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Tom 10 Nr 1 (2011)

Artykuły

INFLUENCE OF INTERCROP PLANTS AND VARIED TILLAGE ON YIELDS AND NUTRITIONAL VALUE OF SCORZONERA (Scorzonera hispanica L.) ROOTS

Przesłane: 4 stycznia 2021
Opublikowane: 2011-03-31

Abstrakt

Intensification in plant growing is a direct reason for deteriorating soil properties, as well as conditions of plant growth and development. Aiming at improvement of soil fertility and structure, conservation tillage, limiting the processes of soil environment degradation, is introduced into garden crop production techniques. Field experiments were conducted in the years 2006–2008, on grey brown podzolic soil of impermanent structure. The experimental plant was scorzonera (Scorzonera hispanica L.) of ‘Duplex’ cultivar. Three intercrop plants were considered in the studies: common vetch (Vicia sativa L.), phacelia (Phacelia tanacetifolia B.) and oats (Avena sativa L.). There were also two ways of pre-sowing soil tillage: a) complex of pre-sowing practices, sowing of intercrop plant (2nd decade of August), pre-winter ploughing and putting green matter into soil, b) complex of pre-sowing practices, sowing of intercrop plant (2nd decade of August), spring ploughing and putting plant matter into soil, as well as two plant growing methods: on ridges and on flat soil. Significantly advantageous effects of spring putting intercrops into soil, growing of scorzonera on ridges and ploughing the soil with oats upon the total root yield were demonstrated. The examined experiment factors, however, did not significantly affect inulin, protein and dry matter contents in scorzonera roots. The most favorable tillage combination, as to inulin productivity was growing of scorzonera on ridges after spring ploughing oats with soil.

