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Farklı Su Miktarları ile Uygulanan Organik Herbisitlerin Yabancı Otların Kontrolü Üzerindeki Etkisi

Yıl 2018, Cilt: 21 Sayı: 2, 26 - 30, 29.12.2018

Öz

Organik tarımda yabancı ot kontrolü için organik herbisitlerin kullanımı gün geçtikçe artmaktadır. Bu çalışmada seçici olmayan
organik herbisitlerden BioLink (%4, %6 ve %9), Matran® EC %15 ve WeedZap %15 konsantrasyonlarına adjuvan olarak BioLink
%1, farklı su miktarları (30 gal/A*=28,06 l/da ve 60 gal/A=56,12 l/da) ile uygulamalarının arazi koşullarında yazlık yabancı ot
türlerinden geniş yapraklı Amaranthus retroflexus L. (horoz ibiği) ve Portulaca oleracea L. (semiz otu) ile dar yapraklı Cyperus
rotundus L. (topalak)’un kontrolündeki etkinliği araştırılmıştır. Sonuç olarak bu çalışmada kullanılan geniş yapraklı yabancı ot
türlerinin kontrolü dar yapraklı yabancı ot kontrolüne göre daha kolay olduğu saptanmıştır. İlaçların etkinlik değerleri herbisitlerin
uygulama gününden sonra gün sayısı arttıkça azalmıştır. Ayrıca kullanılan yüksek su miktarı ilaçların etkinliği arttırmıştır. Her üç
yabancı ot türü için BioLink %9 + BioLink %1 adjuvan uygulaması (56,12 l/da) 15.gün sayımında A. retroflexus için %98,75, P.
oleracea için %92,00 ve C. rotundus için %40,00 etkili bulunmuş ve istatistiksel olarak diğer uygulamalardan farklı saptanmıştır.
* 1 gal/acre : 0,93540 l/da.

Kaynakça

  • Abouziena HFH., Omar AAM., Sharma SD, Singh M. (2009). Efficacy comparison of some new natural-product herbicides for weed control at two growth stages. Weed Technology. 23(3):431-437.
  • Anonim. (2018). Organik Tarım İstatistikleri. Türkiye İstatistik Kurumu. (Erişim, 01.06.2018. http://www.tuik.gov.tr/VeriBilgi.do.)
  • Barker AV., Prostak RG. (2008). Herbicide alternatives research. Technical Report Document Page. University of Massachusetts, Transportation Center,
  • Boyd NS., Brennan EB. (2006). Burning nettle, common purslane, and rye response to a clove oil herbicide. Weed Technology. 20(3): 646-650.
  • Chase CA., Scholberg AJM., Macdonald GE. (2004). Preliminary evaluation of nonsynthetic herbicides for weed managemant in organic orange production. Proceedings of the Florida State Horticultural Society. 117: 135-138.
  • Curran WS. (2004). Weed management in organic cropping systems. Agronomy Facts, 64.
  • EPA. (2008). Inert ingredients eligible for FIFRA 25(b) pesticide products. http://www.epa.gov/opprd001/inerts/section25b_inerts.pdf. (Erişim tarihi: 3.4.2011).
  • Evans GJ., Bellinder RR. (2009). The potential use of vinegar and a clove oil herbicide for weed control in sweet corn, potato and onion. Weed Technology, 23(1): 120-128.
  • Ferguson J. (2004). Evaluation of organic herbicides. Hortscience. 39 (4): 876.
  • Gunderson JJ., Carr PM., Winch T. (2008). An efficacy trial of potential herbicides for use in organic systems. North Dakota State University, Dickinson Research Extension Center,
  • IFOAM. (2017). The World of Organic Agriculture. Statistics and Emerging Trends 2017., FIBL and IFOAM - Organics International. Edit. H. Willer and J. Lernoud. Switzerland.
  • James TK., Rahmani A., Trolove M., Frith H. (2002). Efficacy of a certified organic herbicide based on pine essence. New Zealand Plant Protection. 55:207-212.
  • Johnson B. (2010). Organic herbicides becoming more effective, experts say. AgAlert (The weekly newspaper for California agriculture).
  • Koloren O., Lanini T. (2015). Organik herbisitler ve etkinliği”, Ekoloji 2015 Sempozyumu, 6-9 Mayıs 2015, Sinop, 333 s.
  • Kolören O., Lanini WT. (2018). Geniş Yapraklı Yabancı Otların Kontrolünde Organik Herbisitlerin Kullanımı. Akademik Ziraat Dergisi, 7(1):17-20.
  • Lanini WT. (2010). Organic herbicides - do they work? California Weed Science Society Journal. 6(1): 1-3.
  • Lanini WT. (2011). Organic herbicides and other organic weed control approaches. Türkiye IV. Bitki Koruma Kongresi Bildirileri. 28-30 Haziran 2011, Kahramanmaraş. Çağrılı bildiri, sayfa 3.
  • Mennan H., Ngouajiob M., Isık D., Kaya E. (2006). Effects of alternative management systems on weed populations in hazelnut (Corylus avellana L.). Crop Protection 25: 835–841.
  • Pacanoski Z. (2015). Bioherbicides. Herbicides, physiology of action, and safety. InTech, Chapter 11. http://dx.doi.org/10.5772/61528. 253-274.
  • Quarles W. (2013). New biopesticides for IPM and organic production. The IPM Practitioner Monitoring the Field of pest Management. Vol. XXXIII, 7/8 July/August 2011. 1-9.
  • Schonbeck M. (2011). Principles of sustainable weed management in organic cropping systems. In Workshop for Farmers and Agricultural Professionals on Sustainable Weed Management, 3rd ed.; Clemson University: Clemson, SC, USA.
  • Smith R. (2004). Post emergence organic weed control in onions and broccoli. Crop Notes. 10-12.
  • Webber CL III., Shrefler JW. (2007). Organic weed control with vinegar:application volumes and adjuvants. Proceedings of Horticultural Industry Show. 26: 149-151.
  • Webber CL III., Shrefler JW. (2009). Broadcast application of Matran for broadleaf weed control in spring-transplanted onions. In: 2008 Weed Control Report. Brandenberger, L. and Wells, L. (eds.). MP-162:17-19. Oklahoma State University, Division of Agricultural Sciences and Natural Resources, Department of Horticulture & Landscape Architecture. Stillwater, OK, USA.
  • Webber CL III., Shrefler JW., Brandenberger LP. (2012). Organic weed control. InTech. 185-198. DOI:10.5772/32539.
  • Winer BJ. (1971). Statistical principles and experimental desing. 2nd Edition. McGraw-Hill Book Co. NY:397-401.

