واکنش علف های هرز ذرت به گیاهان پوششی ماشک گل خوشه ای (Vicia villosa) و خلر (Lathyrus sativus) در سیستم های مختلف خاک ورزی

نوع مقاله : مقالات پژوهشی

نویسندگان

دانشگاه بوعلی سینا همدان

چکیده

به منظور بررسی اثر سیستم های مختلف خاک ورزی و گیاهان پوششی بر کنترل علف های هرز و عملکرد ذرت آزمایشی به صورت اسپلیت پلات در قالب طرح بلوک های کامل تصادفی در سال زراعی 90-1389 با سه تکرار در مزرعه تحقیقاتی دانشگاه بوعلی سینا اجرا شد. خاک ورزی با گاوآهن برگردان دار، خاک ورزی با چیزل و بدون خاک ورزی در کرت های اصلی و گیاه پوششی ماشک گل خوشه ای، گیاه پوششی خلر، کنترل شیمیایی علف-هرز و تیمار آلوده به علف هرز (شاهد) در کرت های فرعی قرار گرفتند. اثر روش های خاک ورزی و کنترل علف هرز بر کلیه صفات به جز تعداد دانه در ردیف معنی دار شد. اثر متقابل روش های خاک ورزی و کنترل علف هرز نیز بر تعداد ردیف دانه در بلال و عملکرد دانه تأثیر معنی دار داشت. بیشترین عملکرد دانه (1271 گرم در متر مربع) از ترکیب تیماری گیاه پوششی ماشک گل خوشه ای و خاک ورزی با گاوآهن برگردان دار به دست آمد که با ترکیبات تیماری گیاهان پوششی و خاک ورزی با چیزل اختلاف معنی دار نداشت. کمترین عملکرد دانه با 45 درصد کاهش نسبت به تیمار ماشک گل خوشه ای و خاک‌ورزی مرسوم از تیمار آلوده به علف هرز و بدون خاک ورزی حاصل شد. همچنین، اثر روش های خاک ورزی و کنترل علف هرز و اثر متقابل آن ها در سطح احتمال یک درصد بر تراکم و بیوماس علف های هرز معنی دار شد. بیشترین تراکم و بیوماس علف هرز (به ترتیب 60 بوته در متر مربع و 335 گرم در متر مربع) به ترکیب تیماری آلوده به علف هرز و بدون خاک ورزی تعلق گرفت. کمترین تراکم و بیوماس علف هرز به ترتیب با 62 و 53 درصد کاهش از ترکیب تیماری گیاه پوششی خلر و خاک ورزی حداقل حاصل شد. به طور کلی، استفاده از ماشک و خلر به عنوان گیاه پوششی و خاک ورزی حداقل توانست علف های هرز ذرت را حدود 50 تا 60 درصد مهار کرده و عملکرد آن را افزایش دهد و این امر گامی موثر در جهت نیل به سمت کشاورزی پایدار می باشد.

کلیدواژه‌ها

عنوان مقاله [English]

The Weeds Response to the Winter Vetch (Vicia villosa) and Chicklingpea (Lathyrus sativus) Cover Crops under Different Tillage Methods in Corn Fields

نویسندگان [English]

  • Javad Hamzei
  • Amin Bourbour
  • Majid Babaei
Bu-Ali Sina University
چکیده [English]

Introduction: Using cover crops in conservation tillage systems offers many advantages, one of which is weed control through physical and chemical interferences. Most of the benefits of cover crops are well known. They prevent form wind and water erosions, conserve soil moisture by reducing evaporation and increasing infiltration, increase the content of organic matter, increase fertility by recycling nutrients, add nitrogen if they are legumes, and improve soil structure. Proper cover crops can also suppress weed growth by allelopathic activities and light interference. They impact on environmental quality through the protection of surface water and groundwater, as well as eliminating the need for using preemergence herbicides. Either increase or decreases have been reported for crop yields when the crop residues remain on soil surface. No-till system has been reported to increase the presence of certain difficult to control weeds. Therefore, the aim of this study was to investigate the effect of tillage systems and cover crops on weed control and corn yield.
Materials and Methods: Experiment was carried out as split plot based on randomized complete block design with three replications at the Bu-Ali Sina University in growing season of 2011. Tillage with moldboard, tillage with chisel (minimum tillage), and no tillage were considered as main plots and two cover crops, winter vetch and chicklingpea, chemical weed control and weed-infest treatment (control) were considered as sub-plots. Cover crops were cultivated in late March 2011. In early June 2011, cover crops were harvested and were spread over the soil surface. The Plot size was 22.50 m-2. Five rows were in each plot with 75 cm intervals among rows and 18 cm among seedlings. 2 square were picked in the three central rows of each plot in order to determine the yield and yield components. From each plot three quadrants (1×1 m)randomly were picked and weeds and cover crops was separated. All samples were dried at 72 ° C for 48 hours and then were weighed. Data were analyzed using SAS software. Wherever the F test showed significant effect for a source of variance, the differences among treatments were compared by LSD test at the 0.05 level of significance.
Results and Discussion: Analysis of variance showed that the effects of tillage systems and weed control methods were significant on all traits, except number of seed per ear. Also, the interaction effect of them had significant effect on number of grain row/ear and grain yield. The highest grain yield (1271 g m-2) was observed at combined treatment of winter vetch cover crop and moldboard tillage. This treatment had no significant difference with combined treatments of cover crops and tillage with chisel. In comparison with winter vetch cover crop and conventional tillage treatment, the lowest grain yield by 45% reduction was recorded at weed infested and no tillage treatment. Also, the effects of tillage systems and weed control methods and their interaction were significant on weed density and biomass. Maximum weed density and biomass (60 plant m-2 and 335 g m-2) were belonged to weed-infested treatment under no tillage system. The lowest values for weed density and biomass with reduction of 62 and 53%, respectively, were observed at combined treatment of chicklingpea cover crop and minimum tillage. Chicklingpea and winter vetch cover crops due to rapid establishment and growth capacity are more suitable for weed control. Cover crops can affect weed establishment through effects on the radiation and chemical environment of weed and inhibit weed emergence by physically impeding the progress of seedlings from accessing light as well as by releasing phytotoxins that inhibit seedling growth. Minimum tillage is often cause changes in of weed flora and their population, and this is one of the methods for integrated weed management. In general, using winter vetch and chicklingpea as a cover crop and tillage with chisel suppressed about 50-60% weeds and increase corn yield which is effective step towards achieving sustainable agriculture.

