Effect of substrates containing composts with the participation of municipal sewage sludge on flowering and macronutrient content in the leaves of garden pansy (Viola × Wittrockiana Gams.)

Zawadzińska, A.; Salachna, P.

doi:10.12911/22998993.1094982

Artykuł - szczegóły

Tytuł artykułu

Effect of substrates containing composts with the participation of municipal sewage sludge on flowering and macronutrient content in the leaves of garden pansy (Viola × Wittrockiana Gams.)

Autorzy

Zawadzińska A. , Salachna P.

Treść / Zawartość

Pełne teksty:

zawadzinska_salachna_effect_of_2_2014.pdf

Pobierz

Identyfikatory

DOI

10.12911/22998993.1094982

Warianty tytułu

Języki publikacji

Abstrakty

The aim of the study was to assess the impact of substrates containing composts made from municipal sewage sludge and straw or sawdust on flowering, leaf greenness index and macronutrient content in the leaves of ‘Fancy Carmine with Blotch’ garden pansy. Two composts, with the following compositions: K I – 70% municipal sewage sludge, 30% rye straw; K II – 70% municipal sewage sludge, 30% coniferous tree sawdust, were used for the preparation of substrates. Six substrates of peat and compost at 25, 50 and 75% (by volume) were prepared. The control object was a peat substrate, pH 5.8–6.0, supplemented with Azofoska at 2.5 g•dm^-3. It has been found that leaf greenness index of pansy increased with an increasing share of compost. Composts involving municipal sewage sludge at the level of 50% had a more positive influence on the abundance of pansy flowering than at 25 and 75%. The content of total nitrogen, phosphorus, potassium and sulfur in the leaves increased with increasing the dose of compost. The content of total phosphorus in the leaves at the end of pansy cultivation in compost substrates ranged optimally for this species. In the experiment conducted in 2006, pansies contained more total nitrogen, potassium and sulfur than the flowering pansies planted in 2005. municipal sewage sludge,

Słowa kluczowe

composts SPAD pansy Viola wittrockiana

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2014

Tom

Vol. 15, nr 2

Strony

78--87

Opis fizyczny

Bibliogr. 46 poz., tab.

Twórcy

autor

Zawadzińska A.

agnieszka.zawadzinska@zut.edu.pl

Department of Horticulture, West Pomeranian University of Technology in Szczecin, Papieża Pawła VI 3, 71-459 Szczecin, Poland

autor

Salachna P.

piotr.salachna@zut.edu.pl

Department of Horticulture, West Pomeranian University of Technology in Szczecin, Papieża Pawła VI 3, 71-459 Szczecin, Poland

