پديد آورندگان :
عباسي، هومن دانشگاه تربيت مدرس - دانشكده كشاورزي - گروه زراعت , آقاعليخاني، مجيد دانشگاه تربيت مدرس - دانشكده كشاورزي - گروه زراعت , حمزه ئي، جواد دانشگاه بوعلي سينا - دانشكده كشاورزي - گروه زراعت و اصلاح نباتات
كليدواژه :
اسيد چرب , بيوفسفات , خاكپوش , شاخص برداشت
چكيده لاتين :
Introduction: Pumpkin (Cucurbita pepo var. Styriaca) is one of the medicinal plants belonging to the
Cucurbitaceae family. It is valuable in terms of seed oil and its fatty acids. The seed oil of this crop is widely
used in the pharmaceutical industry. Reduction of agrochemicals (herbicides and fertilizers) is considered as
research priority in medicinal plants production. Therefore, the selected practices and inputs should be
environmentally sound, cost-effective and lead to high yield. Because of large inter-row space in pumpkin field,
there is vast area of the bare soil which leads to weed establishment and loss of soil moisture. It seems that black
plastic mulch protects soil moisture and controls weeds, thus increases seed yield. Also, biofertilizers due to
available micronutrients, solubility of phosphorus, biological nitrogen fixation and phyto-hormones production
increase the yield and improve the quality characteristics such as the seed oil and seed protein content.
Therefore, in this research, the effect of black plastic mulch and biofertilizer on yield and quality of pumpkin
under different irrigation intervals were studied.
Materials and Methods: This experiment was carried out as split plot factorial based on randomized
complete block design with three replications at Agricultural Research Station, Bu-Ali Sina University of
Hamedan during 2013 growing season. Treatments were included two irrigation intervals (I1: 7 days and I2: 12
days interval), black plastic mulch in two levels (M1: mulch and M2: no mulch), and four fertilizer regimes (F1:
Supply 25% of nitrogen and phosphorus requirements of plants from chemical sources (urea + triple super
phosphate) + biofertilizers (nitroxin+bio-phosphate), F2: Supply 50% of nitrogen and phosphorus requirements
of plants from chemical sources + biofertilizers, F3: Supply 75% of nitrogen and phosphorus requirements of
plants from chemical sources + biofertilizers and F4: Supply 100% of nitrogen and phosphorus requirements of
plants from chemical sources). , Biological yield, fruit yield, seed yield, harvest index, seed oil percent and oil
yield, seed protein percent and protein yield and fatty acid profile were measured in the end of growing season.
Harvest index was calculated by dividing the seed yield to biological yield. The seed oil was extracted by using
the Soxhlet method and seed protein content was measured by Kjeldahl method. Fatty acids profile were also
determined using gas chromatography device (GC) based on Metcalf et al. method. Data were analyzed by using
the statistical analysis system (SAS, Ver. 9.2) and means were compared with LSD test at the 5% level of
probability.
Results and Discussion: Results indicated that more traits of pumpkin were affected by three way
interaction. The highest biological yield, seed and oil yield were obtained in the I1M1F3, I2M1F3 and I2M1F3
treatments, respectively. 12 day irrigation interval, using of black plastic mulch and 75% chemical fertilizers +
biofertilizers application had the highest protein yield (364.05 kg per hectare). Using of biofertilizers with supply
75% of the nitrogen and phosphorus requirements of plants from chemical sources, provided proper nutritional
conditions for plant growth and increased fruit and seed yields. Also, using of black plastic mulch with 12 days
irrigation interval increased yield due to the maintenance of soil moisture and weeds control. The major fatty
acids in seed oil were unsaturated. The amount of unsaturated fatty acids such as linolenic acid (0.1 to 0.25 %),
linoleic acid (36.5 to 57.44 %), oleic acid (21.5 to 39.5 %), and saturated fatty acids including palmitic acid (8.5
to 14.5%) and stearic acid (5 to 7%) were variable. Other fatty acids in seed oil of pumpkin were including
arachidonic, myristic, and palmitoleic acid. Conclusions: The results of this study indicated that I2M1F3 treatment could be introduced as the superior
because in the circumstance of this treatment, chemical fertilizer decreased by 25%, weeds were controlled nonchemically
and maximum fruit, seed and oil yield with 59554, 1559 and 731 kg per hectare, respectively, were obtained with less water amount. Seed oil of this treatment had 33.89% oleic acid and 44.9% linoleic acid in its
fatty acid profile, which could be considered as a high quality oil. Therefore with correct management of inputs
such as the replacement of chemical fertilizers by the biofertilizers, reducing water consumption and nonchemical
weed control using mulch, acceptable yield will be achieved and our agroecosystem would be closer to
sustainable production and development.
