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Tom 12 Nr 6 (2013)

Artykuły

LIVING MULCHES IN VEGETABLE CROPS PRODUCTION: PERSPECTIVES AND LIMITATIONS (A REVIEV)

Przesłane: 17 grudnia 2020
Opublikowane: 2013-12-31

Abstrakt

Different aspects of living mulches application in vegetable crops production is discussed in the paper. They compete with vegetables for light, moisture and nutrients and for this reason in most cases cause the yield reduction of cash crops. However, at the end of vegetation period, after ploughing down as green manure they enhance the organic matter content in the soil, improve its physical and chemical properties, which are beneficial for the subsequent species in crop rotation. Undersowing is best suited in perennial crops like rhubarb or the species with relatively long vegetation period, grown from transplants (leek, cabbage, sweet corn, stake tomato, pepper). The most important attributes required for species used as living mulches are quick emergence and soil covering, short
height, low water and nutrients demands. In most cases the legume crops (white clover Trifolium repens L., red clover Trifolium pratense L., hairy vetch Vicia villosa Roth., seradella Ornithopus sativus Brot.), grasses (perennial ryegrass Lolium perenne L.) or cereals, especially rye Secale cereale L. are used for this purpose. Their competitiveness to the cash crops may be diminished by the delayed term of undersowing the only in strips between plant rows, mowing the biomass or the use of sublethal doses of herbicides. The beneficial effects of living mulches include the suppression of weed infestation, reduced insect pests and diseases pressure, and prevention from soil degradation. They suppress soil compaction, wind and water erosion, improve soil structure, reduce the surface water runoff and nutrients leaching. Living mulch cover is favourable for biological activity of the soil and the amounts of available nutrients after decomposition. Further intensive studies
will be needed to introduce such intercropping, friendly to the environment system to the wide practice, especially in the terms of possible decrease of competitiveness to the cash crops.

Bibliografia

Abdul-Baki A.A., Stommel J.R., Watada A.E., Teasdale J.R., Morse R.D., 1996. Hairy vetch mulch favorably impacts yield of processing tomatoes. HortSci. 31(3), 338–340.
Abdul-Baki A.A., Teasdale J.R., 1993. A No-tillage tomato production system using hairy vetch and subterranean clover mulches. HortSci. 28(2), 106–108.
Adamczewska-Sowińska K., 2004. Zastosowanie żywych ściółek w uprawie pomidora i papryki oraz ich wpływ następczy na plonowanie selera korzeniowego i marchwi jadalnej. Zesz. Nauk. AR we Wrocławiu, Rozprawy, 484.
Adamczewska-Sowińska K., 2008. Wpływ żywych ściółek na plonowanie i wartość biologiczną papryki. Zesz. Probl. Post. Nauk Rol. 527, 59–65.
Adamczewska-Sowińska K., Kołota E., 2007. Żywe ściółki w uprawie pomidora. Rocz. AR Pozn. 383, Ogrodnictwo 41, 411–415.
Adamczewska-Sowińska K., Kołota E., 2008. The effect of living mulches on yield and quality of tomato fruits. Veg. Crops Res. Bull. 69, 31–38.
Adamczewska-Sowińska K., Kołota E., 2010. Yielding and nutritive value of field cultivated eggplant with the use of living and synthetic mulches. Acta Sci. Pol., Hortorum Cultus 9(3), 191–199.
Adamczewska-Sowińska K., Kołota E., Winiarska S., 2009. Living mulches in field cultivation of vegetables. Veget. Crops Res. Bull. vol. 70, 19–29.
Almeida P.S., 1985. Effects of some winter crop mulches on the soil weed ifestation. Proc. 1985 British Crop Protection Conference. Weeds. Brighton, England, 651–659.
Araki H., Tamura H., 2008. Weed control and field management with barley living mulch in asparagus production. Acta Hort. 776, 51–54.
Ateh C.M., Doll J.D., 1996. Spring planted winter rye (Secale cereale) as a living mulch to control weeds in soybean (Glycine max). Weed Technol. 10, 347–353.
