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Articles by Nazim Hussain
Total Records ( 4 ) for Nazim Hussain
  M. Bismillah Khan , M. Asif , Nazim Hussain and Mudassar Aziz
  Response of ten mungbean genotypes 98-CMG-003, 98-CMG-016, 98-CMG-018, L1/P5/89, NM-1, BRM-195, BRM-202, M-1, M-6 and NM-92 to three phosphorus level viz. 30, 60 and 90 kg ha-1 was studied under field conditions during kharif 2001. The genotype BRM-202 gave significantly highest grain yield of all other genotypes due to higher leaf area index. Various levels of phosphorus significantly affected the number of plants m-2, number of pods plant-1, plant height, number of grains pod-1, 1000 grain weight, grain yield, total biomass and leaf area index. phosphorus level of 90 kg ha-1 produced the maximum grain yield.
  Nazim Hussain , Imran Haider Shamsi , Sherin Khan , Habib Akbar and Wajid Ali Shah
  This experiment was conducted to study the beneficial effect of legumes and inorganic quantities of N on maize crop. Different levels of nitrogen i.e. 0, 40, 80 and 120 kg ha-1 were used. Besides maize alone, intercrops were; maize+mungbean, maize+pigeon pea and maize+janter. Maize @ 40, mungbean 20, pigeon pea 50 and janter at 25 kg ha-1 were used respectively. Maximum seedlings emerged m‾2 (40.20) was obtained at 120 kg N ha-1 in maize alone. Maximum days (61.7) to earing were taken by maize intercropped with janter. Maximum days (67.50) to silking were taken by maize+janter intercrop at 0 kg N ha-1. Maximum plant height (165.50 cm) was observed in maize alone at 120 kg N ha-1. Maximum cob length (12.55 cm) was noticed in maize and mungbean intercrop under 40 kg N ha-1. Maximum biological yield (28429.63 kg ha ha-1) was obtained from maize alone by 40 kg N ha-1. Maximum number of grains cob-1 (309) was obtained from maize and pigeon pea intercropping at 120 kg N ha-1. For maximum yield potential maize alone and maize+mungbean intercropping was at par statistically at 80 and 40 kg N ha-1 by giving 3463 and 3444 kg ha-1 yield, respectively. Overall legume intercrop was superior by decreasing less yield of maize crop in addition to legume seed yield and N cost minimization.
  Mujtaba Masood , Imran Haider Shamsi , Nazim Hussain and Wajid Ali Shah
  Field experiment was conducted to study the performance of various maize varieties as affected by different NP levels. Analysis of the data revealed that days to tasseling (82.96), thousand grain weight (268 g), biological yield (20293 kg ha-1), and grain yield (3193 kg ha-1) was significantly affected by different varieties. In case of fertilizer levels days to tasseling (77), biological yield (20067 kg ha-1), grain yield (3073 kg ha-1), and harvest index (15.6) was significantly affected by different NP levels. Similarly, interaction between varieties and NP had a significant effect on days to tasseling, thousand grain weight, biological yield, harvest index and grain yield. Variety “Hybrid No. 922” produced maximum days to tasseling (83), thousand grain weight (268 g), biological yield (20293 kg ha-1), and grain yield (3193 kg ha-1) when compared to other varieties. When the effect of different levels of NP was taken into an account, it was revealed that plots treated with NP levels of 120: 60 kg NP ha-1 produced maximum grain yield (3070 kg ha-1) and harvest index (14.94).
  Nazim Hussain , Muhammad Aslam Khan and Muhammad Amjad Javed
  A field experiment was conducted to study the effect of nutrient mixture Plant Care sprayed on foliage at different physiological growth stages of wheat. The composition of the nutrient mixture Plant Care was N 200 g, P2O5 200 g, K2O 200 g, Zn 750 mg, Iron 1500 g, Copper 750 mg, Boron 300 mg, Manganese 750 mg, Magnesium 375 mg and Molybdenum 8 mg. The results indicated that there were non-significant differences in number of plants m 2, total number of tillers per plant and number of fertile tillers per plant. A significant improvement in number of grains per spike and 1000 grain weight was found when the nutrient mixture was sprayed on wheat foliage at three growth stages i.e. at tillering, booting and milking. Spraying micronutrients at tillering and/or booting and milking growth stage(s) increased the grain yield of wheat. The foliar spray of micronutrients at the same stages also gave maximum biological and straw yields. The values of harvest index were non-significant with each other. The maximum net profit was gathered in foliar spray of micronutrients at tillering+booting+milking growth stages of wheat. The booting stage appeared the most suitable physiological stage for foliar application of micronutrients. The other stage for the application of micronutrients might be tillering.
 
 
 
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