اثر سطوح بقاياي آفتابگردان (Helianthus annuus L.) بر خصوصيات جمعيت علف‌هاي‌هرز و عملكرد و اجزاي عملكرد نخود (Cicer arietinum L.)

Impact of sunflower (Helianthus annuus) residue levels on characteristics of weed population and yield and yield components of chickpea (Cicer arietinum)

به‌منظور بررسی تأثیر مقادیر مختلف بقایای اندام‌های هوایی آفتابگردان بر جمعیت، تراكم، زیست‌توده و تنوع علف‌های هرز و اجزای عملكرد و عملكرد بیولوژیكی و دانه نخود (Cicer arietinum L.)، آزمایشی در مزرعه تحقیقاتی دانشكده كشاورزی دانشگاه فردوسی مشهد در سال زراعی 92-1391 در قالب طرح بلوك‌های كامل تصادفی با چهار تكرار اجرا شد. تیمارها شامل مصرف صفر، 625، 1250، 1875 و 2500 كیلوگرم در هكتار بقایای اندام‌های هوایی آفتابگردان براساس 5/2 تن در هكتار بودند. صفات مورد بررسی شامل تراكم، زیست‌توده و شاخص تنوع شانون- وینر علف‌های هرز در دو مرحله نمونه‌برداری، ارتفاع ساقه اصلی، فاصله اولین غلاف از سطح خاك، اجزای عملكرد شامل تعداد شاخه‌فرعی، تعداد غلاف، تعداد دانه و وزن 100 دانه و عملكرد بیولوژیكی و دانه نخود بود. نتایج نشان داد كه 14 گونه علف هرز از 10خانواده طی دو مرحله نمونه‌برداری مشاهده شد كه در این میان، گندمیان با چهار گونه غالب‌ترین خانواده بود. اثر مقادیر بقایای آفتابگردان بر تراكم، زیست‌توده و شاخص تنوع شانون- وینر علف‌های هرز در هر دو مرحله نمونه‌برداری معنی‌دار (01/0p≤) بود. با افزایش مصرف بقایای آفتابگردان تراكم و زیست‌توده علف‌های هرز در هر دو مرحله نمونه‌برداری كاهش یافت. پایین‌ترین شاخص تنوع شانون- وینر علف‌های هرز در مرحله اول و دوم نمونه‌برداری به‌ترتیب با 2/0 و 03/0 به تیمار 2500 كیلوگرم در هكتار بقایای آفتابگردان اختصاص داشت. همچنین خصوصیات رشد، اجزای عملكرد و عملكرد نخود به‌طور معنی‌داری تحت تأثیر مقادیر بقایای آفتابگردان قرار گرفت (01/0p≤). بالاترین عملكرد بیولوژیكی و دانه نخود به‌ترتیب برابر با 9/237 و 2/97 كیلوگرم در هكتار برای تیمار 2500 كیلوگرم در هكتار بقایا مشاهده گردید. چنین به نظر می‌رسد كه افزایش مصرف بقایای آفتابگردان با كاهش رشد علف‌های هرز و بهبود خصوصیات خاك، موجب بهبود رشد و عملكرد نخود شده است. بدین ترتیب، در راستای دستیابی به اصول كشاورزی پایدار می‌توان مصرف بقایای اندام‌های آفتابگردان را برای كنترل علف‌های هرز و بهبود عملكرد نخود به‌عنوان یكی از حبوبات مهم و ارزشمند مدنظر قرار داد.

Introduction Weeds deprive the crop plants from limited available nutrients, space, light, and moisture. Hence, the physiological activities and growth of crops are negatively affected in the presence of weeds. Ultimately, poor crop productivity is the result of weed-crop competition. Allelopathy is primarily based on the ability of certain plant species to produce secondary chemical compounds, which exert some sorts of biological ef fects on other organisms (Waller, 2004). It is biochemical interaction between individuals and ecological communities systems. Allelopathic compounds are released into the soil through root exudation, leaching by dews and rains, volatilization and decaying different plant tissues in soil (Rice, 1984). The transport of allelochemicals to target weed species is facilitated by microorganisms. Allelochemicals also, promote the activities of soil microbes, which pose a positive effect on crop plants. In many cases, these compounds inhibit the germination or growth of neighboring plants (Ebana et al., 1981) and affect plant populations (Chase et al., 1991). Sunflower contains water-soluble allelochemicals that inhibit the germination and growth of other species (Sadeghi et al., 2010), and could be used in weed management programs. Orooji et al. (2008) evaluated allelopathic potential of sunflower on redroot pigweed and common lambsquarter in the laboratory and greenhouse experiments. Ashrafi et al. (2008b) studied the allelopathic effects of sunflower on germination and growth of wild barley. Chickpea (Cicer arietinum L.) is the third most important legume worldwide. It is predominantly grown as a post-rainy season crop on conserved soil moisture and experiences progressive terminal drought stress with varying intensity. Chickpea is a weak competitor against weeds and availability of post–emergence herbicides particularly against broad-leaf weeds is limited (Solh & Palk, 1990). Materials and Methods In order to study the effect of sunflower residue levels on population, density, dry weight and diversity of weeds and yield components, biological yield and grain yield of chickpea (Cicer arietinum L.), an experiment was performed based on a randomized complete block design with four replications at the Agricultural Research Station, Ferdowsi University of Mashhad, Mashhad during 2013. Treatments included application of zero, 625, 1250, 1875 and 2500 kg.ha-1 sunflower residues. Traits such as density, dry weight and Shannon-Wiener diversity index of weeds at two sampling stages, height of main stem, distance of first pod to soil surface, number of branches, pods and 100-seed weight, biological yield and grain yield of chickpea were measured. Results and Discussion The results indicated that 14 weed species belong to 10 families were observed at two sampling stages. Poaceae was the most dominant family amongst these. The effect of sunflower residue levels was significant (p≤0.01) on weed density and dry weight and Shannon-Wiener diversity index at two sampling stages. Increasing the residue level considerably declined the density and dry weight of weeds. At the first and second sampling stages, the lowest Shannon-Wiener index was recorded at 2500 kg sunflower residue ha-1 with 0.2 and 0.03, respectively. Moreover, growth characteristics, yield components and yield of chickpea were significantly affected by sunflower residue levels (p≤0.01). The maximum biological yield and grain yield were observed in 2500 kg.ha-1 sunflower residue with 237.9 and 97.2 kg.ha-1, respectively. It seems that the application of increased residue levels of sunflower through decreasing weed growth and improvement of soil characteristics has resulted in an enhanced growth and yield of chickpea. So, in order to achieve the principles of sustainable agriculture, the application of sunflower residues could be considered for weed control and yield enhancement of chickpea as an important and valuable legume. Conclusions Allelopathic crops express their allelopathic activity through exudation of allelochemicals. Growing allelopathic crop may become an important way to suppress weeds, especially So the use of allelopathic plant residues as mulches are important ways that can be practiced for economical, environment friendly weed management in agricultural systems. The allelopathic potential of crops is desired to be strengthened using conventional and modern plant breeding techniques.