Headed Chinese cabbage growth and yield influenced by different manure types in organic farming system

https://doi.org/10.17221/6/2015-HORTSCICitation:Laczi E., Apahidean A., Luca E., Dumitraş A., Boancă P. (2016): Headed Chinese cabbage growth and yield influenced by different manure types in organic farming system. Hort. Sci. (Prague), 43: 42-49.
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Chinese cabbage is a less known, cultivated and consumed vegetable species in Transylvania, although previous studies have shown that it can be grown successfully in this area. The main purpose of the present research was to underline the effectiveness of various treatments on Chinese cabbage growth, yield and quality of the final product in organic farming system. The treatments included: different fertilisation types, place of the culture and several hybrids. Results showed that all the studied factors had a high influence on cabbage heads characteristics such as length, diameter, and weight, on the number of leaves and also on yield. The best yields were registered when horse manure was used (between
76.50 and 99.30 t/ha), followed by cattle manure (between 76.80 and 93.75 t/ha). A higher yield of better quality cabbage was obtained in a polyethylene tunnel (89.27 t/ha) compared to the open field culture (77.50 t/ha). Hybrid Super provided the highest yield (92.70 t/ha), followed by hybrid Vitimo (86.09 t/ha).
Arancon Norman Q., Edwards Clive A., Bierman Peter, Metzger James D., Lucht Chad (2005): Effects of vermicomposts produced from cattle manure, food waste and paper waste on the growth and yield of peppers in the field. Pedobiologia, 49, 297-306  https://doi.org/10.1016/j.pedobi.2005.02.001
Ardelean M., Sestraş R., Cordea M. (2007): Tehnică experimentală horticolă. Cluj-Napoca, AcademicPres: 12–45.
Asian vegetable seeds (2015). Available at http://evergreenseeds.com/headtypnapca.html
Easmin D., Islam M.J., Begum K. (2009): Effect of different levels of nitrogen and mulching on the growth of Chinese cabbage. Progressive Agriculture, 20: 27–33.
Ertek A., Erdal I., Yilmaz H.I., Senyigit U. (2012): Water and nitrogen application levels for the optimum tomato yield and water use efficiency. Journal of Agriculture Sciences and Technology, 14: 889–902.
Gana A.K. (2009): Evaluation of the residual effect of cattle manure combinations with inorganic fertilizer and chemical weed control on the sustainability of chewing sugarcane production at Badeggi Southers Guinea Savanna of Nigeria. Middle-East Journal of Scientific Research, 4: 282–287.
Guş P., Cernea S., Rusu T., Bogdan I. (2004): Sisteme de semănat, fertilizat şi întreţinere a culturilor. Cluj Napoca, Risoprint: 111–120.
Haque K.M.F. (2005): Influence of variety and time of planting on the yield performance and nutrient contents of cabbage (Brassica oleraceae L.). Dhaka, Bangladesh. Bangladesh Council of Scientific and Industrial Research, 40: 211–218.
Hasan M.R.H., Solaiman A.H.M. (2012): Efficacy of organic and organic fertilizer on the growth of Brassica oleraceae L. (cabbage). International Jourrnal of Agriculture and Crop Sciences, 4–3: 128–138.
Indrea D., Apahidean S., Apahidean M., Măniuţiu D., Sima R. (2012): Cultura legumelor. Bucureşti, Editura Ceres: 362–365.
Jurica M., Petříková K. (2014): Nutritional and sensory value of conventionally vs organically grown Chinese radish (Raphanus sativus L. var. longipinnatus). Hort. Sci. (Prague), 41: 64–70.
Kopta T., Pokluda R. (2013): Yields, quality and nutritional parameters of radish (Raphanus sativus) cultivars when grown organically in the Czech Republic. Hort. Sci. (Prague), 40: 16–21.
