مقاصد الإسلام في تحقيق السلام

This research focused on highlighting the purposes of Islam in achieving peace. This paper explains how Islam is the religion of peace and security for the worlds. Its provisions, legislations and purposes ensured all mankind the right to security and security of all kinds: Psychological security, financial security, social security and other types of security which ensure that humanity can live in peace. This is without any kind of these securities being subjected to any slight aggression, sabotage, deprivation or injustice, and if any of that happens then it would be a manifestation of violence and terrorism that is neither accepted nor recognized by Islam which is the religion of peace. The research has shown that Islam has preceded all international laws and norms with respect to the legalization of human rights in peace and war times alike and the sanctioning of those who violate them in this world and in the Hereafter. This is done with supporting evidence from the Quran, the Sunnah, the work of the leaders of Muslim Ummah throughout the Islamic centuries, and the testimonies of non-Muslims who have lived the mercy of Islam and come to know the observance of Islam of human rights. The aims of the research are: To demonstrate the legitimate purposes that Islam has brought to preserve human dignity and security. To show the precedence and superiority of Islamic law in the field of human rights care. To highlight the rich Islamic heritage of human values and civilization through the rules of humanitarian dealing in Islamic jurisprudence in war and peace, and the contributions of the purposes of the Sharia in the development of rules for the preservation of rights and freedoms.

Improving the Performance of Water- Saving Rice Production Systems by Boron Application

Studies on evaluating the potential of boron application in improving the performance of water saving rice cultivation were conducted in the Seed Science Laboratory, net house and Agronomic Research Area, Department of Agronomy, University of Agriculture, Faisalabad, Pakistan. In the lab and net house studies, rate of boron application as seed priming, foliar treatments, seed coating and soil application was optimized to improve the performance of rice cultivars Super basmati and Shaheen basmati following completely randomized design in factorial arrangement with five replications. In the field study, experiment was conducted in randomized complete block design with split plot arrangement having net plot size of 8 m x 2.2 m with three replications. Seed priming in 0.001 and 0.01% B solutions improved the time to 50% germination, germination energy, final germination percentage, mean germination time and germination index, leaf emergence and elongation and tiller appearance. Leaf chlorophyll contents were significantly improved by boron especially with 0.001% concentration. Similarly, water relations and different yield contributes of rice cultivars were also improved by boron priming. Boron seed coating also improved the leaf emergence and elongation, and tillering in both rice cultivars. Leaf chlorophyll contents were significantly improved by boron seed coating. Similarly, water relations, growth and yield contributing parameters of rice cultivars were also improved by seed coating with 2-3 g boron kg-1 seed. Soil and foliar applied boron also improved the growth, leaf elongation, tillering, leaf chlorophyll contents, water relations and yield related traits of both rice cultivars. However, soil application at 1 kg ha-1 and foliar application of 0.75 M boron were more effective. Pre-optimized boron treatments, including priming with 0.001% boron, soil application at 1 kg ha-1 and foliar application of 0.75 M boron solution, were applied to rice crop raised by conventional flooding, aerobic culture and alternate wetting and drying. Boron application methods improved water relations, chlorophyll pigments, leaf area index, leaf area duration, crop growth rate, net assimilation rate, different growth and yield related traits of both rice cultivars. Boron application also accelerated the phonological events of both rice cultivars. In addition to improvement in growth and yield, boron application also improved the kernel quality of tested rice cultivars. Normal kernels, kernel length and kernel water absorption ratio were improved by boron application. Similarly boron application substantially enhanced the net benefits and marginal rate of return. Boron application methods improved the efficiency of different production systems, however, soil application in flooded rice, foliar application in alternate wetting and drying and seed priming with boron were more effective.