Wood waste compost as growing media components for cultivation of Chrysanthemum morifolium (Ramat.) Hemsl.

Abstract

The chrysanthemum is a significant species grown in Europe in pots and as a cut flower. In the cultivation of this species, peat substrate is used as a medium. The aim of the research was to assess the possibility of using composts from post-consumer wood used for in controlled cultivation of chrysanthemum Chrysanthemum morifolium (Ramat.) Hemsl. Mount Listou cultivar. Compost obtained from post-consumer wood waste, were used as the medium, and marked as: PCW I and PCW II. These were old furniture. The third compost marked with the symbol FB was obtained from fiber boards. The substrates used with the addition of compost made on wood waste had an impact on the quality of chrysanthemum. As studies have shown, composts from post-consumer wood they can be a valuable component of horticultural substrates when used appropriately.

References

1. Adamczewska-Sowińska K., Sowiński J., Jamroz E., Bekier J., 2021. Combining Willow compost and peat as media for juvenile tomato transplant production. Agronomy 11. https://doi.org/10.3390/agronomy11102089
2. Atzori G., Pane C., Zaccardelli M., Cacini, S., Massa D., 2021. The role of peat-free organic sub-strates in the sustainable management of soilless cultivation. Agronomy 11, 1236. https://doi.org/10.3390/agronomy11061236
3. Bekier J., Jamroz E., Sowiński J., Adamczewska-Sowińska K., Kałuża-Haładyn A., 2022. Effect of differently matured composts from willow on growth and development of lettuce. Agronomy 12, 175. https://doi.org/10.3390/agronomy12010175
4. Bonn A., Reed M.S., Evans C.D., Joosten H., Bain C., Farmer J., Emmer I., Couwenberg J., Mox-ey A., Artz R., 2014. Investing in nature. Developing ecosystem service markets for peatland restoration. Ecosyst. Serv. 9, 54–65. https://doi.org/10.1016/J.ECOSER.2014.06.011
5. Brito L.M., Reis M., Mourao I., Coutinho J., 2015. Use of acacia waste compost as an alternative component for horticultural substrates. Commun. Soil Sci. Plant Anal. 46(14), 1814–1826. https://doi.org/10.1080/00103624.2015.1059843
6. Diaspenza V., De Pasquale C., Fascella G., Mammano M.M., Alonzo G., 2016. Use of biochar as peat substitute for growing substrates of Euphorbia × lomi potted plants. SJAR 14(4), 1–11. https://dx.doi.org/10.5424/sjar/2016144-9082
7. Gariglio N.F., Buyatti M.A., Bouzo C.A., Weber M.E., Pilatti R.A., 2004. Use of willow (Salix sp.) sawdust as potting medium for calendula (Calendula officinalis) and marigold (Tagetes erecta) plant production. New Zeal. J. Crop Hort. 32(1), 147–151. https://doi.org/10.1080/01140671.2004.9514289
8. Gioia Di., De Bellis P., Mininni C., Santamaria P., Serio F., 2017. Physicochemical, agronomical and microbiological evaluation of alternative growing media for the production of rapini (Bras-sica rapa L.) microgreens. J Sci. Food Agr. 97, 1212–1219. https://doi.org/10.1002/jsfa.7852
9. Gruda N., 2012. Current and future perspective of growing media in Europe. Acta Hortic. 960, 37–43. http://dx.doi.org/10.17660/ActaHortic.2012.960.3
10. Gruda N., 2019. Increasing sustainability of growing media constituents and stand-alone substrates in soilless culture systems. Agronomy, 9, 298. https://doi.org/10.3390/agronomy9060298
11. Hirschler O., Osterburg B., Weimar H., Glasnapp S., Ohmes M.F., 2022. Peat replacement in horti-cultural growing media. Availability of bio-based alternative materials. Thünen Working Paper 190. https://doi.org/10.3220/WP1648727744000
12. Hirschler O., Thran D., 2023. Peat substitution in horticulture. Interviews with German growing media producers on the transformation of the resource base. Hortic. 9, 919. https://doi.org/10.3390/horticulturae9080919