Laczi E., Apahidean A.S. (2012): Protected culture study of Chinese cabbage (Brassica campestris var. pekinensis) varieties and hybrids collection grown in the Transylvanian Tableland specific conditions. Brukenthal Acta Musei VII, 3: 579–588.
Laczi E., Apahidean A.S., Dumitraş A., Boancă P., Apahidean A.I., Tomoş C. (2013): Growing Chinese cabbage: indoor or outdoor? Bulletin of University of Agricultural Sciences and Veterinary Medicine Cluj-Napoca, Horticulture, 70: 251–252.
Laczi E., Apahidean A., Luca E., Dumitraş A., Boancă P. (2014): The growth, development and yield of headed Chinese cabbage in autumn protected culture in Transylvanian Tableland specific conditions. Agriculture – Science and Practice, 1–2: 85–89.
Larkcom J. (2003): The organic Salad Garden. London, Frances Lincoln.
Larkcom J. (2008): Oriental vegetables. Kodasha International.
Mărghitaş M., Rusu M. (2003): Utilizarea îngrăşămintelor şi amendamentelor în Agricultură. Cluj-Napoca, Editura AcademicPres: 85–142.
Maršalkienė Nijolė, Sliesaravičius Algirdas, Ramaškevičienė Asta, Žilėnaitė Liuda, Švirmickas Gintautas Juozas (2014): Agrobiological potential of some soil crucifers of Lithuania's spontaneous flora. Zemdirbyste-Agriculture, 101, 153-160  https://doi.org/10.13080/z-a.2014.101.020
Olfati J.A., Peyvast Gh., Shabani H., Nosratie-Rad Z. (2010): An estimation of individual leaf area in cabbage and broccoli using non-destructive methods. Journal of Agriculture Sciences and Technology, 12: 627–632.
Pósa B. (2013): SMALL-PLOT EXPERIMENTS WITH GRADED CHINESE SILVER GRASS ( MISCANTHUS SINENSIS ) RHIZOMES. Applied Ecology and Environmental Research, 11, 313-321  https://doi.org/10.15666/aeer/1102_313321
Ryan-Harshman M. (2010): Organic food: what you should know about nutritional quality and safety. Current Issues, The inside story. Available at http://www.harvesthastings.ca
Sammis T. W., Kratky B. A., Wu I. P. (1988): Effects of limited irrigation on lettuce and chinese cabbage yields. Irrigation Science, 9, 187-198  https://doi.org/10.1007/BF00275431
Toxopeus H., Baas J. (2004): Ressources végétales de l’Afrique tropicale. 2. Fundation Prota. Wageningen, Technical Centre for Agricultural and Rural Cooperation: 162–169.
Vavrina C.S., Obreza T.A. (1993): Response of Chinese cabbage to nitrogen rate and source in sequential plantings. Hortscience, 28: 1164–1165.
Wang X.J., Jia Z.K., Liang L.Y., Kang S.Z. (2013): Effect of manure management on the temporal variations of dryland soil moisture and water use efficiency of maize. Journal of Agriculture Sciences and Technology, 15: 1293–1304.
Watson C.A.* , Atkinson D., Gosling P., Jackson L.R., Rayns F.W. (): Managing soil fertility in organic farming systems. Soil Use and Management, 18, 239-247  https://doi.org/10.1079/SUM2002131
Woese Katrin, Lange Dirk, Boess Christian, Bögl Klaus Werner (1997): A Comparison of Organically and Conventionally Grown Foods—Results of a Review of the Relevant Literature. Journal of the Science of Food and Agriculture, 74, 281-293  https://doi.org/10.1002/(SICI)1097-0010(199707)74:3<281::AID-JSFA794>3.0.CO;2-Z
Zhao Weixia, Li Jiusheng, Li Yanfeng, Yin Jianfeng (2012): Effects of drip system uniformity on yield and quality of Chinese cabbage heads. Agricultural Water Management, 110, 118-128  https://doi.org/10.1016/j.agwat.2012.04.007
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