Barberi P., Bigongiali F., Antichi D., Carlesi S., Fontanelli M., Fiasconi C., Lulli L., 2008. Cultivating the future based on science. Vol. 1: Organic crop production. Proceedings of the Second Scientific Conference of the International Society of Organic Agriculture Research (ISOFAR). Modena, Italy, 18–20 June, 2008, 252–255.
Baumann D.T., Kropff M.J., Bastiaans L., 2000. Intercropping leeks to suppress weeds. Blackwell Sci. Ltd. Weed Research 40, 359–374.
Borowy A., 2012. Growth and yield of stake tomato under no-tillage cultivation using hairy vetch as living mulch. Acta Sci. Pol., Hortorum Cultus 11(2), 229–252.
Bottenberg H., Masiunas J., Eastman C., Eastburn D., 1997. Yield and quality constraints of cabbage planted in rye mulch. Biol. Agric. Hort. 14, 323–342.
Boyd N.S., Gordon R., Asiedu S.K., Martin R.C., 2000. The effect of living mulches on tuber yield of potato (Solanum tuberosum L.). Biol. Agric. Hortic. 18(3), 203–220.
Bradow J.M., Connick W.J., 1990. Volatile seed germination inhibitors from plant residues. J. Chem. Ecol. 16, 645–666.
Brainard D.C., Bellinder R.R., Miller A.J., 2004. Cultivation and interseeding for weed control in transplanted cabbage. Weed Technol. 18, 704–710.
Brainard D.C., Bakker J., Noyes D.C., Myers N., 2012. Rye living mulch effects on soil moisture and weeds in asparagus. HortSci. 47(1), 58–63.
Brandsæter L.O., Netland J., 1999. Winter annual legumes for use as cover crops in row crops in northern regions: I. Field experiments. Crop Sci. 39, 1369–1379.
Brandsæter L.O., Netland J., Meadow R., 1998. Yields, weeds, pest and soil nitrogen in white cabbage-living mulch system. Biol. Agric. Hort. 16(3), 291–309.
Chase C.A., Mbuya S., 2008. Greater interference from living mulches than weeds in organic broccoli production. Weed Technol. 22(2), 280–285.
Costello M.J, Altieri M.A., 1994. Living mulches suppress aphids in broccoli. Calif. Agric. 48(4), 24–28.
Dabney S.M., Delgado J.A., Rewes D.W., 2001. Using winter cover crops to improve soil and water quality. Comm. Soil Sci. Plant Anal. 32(7–8), 1221–1250.
Decker A.M., Clark A.J., Meisinger J.J., Mulford F.R., McIntosh M.S., 1994. Legume cover crop contributions to no-tillage corn production. Agron. J. 86, 126–135.
Deguchi S., Shimazaki Y., Uozumi S., Tawaraya K., Kawamoto H., Tanaka O., 2007. White clover living mulch increases the yield of silage corn via arbuscular mycorrhizal fungus colonization. Plant Soil. 291, 291–299.
Finch S., 1993. Integrated pest management of the cabbage root fly and carrot fly. Crop Protec. 12(6), 423–432.
Galloway B.A., Weston L.A., 1996. Inflence of cover crop and herbicide treatment on weed control and yield in no-till sweet corn (Zea mays L.) and pumpkin (Cucurbita maxima Duch.). Weed Technol. 10, 341–346.
Gibson K.D., McMillan J., Hallett S.G., Jordan T., Weller S.C., 2011. Effect of a living mulch on weed seed banks in tomato. Weed Technol. 25(2), 245–251.
Greenland R.G., 2000. Optimum height at which to kill barley used as a living much in onions. HortSci. 35(5), 853–855.
Guldan S.J., Martin C.A., Cueto-Wong J., Steiner R.L., 1996. Interseeding legumes into chili: Legume productivity and effect on chili yield. HortSci. 31, 1126–1128.