کلیدواژه‌ها [English]

  • Conservation tillage
  • Cover crops
  • Sustainable agriculture
  • Weeds

مراجع

1- Abdollahian-Noghabi M. 2003. New approach to the management of genetically modified herbicide tolerant sugar beet. Journal of Sugar Beet, 18 (2): 167-168.
2- Al-Kaisi M., and Licht M.A. 2004. Effect of strip tillage on corn nitrogen uptake and residual nitrate accumulation compared with no-tillage and chisel plow. Agronomy Journal, 96 (4): 1164–1171.
3- Banik P., Midya A., Sarkar B.K., and Ghose S.S. 2006. Wheat and chickpea intercropping systems in an additive experiment: Advantages and weed smothering. European Journal of Agronomy, 24 (4): 325-332.
4- Beyaert R.P., Schott J.W., and White P.H. 2002. Tillage effect on corn production in a coarse-textured soil in Southern Ontario. Agronomy Journal, 94 (4): 767-774.
5- Boredlan P., and Weller C. 1997. Preplant cover crops affect weed and vine growth in firest-year vineyards. Advances in Argronomy, Horticultur Science, 32 (6):1040-1043
6- Buhler D.D., Gunsolus J.L., and Ralston D.F. 1992. Integrated weed management techniques to reduce herbicide inputs in soybean. Agronomy Journal, 84 (6): 973-978.
7- Campiglia E., Paolini R., Colla G., and Mancinelli R. 2009. The effects of cover cropping on yield and weed control of potato in a transitional system. Field Crops Research, 112 (1): 16–23.
8- Charles K.S., Ngouajio M.D., Warncke D., Poff K.L., and Hausbeck M.K. 2006. Integration of cover crops and fertilizer rates for weed management in celery. Weed Science, 54 (2): 326-334.
9- Creamer N.G., and Baldwin K.R. 2000. An evaluation of summer cover crops for use in vegetable production systems in North Carolina. Horticultur Science, 35 (4):600-603.
10- Derksen D.A., Lafond G.P., Thomas A.G., Loeppky H.A., and Swanton C.J. 1993. Impact of agronomic practices on weed communities: tillage systems. Weed Science, 41 (3): 409-417.
11- Fooladi Vand S., Aynehband A., and Naraki F. 2009. Effects of tillage method, seed rate and microelement spraying time on grain yield and yield components of rapeseed (Brassica napus L.) in warm dryland condition. Journal of Food, Agriculture and Environment, 7 (3): 627-633.
12- Gabriel J.L., and Quemada M. 2011. Replacing bare fallow with cover crops in a maize cropping system: Yield, N uptake and fertilizer fate. European Journal of Agronomy, 34 (3): 133-143.
13- Gajri P.R., Arora V.K., and Prihar S.S .2004. Tillage for sustainable cropping. International Book Distributing Co. pp: 12-24.
14- Hafman M.L., Regnier E.E., and Cardina J. 1993. Weed and corn (Zea mays) response to a hairy vetch (vicia villosa) cover crop. Weed Technology, 7 (3): 594-599.
15- Hiltbrunner J., Streit B., and Liedgens M. 2007. Are seeding densities an opportunity to increase grain yield of winter wheat in a living mulch of white clover. Field Crops Research, 102 (3): 163-171.
16- Hamzei J., and Borbor A. 2014. Effect of different soil tillage methods and cover crops on yield and yield components of corn and some soil characteristics. Journal of Sustainable Agriculture and Production Science, 24 (3): 35-47.
17- Isik D., Kaya E., Ngouajio M., and Mennan H. 2009. Weed suppression in organic pepper (Capsicum annuum L.) with winter cover crops. Crop Protection, 28 (4): 356–363.
18- Jahan M., Aryaee M., Amiri M.B., and Ehyaee H.R. 2013. The effect of plant growth promoting rhizobacteria (PGPR) on quantitative and qualitative characteristics of Sesamum indicum L. with application of cover crops of Lathyrus sp. and Persian clover (Trifolium resopinatum L.). Agroecology Journal, 1 (5):1-15. (In Persian with English abstract)
19- Khorram Del S., Ghorbani R., Azizi H., and Sayedi S.M. 2013. Effect of non- chemical methods of weed management on growth characteristics and yield of cumin, Agroecologi, 4(1): 1-14. (In Persian with English abstract)
