN, R. J. and COULTER, J. A. 2019. Winter rye cover crop with liquid manure injection reduces spring soil nitrate but not maize yield. Agronomy, 9(12): 852. Go to original source...
    16. FISHER, K. A., MOMEN, B. and KRATOCHVIL, R. J. 2011. Is broadcasting seed an effective winter cover crop planting method? Agronomy Journal, 103(2): 472-478. Go to original source...
    17. GÁLIK, B., BÍRO, D., ŠIMKO, M. et al. 2018. Feed in the nutrition of ruminants and non-ruminants [in Slovak: Krmivá vo výžive prežúvavcov a neprežúvavcov]. 1st edition. Nitra: Slovak University of Agriculture. ISBN 978-80-552-1949-3
    18. GARFÍ, M., GELMAN, P., COMAS, J., CARRASCO, W. and FERRER, I. 2011: Agricultural reuse of the digestate from low-cost tubular digesters in rural Andean communities. Waste Management, 31: 2584-2589. Go to original source...
    19. GUNNARSSON, A., BENGTSSON, F. and CASPERSEN, S. 2010. Use efficiency of nitrogen from biodigested plant material by ryegrass. Journal of Plant Nutrition and Soil Science, 173(1): 113-119. Go to original source...
    20. HARAMOTO, E. R. 2019. Species, seeding rate, and planting method influence cover crop services prior to soybean. Agronomy Journal, 111(3): 1068-1078. Go to original source...
    21. HEGGENSTALLER, A. H., ANEX, R. P., LIEBMAN, M., SUNDBERG, D. N. and GIBSON, L. R. 2008. Productivity and nutrient dynamics in bioenergy double-cropping systems. Agronomy Journal, 100(6): 1740-1748. Go to original source...
    22. HERBSTRITT, S., RICHARD, T. L., LENCE, S. H., WU, H, O'BRIEN, P. L., EMMETT, B. D., KASPAR, T. C., KARLEN, D. L., KOHLER, K. and MALONE, R. W. 2022. Rye as an Energy Cover Crop: Management, Forage Quality, and Revenue Opportunities for Feed and Bioenergy. Agriculture, 12(10): 1691. Go to original source...
    23. HORÁKOVÁ, I. 2021. Definitive crop harvest data-2020 [in Czech: Definitivní údaje o sklizni zemědělských plodin-2020]. Český statistický úřad [online]. Available at: https://www.czso.cz/documents/10180/142792799/2701412106.pdf/25664207-7833-4459-8780-b1cc87147c15? version=1.1 [accessed: 2023, January 10].
    24. HORÁKOVÁ, I. 2022. Definitive crop harvest data-2021 [in Czech: Definitivní údaje o sklizni zemědělských plodin-2021]. Český statistický úřad [online]. Available at: https://www.czso.cz/documents/10180/165278713/2701412206.pdf/7c96f39c-cffb-469d-8358-f84dbae40cc6?version=1.1 [accessed: 2023, January 11].
    25. HRABĚ, F. et al. 2004. Grasses and clover grasses in agricultural practice [in Czech: Trávy a jetelotrávy v zemědělské praxi]. Olomouc: Petr Baštan. ISBN 80-903275-1-6
    26. CHIEW, Y. L., SPÅNGBERG, J. and BAKY, A. 2015: Environmental impact of recycling digested food waste as a fertilizer in agriculture - A case study. Resources, Conservation and Recycling, 95: 1-14. Go to original source...
    27. JAMISON, J., KHANAL, S. K., NGUYEN, N. H. and DEENIK, J. L. 2021. Assessing the effects of digestates and combinations of digestates and fertilizer on yield and nutrient use of Brassica juncea (Kai Choy). Agronomy, 11(3): 509. Go to original source...
    28. JATKAUSKAS, J., VROTNIAKIENE, V., EISNER, I. et al. 2020. Effect of inoculants of different composition on the quality of rye silages harvested at different stages of maturity. Agricultural and Food Science, 31(3): 187-197.