13. Komorowicz M., Janiszewska D., Wróblewska H., Stuper-Szablewska K., 2021. Management of post-production wood waste in the aspect of circular economy. Ann. Wars. Univ. Life Sci. For. Wood Technol. 115, 72–76. https://doi.org/10.5604/01.3001.0015.5967
14. Kozik E., Wróblewska H., Bosiacki M., Wojciechowska E., 2010. The use of composts from wood waste in the cultivation of selected species of ornamental plants. ABD 4, 75–81.
15. Kurowska A., 2016. Waste wood supply structure in Poland. Sylwan 160(3), 187–196.
16. Lu Y., Zhou T., Guo J., Zhong J., Li D., Shi H., Liu CH., Xiang R., Sun M., 2024. Effects of sub-stitute substrate, water, and fertilizer management on the growth of potted chrysanthemums. Hortic. 10, 138. htps://doi.org/10.3390/horticulturae10020138
17. Muttalib S.A.A., Ismail S.N.S, Praveena S.M., 2016. Application of Effective Microorganism (EM) in food waste composting. A review. Asia Pac. Environ. Occup. Health. 2, 37–47.
18. Nguyen D.L., Luedtke J., Nopens M., Krause A., 2023. Production of wood- based panel from recycled wood resource: a literature review. Eur. J. Wood Prod. 81, 557–570. https://doi.org/10.1007/s00107-023-01937-4
19. Picchioni A.G., Martinez AS.A., Mexal J.G., Van Leeuwen D.M., 2016. Vegetative growth and leaf nutrient status ‘Carpino’ chrysanthemum on a pecan wood-amended commercial substrate. HortScience 51(2), 177–185.
20. Rastogi M., Nandal M., Khosla B., 2020. Microbes as vital additives for soil waste composting. Heliyon 6, e03343. https://doi.org/10.1016/j.heliyon.2020e03343
21. Rowell M.R., Pettersen R., Tshabalala M.A., 2012. Cell wall chemistry. In: Rowell, R.M. (ed.), Handbook of wood chemistry and wood composites. 2nd ed. CRC Press Taylor & Francis Group, 34–70.
22. Savvas D., Gruda N., 2018. Application of soilless culture technologies in the modern greenhouse industry. A review. Eur. J. Hortic. Sci. 83, 280–293. http://dx.doi.org/10.17660/eJHS.2018/83.5.2
23. Schroeter-Zakrzewska A., Wolna-Maruwka A., Kleiber T., Wróblewska H., Głuchowska K., 2021. Influence of compost from post-consumer wood on development, nutrition state of plants, mi-crobiological and biochemical parameters of substrates in zonal pelargonium (Pelargonium zonale). Agronomy 11, 994. https://doi.org/10.3390/agronomy11050994
24. Singh A.K., Singh R., Kumar R., Gupta A.K., Kumar H., Rai,A., Kanawjia A., Tomar K.S., Pandey G., Singh B., Kumar S., Dwivedi S.V., Kumar S., Pathania K., Ojha G., Singh A., 2023. Eval-uating sustainable and environment friendly growing media composition for pot mum (Chry-santhemum morifolium Ramat.). Sustainability 15, 536. https://doi.org /10.3390/su15010536
25. Tubiello F.N., Biancalani R., Salvatore M., Rossi S., Conchedda G.A., 2016. Worldwide assess-ment of greenhouse gas emissions from drained organic soils. Sustainability 8, 371. https://doi.org/10.3390/su8040371
26. Wróblewska H., Schroeter-Zakrzewska A., Głuchowska K., Wolna-Maruwka A., Kleiber T., 2014. Application of post-consumer wood composts in canna lily (Canna × generaliis L.H.Bailey) cultivation. Drewno 57, 5–25, https://doi.org /10.12841/wood.1644-3985.074.01
27. Wróblewska H., Schroeter-Zakrzewska A., Zakrzewski P., 2013. The use of compost obtained from post-consumer wood waste in the cultivation of zonal pelargonium (Pelargonium zonale) ‘An-dria’. ABD 4, 365–372.
28. Zawadzińska A., Salachna P., Nowak J.S., Kowalczyk W., 2021. Response of interspecific gerani-ums to waste wood fiber substrates and additional fertilization. Agriculture 11, 119. https://doi.org/10.3390/agriculture11020119
29. Zulfiqar F., Wei X., Shaukat N., Chen J., Raza A., Younis A., Nafees M., Abideen Z., Zaid A., Latif N., Naveed M., Siddique K.H.M., 2021. Effects of biochar and biochar-compost mix on growth performance and physiological responses of potted Alpinia zerumbet. Sustainability 13, 11226. https://doi.org/10.3390/su132011226