20- Kramberger B., Gselman A., Janzekovic M., Kaligaric M., and Bracko B. 2009. Effects of cover crops on soil mineral nitrogen and on the yield and nitrogen content of maize. European Journal of Agronomy, 31 (2): 103–109.
21- Kruidhof H., Bastiaans M.L., and Kropff M.J. 2008. Ecological weed management by cover cropping: effects on weed growth in autumn and weed establishment in spring. Weed Research, 48 (6): 492–502.
22- Kuo S., and Jellum E.J. 2002. The influence of winter cover crops and residue management on nitrogen availability and corn. Agronomy Journal, 94 (3): 501-508.
23- Loghmani A, Asodar M.A, Noriyani H., and Abrosh A. 1389. Evaluate the effect of tillage systems and weed control on wheat yield in Dezful. Crop Research, 4 (1): 99-105. (In Persian)
24- Menalled F.D., Gross K.L., and Hammorid M. 2001. Weed aboveground and seedbank community responses to agricultural management systems. Ecological Applications, 11 (6): 1586-1601.
25- Mirlohi A., Haji Abasi M.A., Razavi S. J., and GHanaati A. 1389. Evaluate the response of different genotypes corn to conventional tillage and no-till systems in Isfahan. Journal of Science and Technology of Agriculture and Natural Resources, 1(5): 117-125. (In Persian)
26- Mrabet R. 2002. Stratification of soil aggregation and organic matter under conservation tillage systems in Africa. Soil and Tillage Research, 66 (2): 119-128.
27- Ohno T., Doolan K., and Zibilske L.M. 2000. Phytotoxic effects of red clover amended soils on wild mustard on weed growth in autumn and weed establishment in spring. Weed Research, 48 (6): 492–502.
28- Price A.J., Reeves D.W., and Patterson M.G. 2006. Evaluation of weed control provided by three winter cereals in conservation-tillage soybean. Renewable Agriculture and Food Systems, 21 (3): 159-164.
29- Puricelli E.C., Faccini D.E., Drioli G.A., and Sabbatini M.R. 2003. Spurred anoda (Anoda cristana) competition in narrow and-wide-row soybean (Glycine max). Weed Technology, 17 (3): 446-451.
30- Ramrodi M., Mazaheei D., Majnon houssaini N., Houssainzadeh E., and Houssaini S.M. B. 2010. Effect of cover crops, tillage systems and nitrogen fertilization on yield of sorghum. Iranian Journal of Field Crop Science, 4 (41): 763-769. (In Persian).
31- Ranjbar M., Samdani B., Rahimian H., Jahansoz M.R.Z., and Byhamta M.R. 1386. Influence of Winter cover crops on weed control and tomato yield. Pajouhsh and Sazandegi, 74: 24-33. (In Persian with English abstract)
32- Reddy K.N. 2001. Effects of cereal and legume cover crop residues on weeds, yield, and net return in soybean (Glycine max). Weed Technology, 15 (4): 660–668.
33- Saffari M., and Koocheki A. 2002. Sesame yield components response to tillage methods and residue management in different rotation. Agricultural Sciences and Technology, 16 (1): 59-65.
34- Teasdale J.R., Shelton D.R., Sadeghi A.M., and Isensee A.R. 2003. Influence of hairy vetch residue on atrazine and metolachlor soil solution concentration and weed emergence. Weed Science, 51: 628- 634.
35- Torresen K.S., Skuterud R., Weiseth L., Tandsaether H.J., and Jonson S.H. 2003. Plant protection in spring cereal production with reduced tillage. I. Grain yield and weed development. Crop protection, 18: 595-603.
36- Uchino H., Iwama K., Jitsuyama Y., Yudate Y., and Nakamura S. 2009. Yield losses of soybean and maize by competition with interseeded cover crops and weeds in organic-based cropping systems. Field Crops Research, 113 (3): 342-351.
37- Usiman K.h., Khallid S.H., and Azim khalidi M. 2010. Effect of tillage and herbicides on weed density and some physiological traits of wheat under rice-whate cropping system. Sarhad Journal Agricultur, 4: 475-487.
38- Vasilakoglou I., Dhima K., Eleftherohorinos I., and Lithourgidis A. 2006. Winter cereal cover crop mulches and inter-row cultivation effects on cotton development and grass weed suppression. Agronomy Journal, 98 (5): 1290-1297.
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