    29. JOHANSEN, A., CARTER, M. S., JENSEN, E. S., HAUGGARD-NIELSEN, H. and AMBUS, P. 2013. Effects of digestate from anaerobically digested cattle slurry and plant materials on soil microbial community and emission of CO2 and N2O. Applied Soil Ecology, 63: 36-44. Go to original source...
    30. KACEROVSKÝ, O. et al. 1990. Testing and assessment of feed [in Czech: Zkoušení a posuzování krmiv]. Prague: State Agricultural Publishing House. ISBN 80-209-0098-5
    31. KAPUINEN, P., PERÄLÄ, P. and REGINA, K. 2007. Digested slurry as a fertilizer for biogas ley. NJF Report, 3(4): 60-65.
    32. KASPAR, T. C., JAYNES, D. B., PARKIN, T. B. and MOORMAN, T. B. 2007. Rye cover crop and gamagrass strip effects on NO3 concentration and load in tile drainage. Journal of environmental quality, 36(5): 1503-1511. Go to original source...
    33. KASPAR, T. C., PARKIN, T. B., JAYNES, D. B. et al. 2006. Examining changes in soil organic carbon with oat and rye cover crops using terrain covariates. Soil Science Society of America Journal, 70: 1168-1177. Go to original source...
    34. KASPAR, T. C., RADKE, J. K. and LAFLEN, J. M. 2001: Small grain cover crops and wheel traffic effects on infiltration, runoff, and erosion. Journal of Soil and Water Conservation, 56(2): 160-164.
    35. KOLÁŘ, L., KUŽEL, S., PETERKA, J. and BOROVÁ-BATT, J. 2010. Agrochemical value of the liquid phase of wastes from fermentem during biogas production. Plant, Soil and Environment, 56(1): 23-27. Go to original source...
    36. KRUEGER, E. S., OCHSNER, T. E., BAKER, J. M., PORTER, P. M. and REICOSKY, D. C. 2012. Rye-corn silage double-cropping reduces corn yield but improves environmental impacts. Agronomy Journal, 104(4): 888-896. Go to original source...
    37. KRUEGER, E. S., OCHSNER, T. E., PORTER, P. M. and BAKER, J. M. 2011. Winter rye cover crop management influences on soil water, soil nitrate, and corn development. Agronomy journal, 103(2): 316-323. Go to original source...
    38. LACEY, C. and ARMSTRONG, S. 2015. The efficacy of winter cover crops to stabilize soil inorganic nitrogen after fall-applied anhydrous ammonia. Journal of Environmental Quality, 44(2): 442-448. Go to original source...
    39. LÁD, F. 2006. The influence of choice parameters for quality of ensilages feeds: scientific monograph [in Czech: Vliv vybraných ukazatelů na kvalitu silážovaných krmiv: vědecká monografie]. České Budějovice: University of South Bohemia. ISBN 80-704-0885-5
    40. LIEBERT, J. A., DITOMMASO, A. and RYAN, M. R. 2017. Rolled mixtures of barley and cereal rye for weed suppression in cover crop-based organic no-till planted soybean. Weed Science, 65(3): 426-439. Go to original source...
    41. LIU, M., HU, F., CHEN, X., HUANG, Q., JIAO, J., ZHANG, B. and LI, H. 2009. Organic amendments with reduced chemical fertilizer promonte soil microbial development and nutrient availability in a subtropical paddy field. The influence of quantity, type and application time of organic amendments. Applied Soil Ecology, 42: 166-175. Go to original source...
    42. LOŠÁK, T., VÍTĚZOVÁ, M., MUSILOVÁ, L. et al. 2013. Comparing the effectiveness of a digestate from a biogas station with mineral fertilisers when fertilising silage maize [in Czech: Porovnání účinnosti digestátu z bioplynové stanice a minerálních hnojiv při hnojení silážní kukuřice]. Agrochemistry, 53(1): 3-6.
