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Tom 20 Nr 5 (2021)

Artykuły

The influence of foliar fertilization of maiden pear trees and soaking the root system of the rootstocks in hydrogel with the addition of Trifender WP preparation on the growth of maiden quince trees in a nursery

DOI: https://doi.org/10.24326/asphc.2021.5.7
Przesłane: 13 lutego 2020
Opublikowane: 2021-10-29

Abstrakt

The comparison of the influence of foliar fertilization with four preparations on the growth of ‘Conference’ maiden pear trees growing on MA quince rootstock was conducted in a nursery in a three-year period. The evaluation was conducted on the basis of maidens growth parameters and the state of their leaf minerals content as well as on photosynthetic activity of the maiden trees. The preparations used in the experiment affected the improvement of some growth parameters studied, especially the stem diameter and fresh mass of the maidens. Biopuls Original turned out to be the best preparation as it improved significantly three out of five studied growth parameters. A varied impact of the preparations used on the content of micro and macro-elements in leaves was detected. All tested preparations positively influenced the leaves area index of maiden trees except for Blackjak preparation. Photosynthetic intensity of maiden pear trees nourished through leaves was significantly smaller in comparison with the control. Only plants treated with Biopulus Original were characterized by a higher concentration of CO2 and its level in intercellular space. The aim of the second experiment was to check the influence of the application of Trifender WP preparation with hydrogel on the growth of ‘Champion’ maiden quince trees at the stage of planting the rootstocks into a nursery. A better branching of the rootstocks was obtained after the use of the preparation with hydrogel and the hydrogel alone. The trees in these combinations were also characterized by bigger fresh and dry mass of the leaves. The influence of Trifinder WP applied in connection with hydrogel was the best.