Effect of Organic Herbicides Applied by Different Water Volume on Weed Control

Yıl 2018, Cilt: 21 Sayı: 2, 26 - 30, 29.12.2018

Öz

The use of organic herbicides for controlling weeds in organic agriculture is increasing day by day. In this study, non-selective
organic herbicides BioLink (4%, 6% and 9%), Matran® EC 15% and WeedZap 15% by adjuvant BioLink 1% with using different
amounts of water (30 gal/A*=28.06 l/da and 60 gal/A=56.12 l/da) were investigated for the control of broadleaf weeds Amaranthus
retroflexus L. (redroot pigweed), Portulaca oleracea L. (Common purslane) and narrowleaf Cyperus rotundus L. (Purple nutsedge)
from summer weed species in field conditions . As a result, control of broadleaf weed species was found to be easier than
narrowleaf weed control in this research. The efficacy values of herbicides decreased as the number of days increased after the
application day of the herbicides. In addition, the amount of high volume water used increased the effectiveness of the herbicides.
BioLink% 9 + BioLink%1 adjuvant application (56.12 l/da) for all three weed species was effective at 98.75% for A. retroflexus,
92.00% for P. oleracea and 40.00% for C. rotundus at 15th day count and statistically different from other applications.
* 1 gal/acre : 0.93540 l/da.