Hall J.K., Hartwig N.L., Hoffman L.D., 1984. Cyanazine losses in runoff from no tillage corn in “living mulch” and dead mulches vs. unmalched conventional tillage. J. Environ. Qual. 13, 105–110.
Hargrove W.L., 1986. Winter legumes as a nitrogen source for no-till grain sorghum. Agron. J. 78, 70–74.
Hartwig N.L., Ammon H.U., 2002. Cover crops and living mulches. Weed Sci. 50, 688–699.
Henning V., 1998. Wirkung von Untersaaten in Sellerie und Virsig auf den Ertrag. Gartenbauwiss 63(1), 7–14.
Hooks C.R.R., Johnson M.W., 2002. Lepidopteran pest populations and crop yield in row intercropped broccoli. Agric. Forest Entomol. 4, 117–126.
Hooks C.R.R., Johnson M.W., 2003. Impact of agriculture diversification on the insect community of cruciferous crops (review). Crop Product. 22, 223–238.
Hooks C.R.R., Johnson M.W., 2004. Using undersown clovers as living mulches: lepidopterous pest infestations, and spider densities in a Hawaiian broccoli agroecosystem. Int. J. Pest Manag. 50(2), 115–120.
Infante M.L., Morse R.D., 1996. Integration of no tillage and overseeded legume living mulches for transplanted broccoli production. Hort. Sci. 31, 376–380.
Jankowska B., Poniedziałek M., Jędrszczyk E., 2009. Effect of intercropping white cabbage whith French Marigold (Tagetes patula nana L.) and Pot Marigold (Calendula officinalis L.) on the colonization of plants by pest insects. Folia Hort. 21/1, 95–103.
Jasa P.J., Dickey E.C., 1991. Subsoiling, contouring, and tillage effects on erosion and runoff. Appl. Eng. Agr. 7(1), 81–85.
Jędrszczyk E., Poniedziałek M., 2007a. The impact of the living mulch on plant growth and selected features of sweet corn yield. Folia Hort. 19/1, 3–13.
Jędrszczyk E., Poniedziałek M., 2007b. The influence of meteorological conditions on the growth and yielding of leek cultivated in living mulches. Folia Hort. 19/2, 23–37.
Jędrszczyk E., Poniedziałek M., 2009. Wpływ żywych ściółek na wybrane właściwości gleby i zachwaszczenie w uprawie kukurydzy cukrowej. Zesz. Probl. Post. Nauk Rol. 539, 265–272.
Jędrszczyk E., Poniedziałek M., Sękara A., 2005. Effect of living mulches on white head cabbage (Brassica oleracea var. capitata subvar. alba L.) yielding. Folia Hort. 17(2), 29–36.
Koch W., 1990. Untersaaten in Herbst-Gemüse-Kulturen. Gemüse 12, 561–564.
Kołota E., Adamczewska-Sowińska K., 2003a. Zastosowanie roślin okrywowych i żywych ściółek w polowej uprawie warzyw. Post. Nauk Rol. 2, 3–14.
Kołota E., Adamczewska-Sowińska K., 2003b. The impact of cover crops on overwintering of plants and mineral composition of leeks. Folia Hort. Ann. 15/1, 25–34.
Kotliński S., 2001. Przydatność ozimych roślin okrywowych w uprawie warzyw. Mat. Ogólnop. Konf. Nauk. „Biologiczne i Agrotechniczne Kierunki Rozwoju Warzywnictwa”, 21–22 czerwca,
Instytut Warzywnictwa, Skierniewice, 82–83.
Kotliński S., Abdul-Baki A.A., 2000. Rośliny okrywowe w uprawie pomidora a porażenie liści przez zarazę ziemniaka Phytophtora infestans. Prog. Plant Prot. 40(2), 893–896.
Leary J., DeFrank J., 2000. Living mulches for organic farming systems. Hort Technol. 10(4), 692–698
Masiunas J.B., 1998. Production of vegetables using cover crop and living mulches-a review. J. Veget. Crop Prod. 4(1), 11–31.