Bibliografia

  1. Abou El-Yazied, A.M., Sellim, A.S.M. (2007). Effect of reducing N, P mineral fertilization levels combined with bio fertilizer on growth, yield and tuber quality of potato Plants. J. Agric. Sci. Mansoura Univ., 32(4), 2701–2726.
  2. Anjum, S.A., Wang, L., Farooq, M., Xue L., Ali, S. (2011). Fulvic acid application improves the maize performance under well-watered and drought conditions. J. Agron. Crop Sci., 197, 409–417. https://doi.org/10.1111/j.1439-037X.2011.00483.x
  3. Basak, A. (2008). Effect of preharvest treatment with seaweed products, Kelpak and Goëmar BM 86, on fruit quality in apple. Int. J. Fruit Sci. 8(1–2), 1–14. https://doi.org/10.1080/15538360802365251
  4. Basak, A., Mikos-Bielak, M. (2008). The use of some biostimulators on apple and pear trees. In: Biostimulators in modern agriculture, fruit crops, Sadowski, A. (ed.). Wieś Jutra, Warszawa, 7–17.
  5. Bandurska, K., Krupa P., Berdowska, A., Jatulewicz, I. (2015). Zastosowanie preparatów grzybów saprofitycznych jako środków ochrony roślin [The use of saprophytic fungi preparations as plant protection products]. Inż. Ekologiczna, 43, 88–93 [in Polish].
  6. Benìtez, T., Rincòn, A.M., Limòn, M.C., Codòn, A.C., 2004. Biocontrol mechanisms of Trichoderma strains. Int. Microbiol., 7, 249–260.
  7. Bennewitz von, E., Hlušek, J. (2006). Effect of the application of two bio-preparations on the nutritional status, vegetative and generative behaviour of ‘Jonagold’ apple trees. Acta Hort., 721, 129–136. https://doi.org/10.17660/ActaHortic.2006.721.16
  8. Bennewitz von, E., Hlušek, J., Lošak, T. (2008). Nutritional status, vegetative and generative behavior of apple trees after the application of two biopreparations. Acta Univ. Agric. Silvic. Mendelianae Brun. 56, 13–18. https://doi.org/10.11118/actaun200856010013
  9. Błaszczyk, J. (2008). Quality of ‘Conference’ pears as affected by Goëmar BM 86 and Fruton. In: Biostimulators in Modern Agriculture, Fruit Crops, Sadowski, A. (ed.). Wieś Jutra, Warszawa, 19–24.
  10. Bradshaw, T. L., Berkett, L.P., Griffith, M.C., Kingsley-Richards, S.L., Darby, H.M., Parsons, R.L., Moran, R.E., Garcia, M.E. (2013). Assessment of Kelp extract biostimulants on tree growth, yield, and fruit quality in a certified organic apple orchard. Acta. Hort., 1001, 191–198. https://doi.org/10.17660/ActaHortic.2013.1001.21
  11. Bulgari, R., Cocetta, G., Trivellini, A., Verieri, P., Fevrante, A. (2015). Biostimulants and crop responses: a review. Biol. Agric. Hortic., 31(1), 1–17.
  12. Chet I., Inbar J., Hadar I., 1997. Fungal antagonists and mycoparasites. In: The Mycota IV. Environmental and microbial relationships, Wicklow, D.T., Söderström, B. (eds.). Springer, Berlin, 165–184.
  13. Chitu, V., Chitu, E., Marin, F.C., Ionita, A.D., Cirjaliu-Murgea, M., Filipescu, L. (2010). Effects of foliar ecological products application on apple growth, yield and quality. Acta Hortic., 868, 409–416.
  14. Derkowska, E., Sas-Paszt, L., Głuszek, S., Trzciński, P., Przybył, M., Frąc, M. (2017). Effects of treatment of apple trees with various bioproducts on tree growth and occurrence of mycorrhizal fungi in the roots. Acta Sci. Pol. Hortorum Cultus, 16(3), 75–83. http://dx.doi.org/10.24326/asphc.2017.3.8
  15. Díaz-Leguizamón, J.J., Chingaté-Cruz, O.F., Sánchez-Reinoso, A.D., Restrepo-Díaz, H. (2016). The effect of foliar applications of a bio-stimulant derived from algae extract on the physiological behavior of lulo seedlings (Solanum quitoense cv. Septentrionale). Cienc. Investig. Agrar., 43(1), 25–37. http://dx.doi.org/10.4067/S0718-16202016000100003
  16. El-Sabagh, A.S., El-Morsy, F.M., Farag, A.R. (2011). Effect of biofertilizers as a partial substitute for nitrogen fertilizer on vegetative growth, yield, fruit quality and leaf mineral content of two seedless grape cultivars. I: Vegetative growth and yield. J. Hort. Sci. Ornam. Plants, 3(2), 166–175.
  17. Etebarian, H.R., Scott, E.S., Wicks, T.J., 2000. Trichoderma harzianum T39 and T. virens DAR 74290 as potential biological control agents for Phytoptora erythroseptica. Eur. J. Plant Pathol., 106(4), 329–337. https://doi.org/10.1023/A:1008736727259
  18. Fawzi, M.I.F., Shahin, F.M., Daood, E.A., Kandil, E.A. (2010). Effect of organic and biofertilizers and magnesium sulphate on growth yield, chemical composition and fruit quality of ‘Le-Conte’ pear trees. Nat. Sci., 8(12), 273–280. http://www.dx.doi.org/10.7537/marsnsj081210.35
