ارزیابی شیوه‌های تهیه بستر بذر و کاربرد علف‌کش در مدیریت علف‌های هرز لوبیا (Phaselous vulgaris L.)

نوع مقاله : مقالات پژوهشی

نویسندگان

1 علوم کشاورزی و منابع طبیعی خوزستان

2 دانشگاه علوم کشاورزی و منابع طبیعی خوزستان

3 استادیار گروه مهندسی تولید و ژنتیک گیاهی دانشگاه علوم کشاورزی و منابع طبیعی خوزستان

چکیده

علف‌های هرز یکی از مهمترین عوامل کاهش دهنده عملکرد لوبیا می‌باشند. به منظور بررسی اثر روش‌های تهیه بستر کاشت و مصرف علف‌کش‌های خاک کاربرد بر عملکرد و اجزای عملکرد لوبیا آزمایشی به صورت فاکتوریل در قالب طرح بلوک‌های کامل تصادفی در چهار تکرار، در سال زراعی 1395-1394 در روستای حاتم آباد، واقع در بخش فیروزآباد شهرستان سلسله، در استان لرستان اجرا شد. عوامل مورد بررسی شامل تهیه بستر کاشت در دو سطح (دائم و غیردائم) و علف‌کش‌های خاک کاربرد در سه سطح شامل ]لینوران (5/1 لیتر در هکتار)، ای‌پی‌تی‌سی (3 لیتر در هکتار)، تریفلورالین (5/1 لیتر در هکتار)[ بودند. همچنین دو تیمار عدم کنترل علف‌های هرز (به عنوان شاهد آلوده) و وجین دستی به عنوان تیمار مهار علف‌های هرز در نظر گرفته شدند. نتایج نشان داد بیشترین درصد کاهش وزن خشک علف‌های هرز در 30 روز پس از سمپاشی به ترتیب متعلق به بستر بذر دائم به همراه کاربرد علف‌کش‌های ای‌پی‌تی‌سی (09/79 درصد)، و تریفلورالین (57/78 درصد) بود. درصد کاهش وزن خشک علف‌های هرز 60 روز پس از کاربرد علف‌کش در بستر کاشت غیردائم (58/76 درصد) کمتر از بستر کاشت دائم (34/84 درصد) بود. بیشترین درصد افزایش تعداد غلاف در بوته نسبت به شاهد آلوده متعلق به تیمار وجین (01/52 درصد) و پس از آن به لینورون (05/42 درصد)، ای‌پی‌تی‌سی (43/40 درصد) و تریفلورالین (34/34 درصد) بود. بیشترین درصد افزایش تعداد دانه در غلاف متعلق به تیمار وجین (14/36 درصد) و پس از آن ای‌پی‌تی‌سی (54/29 درصد)، لینورون (06/28 درصد) و تریفلورالین (06/28 درصد) بودند. در خصوص عملکرد دانه، بیشترین درصد افزایش به ترتیب متعلق به وجین (92/52 درصد)، ای‌پی‌تی‌سی (11/44 درصد)، لینورون (13/31 درصد) و تریفلورالین (30/30 درصد) بودند. بیشترین درصد افزایش عملکرد بیولوژیک به ترتیب متعلق به به وجین (46/32 درصد)، لینورون (50/25 درصد)، ای‌پی‌تی‌سی (81/20درصد) و تریفلورالین (83/17 درصد) بود. بیشترین درصد افزایش شاخص برداشت متعلق به وجین (33/34 درصد) و پس از آن لینورون (37/21 درصد)، ای‌پی‌تی‌سی (85/19 درصد) و تریفلورالین (23/18 درصد) بودند. به طورکلی، تریفلورالین نسبت به ای‌پی‌تی‌سی و لینوران به میزان بیشتری علف‌های هرز را مهار نمود. همچنین، درصد کاهش وزن خشک علف‌های هرز در بستر بذر دائم نسبت به بستر بذر کاذب بیشتر بود.

کلیدواژه‌ها

عنوان مقاله [English]

Evaluating Seedbed Preparing Methods and Herbicide Application in Weed Management of Common Bean (Phaseolus vulgaris L.)