    43. LOŠÁK, T., HLUŠEK, J., VÍTĚZOVÁ, M. et al. 2014. The use of fermentation residue - digestate from biogas station to fertilise silage maize [in Czech: Využití fermentačního zbytku-digestátu z bioplynové stanice pro hnojení silážní kukuřice]. Education, Science and Production, 2(3): 129-131.
    44. LOŠÁK, T., HLUŠEK, J., DOSTÁL, J. et al. 2022. The Green Deal-the way forward in plant nutrition with an emphasis on the use of manure and organic fertilisers [in Czech: Green Deal - jak dál ve výživě rostlin s důrazem na využití statkových organických hnojiv]. In: Kukuřice v praxi 2022. 1st edition. Brno: Mendel University, pp. 58-74. ISBN 978-80-7509-824-5
    45. MAKÁDI, M., TOMÓCSIK, A. and OROSZ, V. 2012. Digestate: a new nutrient source-review. Biogas, 14: 295-312. Go to original source...
    46. MALONE, R. W., OBRYCKI, J. F., KARLEN, D. L., MA, L., KASPAR, T. C., JAYNES, D. B., PARKIN, T. B., LENCE, S. H., FEYEREISEN, G. W., FANG, Q. X., RICHARD, T. L. and GILLETTE, K. 2018. Harvesting fertilized rye cover crop: Simulated revenue, net energy, and drainage nitrogen loss. Agricultural & environmental letters, 3(1): 170041. Go to original source...
    47. MALONEY, T. S., OPLINGER, E. S. and ALBRECHT, K. A. 1999. Small grains for fall and spring forage. Journal of Production Agriculture, 12: 488-494. Go to original source...
    48. MAUCIERI, C., BARBERA, A. C. and BORIN, M. 2016. Effect of injection depth of digestate liquid fraction on soil carbon dioxide emission and maize biomass production. Italian Journal of Agronomy, 11(1): 6-11. Go to original source...
    49. MIKYSKA, F. and VALENTA, K. 2007. Evaluation of roughhages [in Czech: Hodnocení objemných krmiv]. In: Výkrm skotu a nové metody hodnocení konzervovaných krmiv. 1st edition. Pohořelice: VÚCHS Rapotín, pp. 34-42.
    50. MITRÍK, T. and VAJDA, V. 2010. Volume feeds and their quality-IX. [in Slovak: Objemové krmivá a ich kvalita - IX.]. Náš chov, 11: 20-21.
    51. MOORE, E. B., WIEDENHOEFT, M. H., KASPAR, T. C. and CAMBARDELLA, C. A. 2014. Rye cover crop effects on soil quality in no-till corn silage-soybean cropping systems. Soil Science Society of America Journal, 78(3): 968-976. Go to original source...
    52. ODLARE, M., ARTHURSON, V., PELL, M., SVENSSON, K., NEHRENHEIM, E. and ABUBAKER, J. 2011. Land application of organic waste-effects on the soil ecosystem. Applied Energy, 88(6): 2210-2218. Go to original source...
    53. OSBORNE, R. 2011. Cereal Rye Cover Crop Can Stretch Your Spring Feed Supply. Michigan State University Extension: East Lansing, MI, USA.
    54. PETR, J. et al. 2008. Rye and triticale: biology, cultivation, quality and use [in Czech: Žito a triticale: biologie, pěstování, kvalita a využití]. 1st edition. Prague: Profi Press s.r.o. ISBN 978-80-86726-29-8
    55. PETRIKOVIČ, P., SOMMER, A., ČEREŠŇÁKOVÁ, Z. et al. 2000. Nutritional value of feeds Part I and Part II [in Slovak: Výživná hodnota krmív I. a II. časť]. 1st edition. Nitra: Research Institute of Animal Production. ISBN 80-888-72-12-X
    56. PRZYGOCKA-CYNA, K. and GRZEBISZ, W. 2018. Biogas digestate-benefits and risks for soil fertility and crop quality-an evaluation of grain maize response. Open Chemistry, 16(1): 258-271. Go to original source...