Bibliografia

Błażewicz-Woźniak M., Kęsik T., Konopiński M., 2001. Kształtowanie się agregacji gleby pod warzywami w uproszczonym systemie uprawy roli. Soil aggregates formation under vegetables in soil reduced cultivation system. Acta Agrophysica, 45, 5–15.
Cieślik E., Prostak A., Pisulewski P.M., 2001. Funkcjonalne właściwości fruktanów. Żywność. Nauka Technol. Jakość. 1 (26), 5–13.
Delzenne N.M., Daubioul C., Neyrinck A., Lasa M., Taper H.S., 2002. Inulin and oligofructose modulate lipid metabolizm in animals: review of biochemical events and future prospects. Brit. J. Nutrit. 87 Suppl. 2, 255–259.
Dzienia S., Piskier T., Wereszczaka J., 1995. Wpływ roślin mulczujących na wybrane właściwości fizyczne gleby po zastosowaniu siewu bezpośredniego bobiku. Konf. Nauk. nt. „Siew bezpośredni w teorii i praktyce”, 12 czerwca 1995, Szczecin-Barzkowice, 57–61.
Gałązka I., 2002. Skład mączki cykoriowej wybranych odmian cykorii, zróżnicowanych wielkością i terminem zbioru korzeni. Żywność. Nauka Technol. Jakość. 3 (32) Supl., 46–54.
Hargrove W.L., 1990. Role of conservation tillage in sustainable agriculture. Proc. of 1990 South Cons. Til. Conf. sp. bul. 90–1, North Carolina, 28–34.
Jabłońska-Ceglarek R., Zaniewicz A., 1994. After effect of sidereal fertilizers applied in the form of summer catch crops in the cultivation of onion. Part I. After effect of fertilization with catch crops on the yield of onion. Sci. Pap. ATU Siedlce. Veget. Plant. 41, 161–171.
Kęsik T., Konopiński M., Błażewicz-Woźniak M., 2000. Weed infestation and yield of onion and carrot under no-tillage cultivation using four cover crops. Annales AFPP, Dijon – France, 437–444.
Kęsik T., Konopiński M., Błażewicz-Woźniak M., 2006. Wpływ uprawy przedzimowej i mulczu z roślin okrywających na retencję wody, zagęszczenie i porowatość dyferencyjną gleby po przezimowaniu. Acta Agrophysica 7(4), 915–926.
Khatun K., Farooque A.M., 2005. Performance of organic and inorganic mulches on growth and yield of carrot (Daucus carota). Int. J. Sustain. Agric. Technol. 1(2), 17–19.
Knott C.M., 1996. The effect of cover crops on the establishment and yield of veining peas and nitrate leaching. J. Agric. Sci., 126, 471–479.
Kolida S., Tuohy K., Gibson G.R., 2002. Prebiotic effects of inulin and oligofructose. Brit. J. Nutrit. 87, Suppl. 2, 193–197.
Konopiński M., 2008. The effect of different soil and plant cultivation methods on yield and chemical composition of scorzonera roots. Vegetable Crops Res. Bull., 68, 101–110.
Konopiński M. 2009. Influence of intercrop plants and varied tillage on yields and nutritional value of salsify (Tragopogon porrifolius L.) roots. Acta Sci. Pol., Hortorum Cultus 8 (2), 27–36.
Konopiński M., Błażewicz-Woźniak M., 2008. Effect of differentiated pre-sowing soil tillage and intercrops on the emergence and yield of root plants. Zesz. Probl. Post. Nauk Roln., 527, 155–163.
Konopiński M., Kęsik T., Błażewicz-Woźniak M., 2001. Wpływ mulczowania międzyplonowymi roślinami okrywowymi i uprawy zerowej na kształtowanie wilgotności i zagęszczenia gleby. Effect of cover crops mulching and no-tillage cultivation on the soil compaction and moisture. Acta Agrophysica 45, 105–116.
Labell F., 1999. Chicory fibers aid calcium absorption. Prepared Foods. 168 (5), 81.
Masiunas J.B., Weston L.A., Weller S.C., 1995. The impact of rye cover crops on weed populations in a tomato cropping system. Weed Sci., 43, 3, 318–323.
Monti A., Amaducci M.T., Pritoni G., Venturi G., 2005. Growth, fructan yield and quality of chicory (Cichorium intybus L.) as related to photosynthetic capacity, harvest time and water rigime. J. Exp. Bot. 56 (415), 1389–1395.
Niness K., 1999. Breakfast food and the health benefits of inulin and oligofructose. Cereal Foods World. 44 (2), 79–81.
Nyakatawa E.Z., Reddy K.C., Lemunyon J.L., 2001. Predicting soil erosion in conservation tillage cotton production systems using the revised universal soil loss equation. Soil Til. Res. 57, 4, 213–224.
Pięta D., Kęsik T., 2007. The effect of conservation tillage on microorganism communities in the soil under onion cultivation. EJPAU, Horticulture 2007, 10, 1. www.ejpau.media.pl
Resende F.V., Souza L.S., Oliveira P.S.R., Gualberto R., 2005. Efficiently of mulching on soil moisture and temperature, weed control and yield of carrot in summer season. Cienc. Agrotec. 29 (1), 100–105.
Sady W., Cebulak T., 2000. The effect of irrigation and cultivation methods on some mineral compounds in storage roots of the carrot. Folia Hortic.12(2), 35–41.
Saiful-Islam A.F.M., Kitaya Y., Hirai H., Yanase M., Mori G., Kiyota M., 1998. Growth characteristics and yield of carrots grown in a soil ridge with a porous tube for soil aeration in a wet lowland. Scientia Hortic. 77 (1/2), 117–124.
Skarphol B.J., Corey K.A., Meisinger J.J., 1987. Response of snap bean to tillage and cover crop combinations. J. Amer. Soc. Hort. Sci., 112, 936–941.
Skowronek M., Fiedurek J., 2003. Inulina i inulinazy, właściwości, zastosowania, perspektywy. Przem. Spoż. 3, 18–20.
Tungland B., 2000. A call for dietary status for inulin. Cereal Foods Word. 45 (9), 412–413.
Wierzbicka B., 2000. Skorzonera. Polowa uprawa warzyw. Praca zb. pod red. M. Orłowskiego, Wyd. Brasika, Szczecin, 285–289.
Wierzbicka B., 2002. Mniej znane rośliny warzywne. Wyd. UWM Olsztyn.
Wierzbicka B., Pierzynowska-Korniak G., Majkowska-Gadomska J., 2004. Effect of cultivation method and storage on the yield and turgor of storage roots of two carrot varieties. Folia Univ. Agricult. Stetin., Agricultura 95, 415–418.

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