فتوی کا اسلامی منہج: مجموع فتاوی ابن تیمیہ کے تناظر میں

Im฀m Ibn Taymiyyah is a well-known scholar of Muslims. He was an ocean of knowledge and wisdom. His books prove his excellence He was born in 661 Hijrah in Harr฀n (Syria). He learned every kind of knowledge especially religious knowledge i. E knowledge of Qur’฀n, Tafs฀r, Had฀th, Fiqh, Jurisprudence, philosophy, inheritance law, mathematics, grammar, literature, and poetry etc. He wrote hundreds of books about the above mentioned fields. He was permitted to give Fatw฀ (verdict) in his early age. He was successful in achieving the position of Ijtih฀d (authoritative interpretation of Islamic Law). Ibn Taymiyyah Studied the Profound Books of religions and sects. Then he analyzed the works in the light of senior Imams and Qur฀n and Sunnah. He is an extra ordinary person in his knowledge and writings. In brief we can say the fatw฀s of Imam Ibn Taymiyyah have printed in thirty seven volumes. His first ratiocination in Fatwa is from the Holy Qur฀n. He presents the arguments from the Hadith and Sunnah of the Holy Prophet (S. A. W). He considered Ijm฀ ‘ (consensus of Muslim opinion) as a proof of Shar฀‘ah. He presents the point of view of various schools of thought, He trusted in the books of ancient scholars. He also answers the anticipating ambiguity and complication. A few of his fatwas begin with all praise to Allah. His fatw฀s are concordant with the life of the Muslims. In this article a deep study of fatwa of Ibn Taymiyyah has been taken as a guideline for fatwa in Islamic methodology.

Agro-Psychological Studies of Wheat Triticum Aestivum L. under Different Management System