نویسندگان [English]

  • M.A. Fathi 1
  • E. Elahifard 2
  • Abdolreza Siahpoosh 3
1 Agricultural Sciences and Natural Resiurces University of Khuzestan
2 Agricultural Sciences and Natural Resources University of Khuzestan
3 Assistant professor of agronomy, Production Engineering and Plant Genetics,, Department, Agricultural Sciences and Natural Resources University of Khuzestan
چکیده [English]

 
Introduction: Phaseolus vulgaris L., known as the common bean and green bean among other names, is a herbaceous annual plant grown worldwide for its edible dry seeds or unripe fruit. Weeds are one of the most important factors in reducing the yield of common bean. Since tillage promotes germination of many weed species, tillage followed by destruction of weed seedlings with minimal further soil disturbance often leads to lower weed density in the crop. This is referred to as the stale seedbed method of planting. In false seedbed technique, preparation of a seedbed is followed by one or more superficial cultivations as about one-week intervals prior to planting the crop. Although these procedures are widely used by farmer, they have received little scientific study. This experiment was conducted to investigate the combined method of using seed bean bed preparation with application of herbicides such as EPTC, linuron, and trifluralin, in order to bean weeds control in Aleshtar region.
Materials and Methods: In order to investigate the effect of seedbed preparing methods and soil applied herbicides in weed management and yield of common bean, an experiment was carried out as factorial in a randomized complete block design with four replications in 2015-2016 growing season in Hatam Abad village, Selseleh, Aleshtar, Lorestan, Iran. Experimental factors included seedbed at two levels (fasle seedbed and stale seedbed) and soil applied herbicides at three levels (EPTC (3 L ha-1), linuron (1.5 L ha-1), and trifluralin (1.5 L ha-1)). Two treatments including weed infested (as control) and weed free (as treatment), are also considered. Each plot was divided into two parts, one infested with weed (as contaminated control) and the other treated with herbicide. The percent reduction of weed density and dry weight were calculated at 30 and 60 days after spraying. The studied traits were plant height, number of pods per plant, number of branches per plant, length of pod per plant and number of seeds per pod, economic and biological yield and harvest index. The SAS9.2 software was used to analyze the data.
Results and Discussion: The results showed that weed dry weight reduction (79.09% and 78.57%) was greatest in stale seedbed plus EPTC and trifluralin at 30 days after herbicide application (DAHA), respectively. While, the lowest reduction in weed dry weight (28.27% and 35.41%) was observed in stale and false seedbed with linuron application. Weed dry weight reduction at 60 DAHA in false seedbed (76.58%) was lesser than stale seedbed (84.34%). The highest and lowest weed density and dry weight reduction percentages (90.38% and 89.69%) and (64.48% and 64.48%)) were obtained trifluralin and linuran, respectively. The highest percentage of increase in number of pods per plant belonged to weed free (52.01%), followed by linuron (42.5%), EPTC (40.43%) and trifluralin (34.34%). The highest percentage of increase in the number of seeds per pod belonged to weed free (36.14%) and then EPTC (29.54%), linuron (28.06%), and trifluralin (28.06%). Regarding grain yield, the highest percentages were weed free (52.92%), EPTC (44.11%), linuron (31.13%) and trifluralin (30.30%), respectively. The highest percentage of biological yield increase belonged to weed free (32.46%), linuron (25.5%), EPTC (20.81%), and trifluralin (17.83%), respectively. The highest percentage of harvest index belonged to weed free (34.33%), followed by linuron (21.37%), EPTC (19.55%), and Trifluralin (18.23%).
Conclusion: The result of present study showed that trifluralin could control weed more than EPTC and linuron. The weed dry weight reduction percentage in the stale seedbed was also higher than that of the false seedbed. In all treatment, the percentage of yield increase of weed free was higher than the other treatments. Except for grain yield, which showed a significant difference in herbicide treatments, other treatments did not differ significantly. Totally, the false seedbed technique has several limitations. First it can only be effective if the soil is warm and moist enough to allow germination of weed seeds. A second limitation is that the soil is kept bare and loose for a more period, and this may lead to more erosion. A third limitation is that yield may be lost if planting is delayed by the pre-plant cultivation. A fourth problem is that although cultivation prior to planting may greatly reduce one set of species, if planting is delayed, a new set of species may become physiologically ready to germinate.