Bibliografia

1. Abad M., Noguera P., Bures S. 2001. National inventory of organic wastes for use as growing media for ornamental potted plant production: case study in Spain. Bioresource Technol., 77, 197-200.
2. Ahmad I., Ahmad A., Ahmad S., Amjad A., Saleem M., Akram A. 2012. Effect of various agricultural substrates on biometric and qualitative characteristics of Ruscus hypophyllum. Int. J. Agric. Biol., 14(1), 116–120.
3. Altland J.E., Gilliam C.H., Keever G.J., Edwards J.H., Sibley J.L., Fare D.C. 2003. Rapid determination of nitrogen status in pansy. HortSci, 38(4), 537-541.
4. Ansermino S.D., Holcroft D.M., Levin J.B., Adams P., Hidding A.P., kipp J.A., Sonneveld C., Kreij C. 1995. A comparison of peat and pine bark as a medium for bedding plant pack production. Acta Hort., 401, 151-160.
5. Bailey D.A. 1998. Commercial pansy production. North Carolina Cooperative Extension Service, Horticulture Information, Leaflet 521, 6.
6. Bailey D.A., Baker J.R., Jones R.K. 1995. A penny for your penseés. North Carolina Flower Growers’ Bulletin, 40(3), 1-18.
7. Baran S. 2004. Osady ściekowe w gospodarce rolno-środowiskowej. Zesz. Probl. Post. Nauk Rol., 499, 15-20.
8. Chavez W., di Benedetto A.G., Civeira G., Lavado R. 2008. Alternative soilless media for growing Petunia × hybrida and Impatiens walleriana: Physical behavior, effect of fertilization and nitrate losses. Bioresource Technol., 99, 8082-8087.
9. Currey C.J., Camberato D.M., Torres A.P., Lopez R.G. 2010. Plant growth retardant drench efficacy is not affected by substrate containing parboiled rice hulls. HortTechnology, 20(5), 863-866.
10. Di Benedetto A., Petracchi J.C., Marcella G., Montaron P., Chavez W. 2010. Evaluation of alternative substrates for bedding plants. Int. J. Agric. Res. 5(11), 1020-1029.
11. Dudka S., Das K.C., Miller W.P. 1998. Blends of composted biosolids and bottom ash as potting media to grow ornamentals. Composting in the Southeast, The University of Georgia, Proceedings of the Conference, September 9-11 Athens, Georgia.
12. Evans M.R., Gachukia M. 2004. Fresh parboiled rice hulls serve as an alternative to perlite in greenhouse crop substrates. HortSci, 39(2), 232-235.
13. Francke A. 2010. The effect of magnesium fertilization on the macronutrient content of pepino dulce (Solanum muricatum Ait.) fruit. J. Elem., 15(3), 467-475.
14. Grigatti M., Giorgioni M.E., Ciavatta C. 2007. Compost-based growing media: Influence on growth and nutrient use of bedding plants. Bioresource Technol., 98, 3526-3534.
15. Hamlin R.L., Mills H.A. 2001. Pansy florel development and nutrient absorbtion as influenced by temperature, nitrogen form and stage of plant development. J. Plant Nutr., 24(12), 1975-1985.
16. Hamlin R.L., Mills H.A., Randle W.M. 1999. Growth and nutrition of pansy as influenced by N-form ratio and temperature. J. Plant Nutr., 22(10), 1637-1650.
17. Hamrick D. 2003. Ball Redbook. 2. Crop production. Ball Publishing, Batavia, Ill., USA, 678-684.
18. Harris C.E., Simonne E.H., Eakes D.J. 1999. Effect of nitrogen form ratio on pansy growth and nutrition and the palatability to white-tailed deer. J. Plant Nutr., 22(12), 1807-1814.
19. Janicka D. 2010. Wpływ podłoży organicznych oraz chitozanu na cechy morfologiczne i wartość dekoracyjną bratka ogrodowego (Viola x wittrockiana Gams.) z grupy Patiola. Praca doktorska, Zachodniopomorski Uniwersytet Technologiczny w Szczecinie.
20. Kalembasa S., Kuziemska B. 1999. Wpływ dawki i terminu stosowania osadów na plon siana oraz wartości współczynników wykorzystania azotu i fosforu z osadów. Fol. Univ. Agric. Stein., 200, Agriculture, 77, 121-124.
21. Karoń B., Pietr S.J. 2006. Wartość nawozowa kompostu z osadu ściekowego. Zesz. Probl. Post. Nauk Rol., 512, 305-313.
22. Kessler J.R. 1998. Pansy production and marketing. Alabama A&M and Auburn Universities. ANR-596.
23. Krzywy E., Zawadzińska A., Klessa M. 2007. Badania przydatności podłoży z udziałem kom-postów z komunalnego osadu ściekowego do uprawy roślin ozdobnych. Zesz. Probl. Post. Nauk Rol., 518, 101-110.