  19. Grzyb, S.Z., Piotrowski, W., Sas-Paszt, L. (2014). Treatments comparison of mineral and bio fertilizers in the apple and sour cherry organic nursery. J. Life Sci., 8(11), 889–898. https://dx.doi.org/10.17265/1934-7391/2014.11.005
  20. Grzyb, S.Z., Sas-Paszt, L., Piotrowski, W., Malusa, E. (2015). The influence of mycorrhizal fungi on the growth of apple and sour cherry maidens fertilized with different bioproducts in organic nursery. J. Life Sci., 9(5), 221–228. https://doi.org/10.17265/1934-7391/2015.05.006
  21. Hassan, H.S.A., Sarrwy, S.M.A, Mostafa, E.A.M. (2010). Effect of foliar spraying with liquid organic fertilizer, some micronutrients, and gibberellins on leaf mineral content, fruit set, yield, and fruit quality of ‘Hollywood’ plum trees. Agric. Biol. J. N. Am., 1(4), 638–643.
  22. Harman, G.E., Howell, C.R., Viterbo, A., Chet, I., Lorito, M. (2004). Trichoderma species – opportunistic, avirulent plant symbionts. Nature Rev., 2, 43–56. https://doi.org/10.1038/nrmicro797
  23. Hỳsek, J., Vach, M., Brožová, J., Sychrová, E., Civínová, M., Nedĕlník, J., Hrubỳ, J. (2002). The influence of the application of mineral fertilizers with the biopreparation Supresivit (Trichoderma harzianum) on the health and the yield of different crops. Arch. Phytopathol. Plant Prot., 35(2), 115–124.
  24. Jacyna, T. (2004). The role of cultivar and rootstock in sylleptic shoot formation in maiden pear trees. J. Fruit Ornam. Plant Res., 12, 41–47.
  25. Kowalska, J., Remlein-Starosta, D. (2012). Wpływ częstotliwości i sposobu stosowania biopreparatu (Trichoderma asperellum) na ograniczenie występowania zarazy ziemniaka oraz na plonowanie ziemniaków uprawianych systemem ekologicznym [Influence of frequency and way of application of bio‐preparate (Trichoderma asperellum) on limitation of potato late blight and yield of organic potato]. Prog. Plant Prot., 52(2), 347–350 [in Polish]. http://dx.doi.org/10.14199/ppp-2012-063
  26. Kozik, E., Golcz, A. (2011). Plant nutrients. Research methods in plant sciences. Vol. 3. Soil sickness. Narwal, S.S., Politycka, B., Wu, F., Sampietro D.A. (eds). Studium Press LLC, Huston USA, 2–141.
  27. Krawiec, P. (2008). Effects of biostimulators on growth, cropping and fruit quality of chokeberry. In: Biostimulators in modern agriculture, fruit crops, Sadowski, A. (ed.). Wieś Jutra, Warszawa, 42–48.
  28. Krok, K., Wieniarska, J. (2008). Effect of Goëmar BM 86 application on development and quality of primocane raspberry fruits. In: Biostimulators in modern agriculture, fruit crops, Sadowski, A. (ed.). Wieś Jutra, Warszawa, 49–59.
  29. Laugale, V., Lepse, L., Daugavietis, M. (2006). Using growth stimulator Ausma in strawberry plant production. Latv. J. Agron., 9, 64–68.
  30. Longstreth, D.J., Nobel, P.S. (1980). Nutrient influences on leaf photosynthesis. Plant Physiol., 65, 541–543.
  31. Lewko, J., Scibisz, R., Sadowski, A. (2004). Mineral element content in the leaves of rootstocks used for pear and of maiden trees budded on them. Acta Sci. Pol., Hortorum Cultus 3(2), 147–152.
  32. Lewko, J., Sadowski, A., Ścibisz, K. (2006). Growth and quality of pear maiden trees depending on rootstock and growing season. Sodinink. Daržinink., 25(3), 39–45.
  33. Malusa, E., Sas-Paszt, L., Popińska, V., Żurawicz, E. (2006). The effect of a substrate containing arbuscular mycorrhizal fungi and rhizosphere microorganisms (Trichoderma, Bacillus, Pseudomonas and Streptomyces) and foliar fertilization on growth response and rhizosphere pH of three strawberry cultivars. Int. J. Fruit Sci., 6, 25–41. https://doi.org/10.1300/J492v06n04_04
  34. Masny, A., Basak, A., Żurawicz, E. (2004). Effects of foliar application of Kelpak SL and Goëmar BM 86® preparation on yield and fruit quality in two strawberry cultivars. J. Fruit Ornam. Plant Res., 12, 23–27.
  35. Marjańska-Cichoń, B., Sapieha-Waszkiewicz, A. (2011). Efekty stosowania kilku biostymulatorów w uprawie truskawki odmiany Salut [Effect of the use of some biostimulants on the cultivated strawberry variety Salut]. Prog. Plant Prot./Post. Ochr. Roślin, 51(2), 932–936 [in Polish].