    57. RAIMBAULT, B. A., VYN, T. J. and TOLLENAAR, M. 1990. Corn response to rye cover crop management and spring tillage systems. Agronomy Journal, 82: 1088-1093. Go to original source...
    58. RAIMBAULT, B. A., VYN, T. J. and TOLLENAAR, M. 1991. Corn response to rye cover crop, tillage methods, and planter options. Agronomy Journal, 83: 287-290. Go to original source...
    59. RAMCHARAN, A. M. and RICHARD, T. L. 2017. Carbon and nitrogen environmental trade-offs of winter rye cellulosic biomass in the Chesapeake Watershed. Agricultural Systems, 156: 85-94. Go to original source...
    60. REICOSKY, D. C. and FORCELLA, F. 1998. Cover crop and soil quality interactions in agroecosystems. Journal of Soil and Water Conservation, 53: 224-229.
    61. RODHE, L., SALOMON, E. and EDSTRÖM, M. 2006. Handling of digestate on farm level. Economic calculations. JTI-rapport Landbruk & Industry No. 347. ISSN 1401-4963
    62. ROSS, D. J., TATE, K. R., SPEIR, T. W., STEWART, D. J. and HEWITT, A. E. 1989. Influence of biogas-digester effluent on crop growth and soil biochemical properties under rotational cropping. New Zealand Journal of Crop and Horticultural Science, 17(1): 77-87. Go to original source...
    63. ROZBORILOVÁ, E. and BABINCOVÁ, Z. 2021. Definitive data on crop and vegetable yield in the Slovak Republic for 2020 [in Slovak: Definitívne údaje o úrode poľnohospodárskych plodín a zeleniny v SR za rok 2020]. Štatistický úrad Slovenskej republiky. ISBN 978-80-8121-845-3
    64. SHAO, X., DIMARCO, K., RICHARD, T. L. and LYND, L. R. 2015. Winter rye as a bioenergy feedstock: impact of crop maturity on composition, biological solubilization and potential revenue. Biotechnology for biofuels, 8: 1-10. Go to original source...
    65. SINGER, J. W., NUSSER, S. M. and ALF, C. J. 2007. Are cover crops being used in the US Corn Belt? Journal of Soil and Water Conservation, 62: 353-358.
    66. SKLÁDANKA, J. et al. 2014. Foraging [in Czech: Pícninářství]. 1st edition. Brno: Mendel University. ISBN 978-80-7509-111-6
    67. SMITH, M. 2019. Hybrid Rye Improves Double Cropping Potential with Corn. American Dairyman [online]. Available at: https://www.americandairymen.com/articles/hybrid-rye-improves-double-cropping-potential-corn [accessed: 2020, September 30].
    68. STINNER, W., MÖLLER, K. and LEITHOLD, G. 2008. Effects of biogas digestion of clover/grass-leys, cover crops and crop residues on nitrogen cycle and crop yield in organic stockless farming systems. European Journal of Agronomy, 29(2-3): 125-134. Go to original source...
    69. STOSKOPF, N. C. 1985. Cereal grain crops. Reston publishing CO. Inc. Virginia.
    70. STUTE, J., SHELLEY, K., MUELLER, D. et al. 2017. Planting Winter Rye after Corn Silage: Managing for Forage. University of Wisconsin (UW) Extension: Madison, WI, USA. Available at: https://fyi.extension.wisc.edu/forage/files/2017/06/Rye_090507_final-1.pdf [accessed: 2022, September 1].
    71. ŠIMKO, M., GÁLIK, B., JURÁČEK, M. et al. 2019. Feeding of ruminants and non-ruminants [in Slovak: Kŕmenie prežúvavcov a neprežúvavcov]. 1st edition. Nitra: Slovak University of Agriculture. ISBN 978-80-552-2139-7
    72. ŠIMON, T., KUNZOVÁ, E. and FRIEDLOVÁ, M. 2015. The effect of digestate, cattle slurry and mineral fertilization on the winter wheat yield and soil quality parameters. Plant, Soil and Environment, 61(11): 522-527. Go to original source...