کلیدواژه‌ها [English]

  • grain yield
  • stale and false seedbed
  • weed density and dry weight

مراجع

1- Ahmadi A.R., Rashed Mohassel M.H., Baghestani Meibodi M.A., and Rostami M. 2004. The effects of critical period of weed competition on yield, yield components and morphological characteristics of dry bean (Phaseolus vulgaris L.) cultivar Derakhshan (K.R.D-29). Journal of Plant Pests and Diseases 72(1): 31-49. (In Persian with English abstract)
2- Anonymous. 2014. Agricultural Statistical Book. Ministry of Agriculture-Jahad.
3- Bagheri A.R .2006. An analysis to strategy of pulse research in Iran based upon the first national pulse symposium approaches. Iranian Journal of Field Crops Research 4(1): 1-13. (In Persian with English abstract)
4- Bagheri A., Rahimian H., and Oveisi M. 2018. The effect of interaction between imazethapyr herbicide dose and bean cultivar (Phaseolus vulgaris L.) on weed control. Journal of Plant Protection 32(1): 1-9. (In Persian with English abstract)
5- Canevari W.M., Vargas R.N., and Orloff S.B. 2007. Weed Management in Alfalfa. p. 18. In C.G. Summers, and D.H. Putnam (ed.) Irrigated Alfalfa Management for Mediterranean and Desert Zones. Oakland: University of California Agriculture and Natural Resources Publication 8294.
6- Farhangfar M., Saydi H., Entesari M., Rahimian H., and Moghaddam H. 2012. Evaluation of chemical weed management on two varieties of red beans in stale seedbed system. Iranian Journal of Weed Science 8(1): 101-110. (In Persian with English abstract)
7- Gerami A., Siadat S.A. Bakhshandeh A. Fathi G., and Alami Saeid K. 2013. Determination of critical weed of corn (Zea mays L.) in Ahvaz region. The Plant Production (Scientific Journal of Agriculture) 36(1): 39-49. (In Persian with English abstract)
8- Ghatari A.S., and Roozbahani A. 2015. Chemical and mechanical weed control methods and their effects on photosynthetic pigments and grain yield of kidney bean. Journal of Crop Ecophysiology 9(3): 461-476. (In Persian with English abstract)
9- Gholipoor H., Mirshekari B., Hossein Zadeh Moghbeli A.H., and Hanifiyan, S. 2010. Critical period of weed control in sunflower's field. Journal of New Agricultural Science 17(2): 75-82. (In Persian with English abstract)
10- Liebman M., Mouler C.L., and Staver C.P. 2004. Ecological Management of Agricultural Weeds. Cambridge University Press.
11- Mousavi S.K., Nazer Kakhki S.H., Lack M.R., Tabatabaii R., and Behrozi D. 2011. Evaluation of imazethapyr herbicide efficiency for weed control in common bean (Phaseolus vulgaris L.). Iranian Journal of Pulses Research 1(2): 111-122. (In Persian with English abstract)
12- Musavi M.R. 2013. Herbicides, Knowledge and Application. Marz-e Danesh Publishing House. (In Persian)
13- Parsa M., and Bagheri A. 2008. Pulses. Jahad-e Daneshgahi Mashhad Publication. (In Persian)
14- Pourreza J. 2017. Evaluating the wheat (Triticum aestivum) yield loss caused by wild oat (Avena fatua) interference at nitrogen different levels. The Plant Production (Scientific Journal of Agriculture) 40(1): 41-52. (In Persian with English abstract)
15- Sadeghipour O., and Ghaffari Khaligh H. 2002. Effects of weeding and different herbicides on weed control in common bean (Phaseolus vulgaris L.). Iranian Journal of Crop Science 4(4): 277-282. (In Persian with English abstract)
16- Stagnari F., and Pisante M. 2011. The critical period for weed competition in French bean (Phaseolus vulgaris L.) in Mediterranean areas. Crop Protection 30: 179-184.
17- Yousefi A.R., and Peri M.A. 2015. Use of false seedbed and reduced doses of imazethapyr for weed management in common bean (Phaseolus vulgaris L.). Iranian Journal of Pulses Research 6(1): 108-116. (In Persian with English abstract)
18- Zand E., Baghestani M.A., Nezamabadi N., Shimi P., and Mousavi S.K. 2017. A Guide to Chemical Control of Weeds in Iran. Jahad-e Daneshgahi Mashhad Publication. (In Persian)
ارسال نظر در مورد این مقاله
CAPTCHA Image

فایل ها

هم رسانی

ارجاع به این مقاله

آمار