Masiunas J.B., Eastburn D.M., Mwaja V.N., Eastman C.E., 1996. The impact of living and cover crop mulch systems on pests and yields of snap beans and cabbage. J. Sust. Agric. 9(2/3), 61–90.
Müller-Schärrer H., Potter C.A., 1991. Cover plants in field grown vegetables: prospects and limitations. Brighton Crop Protection Conf.-Weeds, 1991, 599–604.
Müller-Schärrer H., Potter C.A., Hurni B., 1992. Cover plants in field planted leek: impact on yield, insect pests and nitrogen availability in the soil. Proc. Ist. Weed Control Congr. Monash University. Melbourne. Australia 1992, 2, 353–355.
Newenhouse A.C., Dana M.N., 1989. Grass living mulch for stawberries. J. Amer. Soc. Hort. Sci. 114(6), 859–862.
Nicholson A.G., Wien H.C., 1983. Screening of turfgrasses and clovers for use as living mulches in sweet corn and cabbage. J. Amer. Soc. Hort. Sci. 108, 1071–1076.
Nyoike T., Liburd O.E., 2010. Effect of living (buckwheat) and UV reflective mulches with and without imidacloprid on whiteflies, aphids and marketable yields of zucchini squash. Int. J. Pest Manag. 56, 1, 31–39.
Nyoike T., Liburd O.E., Webb S.E., 2008. Suppression of whiteflies, Bemisia tabaci (Hemiptera: Aleyrodidae) and incidence of Cucurbit leaf crumple virus, a whitefly-transmitted virus of zucchini squash new to Florida, with mulches and imidacloprid. Flor. Entomol. 91(3), 460–465.
Ofori K., Gamedoagbao D.K., 2005. Yield of scarlet eggplant (Solanum aethiopicum L.) as influenced by planting date of companion cowpea. Sci. Hort. 105, 305–312.
Paine L.K., Harrison H., 1993. The historical roots of living mulch and related practices. Hort. Technol. 3(2), 137–143.
Paine L.K., Harrison H., Newenhouse A., 1995. Establishment of asparagus with living mulch. J. Prod. Agr. 8(1), 35–40.
Pelosi C., Bertrand M., Roger-Estrade J., 2009. Earthworm community in conventional, organic and direct seeding with living mulch cropping systems. Agron. Sustain. Dev. 29, 287–295.
Phatak S.C, 1992. An integrated sustainable vegetable production system. HortSci. 27(7), 738–741.
Poniedziałek M., Jędrszczyk E., Sękara A., 2005. Wpływ żyta zastosowanego jako roślina okrywowa na plonowanie kapusty głowiastej białej. Zesz. Nauk. AR we Wrocławiu, Rolnictwo 86, 515, 425–432.
Poniedziałek M., Stokowska E., 1999. Możliwości ograniczenia zabiegów uprawowych u kapusty głowiastej białej przez zastosowanie zielonych ściółek. Zesz. Probl. Post. Nauk Rol. 466, 301–308.
Putnam A.R., 1990. Vegetable weed control with minimal herbicide inputs. HortSci. 25, 165–169.
Reynolds L.B., Potter J.W., Ball-Coelho B.R., 2000. Crop rotation with Tagetes sp. is an alternative to chemical fumigation for control of root-lesion nematodes. Agron. J. 41, 764–774.
Rice E.L., 1979. Allelopathy-an update. Bot. Rev. 45, 15–109.
Russell E.W., 1971. Soil structure: Its maintenance and improvement. J. Soil Sci. 22(2), 137–150.
Sainju U.M., Singh B.P., 1997. Winter cover crops for sustainable agricultural systems: influence on soil properties, water quality and crop yields. Hort. Sci. 32(1), 21–28.
Shennan C., 1992. Cover crops nitrogen cycling and soil properties in semi-irrigated vegetable production systems. HortSci. 27, 749–754.
Starck J.R., Przeradza M., Okruszko B., Senatorska-Wiśnioch A., Michalska M., 1996. Wpływ koniczyny białej, jako rośliny okrywowej na plonowanie kukurydzy cukrowej. Materiały z Konf. pt. „Nawożenie Roślin Ogrodniczych. Stan Badań i Kierunki Rozwoju”. Kraków 20–21 czerwca 1996, 84–85.