Kaynakça

  • Abouziena HFH., Omar AAM., Sharma SD, Singh M. (2009). Efficacy comparison of some new natural-product herbicides for weed control at two growth stages. Weed Technology. 23(3):431-437.
  • Anonim. (2018). Organik Tarım İstatistikleri. Türkiye İstatistik Kurumu. (Erişim, 01.06.2018. http://www.tuik.gov.tr/VeriBilgi.do.)
  • Barker AV., Prostak RG. (2008). Herbicide alternatives research. Technical Report Document Page. University of Massachusetts, Transportation Center,
  • Boyd NS., Brennan EB. (2006). Burning nettle, common purslane, and rye response to a clove oil herbicide. Weed Technology. 20(3): 646-650.
  • Chase CA., Scholberg AJM., Macdonald GE. (2004). Preliminary evaluation of nonsynthetic herbicides for weed managemant in organic orange production. Proceedings of the Florida State Horticultural Society. 117: 135-138.
  • Curran WS. (2004). Weed management in organic cropping systems. Agronomy Facts, 64.
  • EPA. (2008). Inert ingredients eligible for FIFRA 25(b) pesticide products. http://www.epa.gov/opprd001/inerts/section25b_inerts.pdf. (Erişim tarihi: 3.4.2011).
  • Evans GJ., Bellinder RR. (2009). The potential use of vinegar and a clove oil herbicide for weed control in sweet corn, potato and onion. Weed Technology, 23(1): 120-128.
  • Ferguson J. (2004). Evaluation of organic herbicides. Hortscience. 39 (4): 876.
  • Gunderson JJ., Carr PM., Winch T. (2008). An efficacy trial of potential herbicides for use in organic systems. North Dakota State University, Dickinson Research Extension Center,
  • IFOAM. (2017). The World of Organic Agriculture. Statistics and Emerging Trends 2017., FIBL and IFOAM - Organics International. Edit. H. Willer and J. Lernoud. Switzerland.
  • James TK., Rahmani A., Trolove M., Frith H. (2002). Efficacy of a certified organic herbicide based on pine essence. New Zealand Plant Protection. 55:207-212.
  • Johnson B. (2010). Organic herbicides becoming more effective, experts say. AgAlert (The weekly newspaper for California agriculture).
  • Koloren O., Lanini T. (2015). Organik herbisitler ve etkinliği”, Ekoloji 2015 Sempozyumu, 6-9 Mayıs 2015, Sinop, 333 s.
  • Kolören O., Lanini WT. (2018). Geniş Yapraklı Yabancı Otların Kontrolünde Organik Herbisitlerin Kullanımı. Akademik Ziraat Dergisi, 7(1):17-20.
  • Lanini WT. (2010). Organic herbicides - do they work? California Weed Science Society Journal. 6(1): 1-3.
  • Lanini WT. (2011). Organic herbicides and other organic weed control approaches. Türkiye IV. Bitki Koruma Kongresi Bildirileri. 28-30 Haziran 2011, Kahramanmaraş. Çağrılı bildiri, sayfa 3.
  • Mennan H., Ngouajiob M., Isık D., Kaya E. (2006). Effects of alternative management systems on weed populations in hazelnut (Corylus avellana L.). Crop Protection 25: 835–841.
  • Pacanoski Z. (2015). Bioherbicides. Herbicides, physiology of action, and safety. InTech, Chapter 11. http://dx.doi.org/10.5772/61528. 253-274.
  • Quarles W. (2013). New biopesticides for IPM and organic production. The IPM Practitioner Monitoring the Field of pest Management. Vol. XXXIII, 7/8 July/August 2011. 1-9.
  • Schonbeck M. (2011). Principles of sustainable weed management in organic cropping systems. In Workshop for Farmers and Agricultural Professionals on Sustainable Weed Management, 3rd ed.; Clemson University: Clemson, SC, USA.
  • Smith R. (2004). Post emergence organic weed control in onions and broccoli. Crop Notes. 10-12.
  • Webber CL III., Shrefler JW. (2007). Organic weed control with vinegar:application volumes and adjuvants. Proceedings of Horticultural Industry Show. 26: 149-151.
  • Webber CL III., Shrefler JW. (2009). Broadcast application of Matran for broadleaf weed control in spring-transplanted onions. In: 2008 Weed Control Report. Brandenberger, L. and Wells, L. (eds.). MP-162:17-19. Oklahoma State University, Division of Agricultural Sciences and Natural Resources, Department of Horticulture & Landscape Architecture. Stillwater, OK, USA.
  • Webber CL III., Shrefler JW., Brandenberger LP. (2012). Organic weed control. InTech. 185-198. DOI:10.5772/32539.
  • Winer BJ. (1971). Statistical principles and experimental desing. 2nd Edition. McGraw-Hill Book Co. NY:397-401.
Toplam 26 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Araştırma Makalesi
Yazarlar

Onur Kolören

W. Thomas Lanını Bu kişi benim

Yayımlanma Tarihi 29 Aralık 2018
Kabul Tarihi 30 Eylül 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 21 Sayı: 2

Kaynak Göster

APA Kolören, O., & Lanını, W. T. (2018). Farklı Su Miktarları ile Uygulanan Organik Herbisitlerin Yabancı Otların Kontrolü Üzerindeki Etkisi. Turkish Journal of Weed Science, 21(2), 26-30.

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