A study on "Agro Physiological study of wheat (Triticum aestivum L.) under different management systems” was conducted at Agricultural Research Station, Serai Nourang (Bannu), NWFP – Pakistan for 2-years during 2003-04 and 2004-05. This study comprised four research experiments. An experiment entitled “To study the effect of irrigation levels under various nitrogen levels” were studied, during this experiment five irrigation levels (120 mm, 230 mm, 360 mm, 470 mm and 600 mm) and five nitrogen doses (Control, 40 kg ha -1 , 80 kg ha -1 , 120 kg ha -1 and 140 kg ha -1 ) were evaluated. Data recorded from the irrigation treatments revealed that maximum (688.45) tillers m -2 , leaf area index (1.66), grains spike -1 (70.57), 1000-grain weight (47.98 g), grain yield (2677.00 kg ha -1 ), biological yield (13978.00 kg ha -1 ), protein in gains (11.91 %), protein (6.64 %), net income (Rs. 39300.00), BCR (3.27 %) and MRR % (327.35) was noted from the plots irrigated with 470 mm water. Identical results were observed during 2004-05 and mean of both year. Statistical analysis of the data also revealed that nitrogen doses significantly affected all parameters except harvest index. It can be inferred from the data showed that maximum (713.50) tillers m -2 , leaf area index (1.74), grains spike -1 (67.06), 1000-grain weight (47.47 g), grain yield (2806.75 kg ha -1 ), biological yield (10817.13 kg ha -1 ), protein in gains (11.49 %), protein (6.33 %), net income (Rs. 34844.00), BCR (2.96 %) and MRR % (296.11) was noted from the plots fertilized with 120 kg N ha -1 . The same trend was followed during 2004-05 and pooled data. In case of interaction between irrigation and nitrogen it was observed that maximum (843.00) tillers m -2 , leaf area index (1.61), grains spike -1 (74.90), 1000-grain weight (49.72 g), grain yield (3150.00 kg ha -1 ), biological yield (16260.00 kg ha -1 ), protein in gains (15.02 %), protein (14.94 %), net income (Rs. 48087.00), BCR (3.65 %) and MRR % (364.685) was noted from the plots irrigated with 470 mm water and fertilized with 120 kg N ha - 1 . Similar trend was observed in 2004-05 and in two years average VIIIThe 2 nd experiment was conducted to study the response of wheat to various irrigation levels and different seed rates, five irrigation levels (I 1 = 120 mm, I 2 = 230 mm, I 3 = 360 mm, I 4 = 470 mm and I 5 = 600 mm) and five seed rates (S 1 = 60 kg ha -1 , S 2 = 80 kg ha -1 , S 3 = 100 kg ha - 1 , S 4 = 120 kg ha -1 and S 5 = 140 kg ha -1 ) were used.. Data recorded from the irrigation treatments revealed that maximum (362.35) tillers m -2 , grains spike -1 (64.80), leaf area index (4.24), 1000- grain weight (43.19 g), grain yield (3130.00 kg ha -1 ), biological yield (13167.50 kg ha -1 ), net income (Rs. 44283.00), BCR (3.71 %) and MRR % (370.82) was noted from the plots irrigated with 470 mm water. The same trend was followed during 2004-05 and pooled data. Statistical analysis of the data also revealed that seed rates were significantly affected all parameters except biological yield and harvest index. It can be inferred from the data showed that maximum ((346.10) tillers m -2 , grains spike -1 (62.70), leaf area index (4.08), 1000-grain weight (43.15 g), grain yield (3160.00 kg ha -1 ), biological yield (10403.00 kg ha -1 ), net income (Rs. 39967.00), BCR (3.46 %) and MRR % (345.95) was noted from the plots seeded with 120 kg ha -1 . In 2004- 05 and both year average, almost the same trend was observed. In case of interaction between irrigation and seed rate it was observed that maximum (386.25) tillers m -2 , grains spike -1 (70.00), leaf area index (4.78), 1000-grain weight (45.20 g), grain yield (3800.00 kg ha -1 ), biological yield (14287.50 kg ha -1 ), net income (Rs. 54043.00), BCR (4.26 %) and MRR % (426.35) was noted from the plots irrigated with 470 mm water and seed rate was used @ 120 kg ha -1 . Similar trend was observed in 2004-05 and in two years average. Identical results were observed during 2004-05 and mean of both years An experiment entitled “Yield and yield components of wheat as affected by different seed rates and nitrogen levels” was conducted during 2003-04 and 2004-05. Five seed rates (S 1 = 60 kg ha -1 , S 2 = 80 kg ha -1 , S 3 = 100 kg ha -1 , S 4 = 120 kg ha -1 and S 5 = 140 kg ha -1 ) and five nitrogen doses (N 0 = Control, N 1 = 40 kg ha -1 , N 2 = 80 kg ha -1 , N 3 = 120 kg ha -1 and N 5 = 140 kg ha -1 ) were applied. Analysis of the data recorded from the irrigation treatments showed that maximum (334.85) tillers m -2 , leaf area index (4.50), grains spike -1 (60.80), 1000-grain weight (41.91 g), grain yield (3957.64 kg ha -1 ), biological yield (10172.40 kg ha -1 ), protein in gains (7.13 %), protein (6.90 %), net income (Rs. 50225.00), BCR (4.28 %) and MRR % (428.27) was noted from the plots which were seeded with 120 kg ha -1 . Identical results were observed during 2004-05 and mean of both years. Statistical analysis of the data also revealed maximum (348.00) tillers m -2 , leaf area index (4.42) grains spike -1 (63.90), 1000-grain weight (42.19 g), grain yield IX(4145.14 kg ha -1 ), biological yield (10579.75 kg ha -1 ), protein in gains (9.87 %), protein (8.09 %), net income (Rs. 52831.00), BCR (4.46 %) and MRR % (446.21) was noted from the plots fertilized with 120 kg N ha -1 . The same trend was followed during 2004-05 and pooled data. In case of interaction between irrigation and nitrogen it was observed that maximum (380.75) tillers m -2 , leaf area index (5.39), grains spike -1 (68.25), 1000-grain weight (44.20 g), grain yield (4663.20 kg ha -1 ), biological yield (11270.00 kg ha -1 ), protein in gains (11.82 %), protein (13.55 %), net income (Rs. 60179.00), BCR (4.88 %) and MRR % (488.25) was noted from the plots seeded with 120 kg ha -1 seed rate and fertilized with 120 kg N ha -1 , while maximum leaf area index (1.57) was recorded from the plots seeded with 120 kg ha -1 and fertilized with 80 kg N ha - 1 . Similar trend was observed in 2004-05 and in two year average The 4 th experiment was conducted to study the response of different wheat varieties to various seed rates. The experiment consists of five different wheat varieties (V 1 = Nasir - 2k, V 2 = Salim - 2k, V 3 = Bakhtawar-92, V 4 = Fakhre-e-Sarhad and V 5 = Lucky J-03) were sown at five various seed rates (S1 = 60 kg ha -1 , S 2 = 80 kg ha -1 , S 3 = 100 kg ha -1 , S 4 = 120 kg ha -1 and S 5 = 140 kg ha -1 ). Data recorded from the varieties treatments revealed that maximum tillers m -2 (377.30), leaf area index (4.10), grains spike -1 (68.05), 1000-grain weight (45.24 g), grain yield (4022.50 kg ha -1 ), biological yield (16660.92 kg ha -1 ), net income (Rs. 61921.00), BCR (4.99 %) and MRR % (499.49) was noted from the plots sown with variety Fakhre Sarhad . The same trend was followed during 2004-05 and pooled data. Statistical analysis of the data also revealed that seed rates were significantly affected all parameters except biological yield and harvest index. It can be inferred from the data showed that maximum ((369.20) tillers m -2 , grains spike -1 (65.30), leaf area index (4.03), 1000-grain weight (45.30 g), grain yield (4222.80 kg ha -1 ), biological yield (15030.53 kg ha -1 ), net income (Rs. 62119.00), BCR (5.18 %) and MRR % (518.03) was noted from the plots seeded with 120 kg ha -1 . In 2004-05 and in two years average, almost the same trend was observed. In case of interaction between varieties and seed rate it was observed that maximum (420.25) tillers m -2 , leaf area index (4.79), grains spike -1 (74.00), 1000-grain weight (47.33 g), grain yield (4676.25 kg ha -1 ), biological yield (19535.16 kg ha -1 ), net income (Rs. 66863.00), BCR (5.47 %) and MRR % (546.95) was noted from the plots sown with Fakhre Sarhad and seed rate was used @ 120 kg ha -1 . Similar trend was observed in 2004-05 and in two year average. Identical results were observed during 2004-05 and mean of both years.