Stirzaker R.J., White I., 1995. Amelioration of soil compaction by a cover-crop for no-tillage lettuce production. Austral. J. Agric. Res. 46, 553–568.
Swenson J.A., Walters S.A., Chong S-K., 2004. Influence of tillage and mulching systems on soil water and tomato fruit yield and quality. J. Veget. Crop Prod. 10(1), 81–95.
Teasdale J.R., 1998. Cover crops, smother plants, and weed management. In: Integrated weed and soil management, Hatfield J.L., Buhler D.D., Stewart B.A. (eds). Ann Arbor Press, Chelsea, MI.
Teasdale J.R., Beste E., Potts W., 1991. Response of weeds to tillage and cover crop residue. Weed Sci. 39, 195–199.
Teasdale J.R., Daughtry C.S.T., 1993. Weed suppression by live and dessicated hairy vetch. Weed Sci. 41, 207–212.
Teasdale J.R., Mohler C.L., 1993. Light transmittance, soil temperature, and soil moisture under residue of hairy vetch and rye. Agron. J. 85, 673–680.
Theriault F., Stewart K.A., Seguin P., 2009. Incidence of Pieris rapae in organic broccoli grown with living mulches under floating row cover. Int. J. Veg. Sci. 15(3), 218–225.
Theunissen J., Schelling G., 1998. Infestation of leek by Thrips tabaci as related to special and temporal patterns of undersowing. Bio Control. 43(1), 107–119.
Vidal S.,1997. Factors influencing the population dynamics of Brevicoryne brassicae in undersown brussel sprout. Biol. Agric. Hort. 15, 285–295.
Vrabel T.E., 1983. Effect of suppressed white clover on sweet corn yield and nitrogen availability in a living mulch cropping system. Crop Sci. 30, 1369–1379.
Vrabel T.E., Minotti P.L., Sweet R.D., 1980. Seeded legumes as living mulches in sweet corn. Proc. Northeast. Weed Sci. Soc. 34, 171–175.
Walters S.A., Young B.G., 2008. Utility of winter rye living mulch for weed management in zucchini squash production. Weed Technol. 22(4), 724–728.
Weston L.A., 1990. Cover crop and herbicide influence on row crop seedling establishment in notillage culture. Weed Sci. 38, 166–171.
Wiech K., Wnuk A., 1991. The effect of intercropping cabbage with white clover and french bean on the occurence of some pests and beneficial insects. Folia Hort. Ann. 3(1), 45–49.
Wiles L.J., Wiliam R.D., Crabtree G.D., Radosevich S.R., 1989. Analyzing competition, between living mulch and a vegetable crop in an interplanting system. J. Amer. Soc. Hort Sci. 114, 1029–1034.
Winiarska S., 2005. Wpływ roślin okrywowych na plonowanie i wartość biologiczną pora oraz ich działanie następcze w uprawie warzyw. Rozpr. dokt.. AR we Wrocławiu.
Winiarska S., Kołota E., 2004. Przydatność wybranych gatunków roślin jako żywych ściółek w uprawie pora oraz ocena ich wartości nawozowej. Rocz. AR Pozn. 356, Ogrodnictwo 37, 225–232.
Wójcik-Wojtkowiak D., Politycka B., Weyman-Kaczmarkowa W., 1998. Allelopatia. Wyd. AR w Poznaniu.
Xu H.L., Ma G., Shah R.P., Qin F.F., 2008. Japanese organic tomato intercropped with living turfgrass much. Cultivating the future based on science. Vol. 1: Organic crop production. Proceedings of the Second Scientific Conference of the International Society of Organic Agriculture Research (ISOFAR). Modena, Italy, 18–20 June, 2008, 619–623.
Zandstra B.H., Warncke D.D., 1993. Interplanted barley and rye in carrots and onion. Hort. Technol. 3(2), 210–218.

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