  36. Marzouka, H.A., Kassem, H.A. (2011). Improving fruit quality, nutritional value and yield of Zaghloul dates by the application of organic and/or mineral fertilizers. Sci. Horti., 127, 249–254. http://dx.doi.org/10.1016/j.scienta.2010.10.005
  37. Michalak, I., Chojnacka, K. (2016). The potential usefulness of a new generation of agro-products based on raw materials of biological origin. Acta Sci. Pol., Hortorum Cultus, 15(6), 97–120.
  38. Michalski, P. (2004). Wpływ stosowania stymulatorów wzrostu na plonowanie i jakość owoców porzeczki czarnej [Effect of growth regulators on the yield and fruit quality of black currant cultivars]. Zesz. Nauk. Inst. Sadow. Kwiac., 12, 141–146 [in Polish].
  39. Milosevic T., Milosevic, N. (2010). Growth and branching of pear trees (Pyrus domestica, Rosaceae) in nursery. Acta Sci. Pol., Hortorum Cultus, 9(4), 193–205.
  40. Mohamed, A.R.M.A., Abdel-Aziz, F.H., Mohamed, M.A., Gobara, A. (2013). Effect on foliar application of sida compound fertilizer on growth, yield, and fruit chemical composition of ‘Early Superior’ grapevine. J. Hortic. Res., 21(2), 53–57. https//doi.org/10.2478/johr-2013-0021
  41. Monte, E., 2001. Understanding Trichoderma: between biotechnology and microbial ecology. Int. Microbiol., 4, 14.
  42. Mosa, W.F.A.E., Sas Paszt, L., Frąc, M., Trzciński, P., Przybył, M., Treder, W., Klamkowski, K. (2016). The influence of biofertilization on the growth, yield and fruit quality of ‘Topaz’ apple trees. Hort. Sci. (Prague), 43(3), 105–111.
  43. Raghuwanshi, R. (2012). Opportunities and challenges to sustainable agriculture in India, Nebio, 3(2),78–86.
  44. Rosłon, W., Osińska, E., Bączek, K., Węglarz, Z. (2011). The influence of organic-mineral fertilizers on yield and raw materials quality of chosen plants of the Lamiaceae family from organic cultivation Acta Sci. Pol., Hortorum Cultus 10(1), 147–158.
  45. Rozpara, E., Paśko, M., Bielicki, P., Sas Paszt, L. (2014). Influence of various bio-fertilizers on the growth and fruiting of ‘Ariwa’ apple trees growing in an organic orchard. J. Res. Appl. Agric. Engng., 59(4), 65–68.
  46. Sas, L., Mercik, S., Matysiak, B. (1999). Rola rizosfery w mineralnym odżywianiu się roślin [Importance of the rhizosphere in mineral plant nutrition]. Post. Nauk Rol., 6, 27–36 [in Polish].
  47. Swietlik, D., Korcak, R.F., Faust, M. (1982). Effect of mineral nutrient sprays on photosynthesis and stomatal opening of water-stressed and unstressed apple seedlings II. Potassium sulphate sprays. J. Amer. Soc. Hortic. Sci., 107, 568–572.
  48. Szwonek, E. (2003) Goëmar BM 86 – wyciąg nawozowy z alg morskich [Goemar BM 86 – marine algae fertilizer extract], Owoce Warz. Kwiaty, 7, 18.
  49. Thalheimer, M., Paoli, N. (2002). Effectiveness of various leaf-applied biostimulants on productivity and fruit quality of apple. Acta Hortic., 594, 335–339. https://doi.org/10.17660/ActaHortic.2002.594.41
  50. Tomala, K., Andziak, E., Badowski, P., Szczepaniak, M. (2006). Jakość jabłek z punktu widzenia sadownika i konsumenta [The quality of apples from the point of view of the orchardman and the consumer]. In: Materiały Ogólnopolskiej Konferencji Sadowniczej [Nationwide Materials of the Orchard Conference], ISiK, Skierniewice, 30–31.08.2006, pp. 103.
  51. Veberic, R., Stampar, F., Vodnik, D. (2002). Influence of the foliar application of phosphorus and potassium on the photosynthetic intensity in apple trees (Malus domestica Borkh.). Acta Hortic., 594, 165–170. https://doi.org/10.17660/ActaHortic.2002.594.16
  52. Vernieri, P., Borghesi, E., Tognoni, F., Serra, G., Ferrante, A., Piagessi, A. (2006). Use of biostimulants for reducing nutrient solution concentration in floating system. Acta Hortic., 718, 477–84. https://doi.org/10.17660/ActaHortic.2006.718.55
  53. Wrona, D., Misiura, M. (2008). Effect of Goëmar BM 86 on yield and quality of Šampion apples. In: Biostimulators in modern agriculture, fruit crops, Sadowski, A. (ed.). Wieś Jutra, Warszawa, 91–96.
  54. Wójcik, P. (2007). Vigor and nutrition of apple trees in nursery as influenced by Titanium sprays. J. Plant Nutr., 25(5), 1129–1138. https://doi.org/10.1081/PLN-120003944
  55. Yedidia, I., Srivastra, A.K., Kapulnik, Y., Chet, I. (2001). Effect of Trichoderma harzianum on microelement concentrations and increased growth of cucumber plants. Plant Soil., 235, 235–242. https://doi.org/10.1023/A%3A1011990013955

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