24. Laffe S.R., Styer R.C. 1989. Too B or not to B: learn to recognize boron deficiency. Grower Talks, 53(8), 66.
25. Larcher F., Berruti A., Gullino P., Scariot V. 2011. Reducing peat and growth regulator input in camellia pot cultivation. Hort. Sci. (Prague) 38(1), 35-42.
26. Lis-Krzyścin A. 2007. Zastosowanie nawozów Osmocote i Vitrofosmak w uprawie aksamitki rozpierzchłej. Rocz. AR Pozn. CCCLXXXIII, Ogrodn. 41, 109-114.
27. Loh F.C., Grabosky J.C., Bassuk N.L. 2002. Using the SPAD 502 Meter to assess chlorophyll and nitrogen content of benjamin fig and cottonwood leaves. HortTechnology, 12(4), 682-686.
28. Marschner H. 1993. Mineral nutrition of higher plants. Academic Press, London-Toronto.
29. Moore K.K. 2004. Growth of bedding plants in substrates amended with compost and fertilized with three different release rates of a controlled-release fertilizer product. Hort Technology, 14 (4), 474-478.
30. Placek M. 2009. Możliwości wykorzystania biostymulatorów w uprawie nowych grup i odmian rodzaju Viola. Praca doktorska, Zachodniopomorski Uniwersytet Technologiczny w Szczecinie.
31. Ramahsamay K.D. 2004. Oil palm wastes and sewage sludge composts as potting media for chrysanthemum. Univ. Putra Malaysia. Degree of Master of Science.
32. Regulation of the Minister for Agriculture and Rural Deevlopment of 18 June 2008 on execution of some regulations contained in the act on fertilisers and fertilisation, Journal of Law, 2008, No. 119, item 765. Dz.U. 08.119.765 (in Polish).
33. Regulation of the Minister of Environment of 13 July 2010 on communal sewage sludge. Journal of Law, 2010, No. 137, item 924. Dz.U. 10.137.924 (in Polish).
34. Ribeiro H.M., Vasconcelos E., dos Santos J.Q. 2000. Fertilization of potted geranium with a manicipal solid waste compost. Bioresource Technol., 73, 247-249.
35. Sloan R.C., Harkess R.L., Kingery W.L. 2004. Nitrogen and cotton gin waste enhance effectiveness of pine bark soil amendment. HortTechnology, 14(2), 212-217.
36. Startek L. 2001. Wpływ retardantów wzrostu oraz miejsca uprawy i zimowania na cechy morfologiczne bratka ogrodowego (Viola × wittrockiana Gams.). Akademia Rolnicza, Szczecin 201.
37. Strojny Z. 1993. Nawożenie roślin ozdobnych pod osłonami. Centrum Ogrodnicze, Skierniewice.
38. Vabrit S., Urman K., Põldma P., Jõepera K. 2007. Ornamental quality of Bidens ferulifolia ‘Golden Star’ pot plants dependend of composted sewage sludge as a component of growing media. Acta Hortic., 755, 367-372.
39. Wade G.L., Thomas P.A. 2012. Success with pansies in the winter landscape: A guide for landscape Journal of Ecological Engineering vol. 15(2), 2014 professionals. University of Georgia. Cooperative Extension Bulletin 1359, 1-7.
40. Whipker B., Cavins T., Gibson J., Dole J., Nelson P., Fonteno W., Bailey D. 2003. Water, media and nutrition testing. In: Hamrick D. (ed), Ball Red Book, 17th ed. Ball Publ. Batavia, 47-62.
41. Wraga K., Zawadzińska A. 2007. Ocena wpływu podłoża z komunalnego osadu ściekowego na kwitnienie i walory dekoracyjne chryzantemy wielkokwiatowej (Chrysanthemum × grandiflorum (Ramat. Kitam.). Ochrona Środowiska i Zasobów Naturalnych, 31, 249-254.
42. www.benary.com (last accessed 08.04.2013).
43. Zawadzińska A., Dobrowolska A. 2009. Wpływ podłoży z dodatkiem kompostów z komunalnego osadu ściekowego na wzrost i kwitnienie niecierpka Walleriana (Impatiens walleriana). Ochrona Środowiska i Zasobów Naturalnych, 40, 608-616.
44. Zawadzińska A., Janicka D. 2007. Effects of compost media on growth and flowering of parviflorous garden pansy. Part I. Plant growth and conformation. Acta Agrobot., 60(2), 161-166.
45. Zawadzińska A., Salachna P. 2013. The effect of substrates containing municipal sewage sludge compost on the accumulation of macrocomponents in Impatiens walleriana Hook. J. Elem., DOI 10.5601/jelem.2013.18.4.545.
46. Zubillaga M.S., Lavado R.S. 2001. Biosolid compost component of potting media for bedding plants. Gartenbauwissenschaft, 66, 304

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-fda8e8fe-6e43-4c40-b89f-5fce09bb4dcc