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Vol. 2 No. 2 (2003)

Articles

Problems of a longtime strawberry growing in one plot

DOI: https://doi.org/10.24326/asphc.2003.2.7
Submitted: July 21, 2022
Published: 2003-12-31

Abstract

Long term investigations revealed that cultivation of strawberries (Fragaria magna Thuill.) for 10 years continuously in one plot reduces their vitality: the number of the produced runners decreases by 41%, of leaves - by 30%, form only 28% of inflorescence, the yield reduces by 50% in comparison with strawberries grown for two years in a new plot. Evident decline in the vitality and productivity of strawberries was detected during 4th-6th years of cultivation. Unequal reaction of the tested cultivars upon the durability of cultivation was noticed; strawberries of the cultivar "Senga Sengana" reacted slightly, while the ones of the cultivar "Nida" - strongly. It is related with different sensibility of these cultivars towards the disease agents of root rots.
It was determined that long-term cultivation of the Fragaria genus plants results in the accumulation of the parasitic fungi propagules in soil: Ascochyta fragaricola, Cercospora fragariae, Fusarium oxysporum, F. solani, Perenospora fragariae, Phytophthora cactorum, Pythium intermedium, P. ultimum, Plasmodiophora brassicae, Sclerotium rolfsii, Verticillium alboatrum. Therefore, cultivation of strawberries in the same plot for longer time increases the phytopathogenic potential of soil, and short interval (1-2 years) between planting has little significance upon it. The second reason for low productivity of strawberries cultivated for a long in one plot is soil tiredness caused by fungi, synthesising and excreting into surrounding toxic secondary metabolites, widespread in the rhizosphere, especially those belonging to the Penicillium genus: P. janthinellum, P. verruculosum var. verrucosum, P. canescens, P. spinulosum.

References

Beili D. A., Monsfild D. V. (Eds.), 1985. Fitoaleksiny. Kiev.
Beismann B., Kogel K. H., 1995. Identification and characterization of suppressors. Ann. Rev. Phytopathol. 33, 259–275.
Benken A. A., 1981. Rolj prirodnych i antropogennych faktorov v razvitii i organizacii pochvennych fitoinfekcij. Trudy VIZR'a. Fitosanitarnyje osnovy zashchity seljskochoziaistvennych kultur ot boleznej. Leningrad, 24–33.
Beresteckij O. A., 1978. Fitotoksiny pochvennych mikroorganizmov i ich ekologicheskaja rolj. Fitotoksichnyje svojstva mikroorganizmov. Leningrad, 7–30.
Booth C. (Ed.), 1971. Methods in microbiology. London, New York.
Brandenburger W., 1985. Parasitische Pilze an Getäplanzen in Europa. Stuttgart. New York:
Djakov Ju. T., Ozereckovskaja O. L., Džavahija V. G., Bagirova S. F. 2001. Obshchaja i molekuliarnaja fiziologija. Moskva.
Gauze G. F., Preobrazhenskaja T. P., Sveshnikova M. A., 1983. Opredelitelj aktinomicetov. Moskva. 246 s.
Kuc J., 1993. Phytoalexins, stress metabolism and disease resistance in plant. Ann. Rev. Phytopathol. 33, 275–297.
Lugauskas A., 1988. Mikromicety okuljturennych pochv Litovskoj SSR. Vilnius.
Menden K., Hahn M., Deising H., 1996. Morphogenesis and mechanisms of penetration of plant pathogenic fungi. Ann. Rev. Phytopathol. 34, 367–386.
Mosolov V. V., Valueva T. A., 1993. Rastiteljnyje belkovyje ingibitory proteoliticheskich fermentov. VINITI, 1–7.
Pavlovicha D. J., 1978. Aktinomicety Latvii. Riga.
Rais E., 1978. Alelopatija. Moskva.
Rovira A. D., Foster R. C., Martin J. K., 1979. Note on terminology: origin and nomenclature of the organic materials in the rizosphere. The soil root interface. London, 1–4.
Segi I., 1983. Metody pochvennoj mikrobiologii. Moskva.

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