    73. TEWOLDE, H., SISTANI, K. R. and MCLAUGHLIN, M. R. 2016. Residual effect of poultry litter applications on no-till cotton lint yield. Agronomy Journal, 108(4): 1405-1414. Go to original source...
    74. THELEN, K. D. and LEEP, R. H. 2002. Integrating a double-cropped winter annual forage into a corn-soybean rotation. Crop Management, 1(1): 1-5. Go to original source...
    75. TOLLENNAR, M., MIHAJLOVIC, M. and VYN, T. J. 1992. Annual phytomass production of a rye-corn double cropping system in Ontario. Agronomy Journal, 84: 963-967. Go to original source...
    76. TOLLENNAR, M., MIHAJLOVIC, M. and VYN, T. J. 1993. Corn growth following cover crops: Influence of cereal cultivar, cereal removal, and nitrogen rate. Agronomy Journal, 85: 251-255. Go to original source...
    77. TONITTO, C., DAVID, M. B. and DRINKWATER, L. E. 2006. Replacing bare fallows with cover crops in fertilizer-intensive cropping systems: A meta-analysis of crop yield and N dynamics. Agriculture, Ecosystems and Environment, 112: 58-72. Go to original source...
    78. TŘINÁCTÝ, J. et al. 2013. Evaluation of feed for dairy cows [in Czech: Hodnocení krmiv pro dojnice]. 1st edition. Pohořelice: AgroDigest s.r.o. ISBN 978-80-260-2514-6
    79. VALLA, M., KOZÁK, J. NĚMEČEK, J. et al. 2002. Pedological practice [in Czech: Pedologické praktikum]. Prague Czech University of Agriculture, p. 151. ISBN 80-213-0914-8
    80. VAN SOEST, P. J., ROBERTSON, J. B. and LEWIS, B. A. 1991. Methods for dietary fibre, neutral detergent fibre and non-starch polysaccharides in relation to animal nutrition. Journal of Dairy Science, 74: 3583-3597. Go to original source...
    81. VAVRIŠÍNOVÁ, K., DEBRECÉNI, O., STRAPÁK, P. et al. 2021. Management and technology of livestock breeding [in Slovak: Manažment a technológia chovu hospodárskych zvierat]. 1st edition. Nitra: Slovak University of Agriculture. ISBN 978-80-552-2413-8
    82. VÁZQUEZ-ROWE, I., GOLKOWSKA, K., LEBUF, V., VANEECKHAUTE, C., MICHELS, E., MEERS, E., BENETTO, E. and KOSTER, D. 2015. Environmental assessment of digestate treatment technologies using LCA methodology. Waste Management, 43: 442-459. Go to original source...
    83. VERDI, L., KUIKMAN, P. J., ORLANDINI, S., MANCINI, M., NAPOLI, M. and DALLA MARTA, A. 2019. Does the use of digestate to replace mineral fertilizers have less emissions of N2O and NH3? Agricultural and Forest Meteorology, 269: 112-118. Go to original source...
    84. WILLICK, I. R., TANINO, K. K. and GUSTA, L. V. 2021. The impact of global climate change on the freezing tolerance of winter cereals in Western Canada. Journal of Agronomy and Crop Science, 207(1): 88-99. Go to original source...
    85. ZEMAN, L., DOLEŽAL, P., KOPŘIVA, A. et al. 2006. Nutrition and feeding of livestock [in Czech: Výživa a krmení hospodářských zvířat]. 1st edition. Prague: Profi Press s.r.o., p. 360. ISBN 80-86726-17-7

    This is an open access article distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY NC ND 4.0), which permits non-comercial use, distribution, and reproduction in any medium, provided the original publication is properly cited. No use, distribution or reproduction is permitted which does not comply with these terms.


    Return to the content