Search from the Journals, Articles, and Headings
Advanced Search (Beta)
Loading...
Loading...
Loading...
Loading...
Loading...
Loading...

ارشاد ڈیروی دی منقبت نگاری

ارشاد ڈیروی دی منقبت نگاری

شاعری وچ حمد، نعت ، منقبت تے مدح تعریف و توصیف لئی ورتے جاندے نیں تے لغوی  اعبار نال ہم معنے نیں ، پر اصطلاحی معنی وکھو وکھ نیں تے ایہناں دی ورتوں ممدوح دے اعتبار پاروں ہوندی اے، جویں جے ممدوح ربی ذات ہووے تاں حمد اے ، جے رسول اللہﷺ دی ذات ہووے تے نعت، جے کر صحاباکرامؓ   ، اہل بیعتؑ تے بزرگانِ دین نیں تے ایہناں لئی منقبت دا شبدورتیا جاوے گا، تے جے کر ہور کوئی مشہور شخصیت ہووے تے اوس لئی مدح شبددی ورتوں کیتی جاوے گئی، ڈاکٹر رفیع الدین اشفاق لکھدے نیں!

’’اصطلاح میں اگر آنحضرتﷺ کے سوا کسی دوسرے بزرگ یا صحابی یا امام کی تعریف کی جائے تو اسے منقبت کہیں گئے‘‘۔

اعجازاللغات جدید ، دے ص ا۶۸۵ اُتے لکھیا اے!

’’مناقب(م، ن، قب) مذکر، منقبت کی جمع اہل بیعت یا صحابہ کی مدح ، تعریف خوانی، منقبت ، تعریف وتوصیف ، صفت وثناء ، اصلاح میں وہ تعریف جو اہل بیعت یا صحابہؓ کی شان میں ہو‘‘

وارث سرہندی اپنی لغت اندر لکھدے نیں!

’’منقبت:(۱)کوئی چیز جس پر انسان فخر کرے یا جو اسے ممتاز بنائے ۔‘‘

(۲)تعریف، توصیف ، ثناء خصوصاً اہلِ بیعت اور صحابہ کی ۔

منقبت، صفت ، تعریف نظم وچ ۔

وکھو کھ زباناں وچ منقبت ،لئی ایہہ شبدور تے جاندے نیں!

’’پشتو، پنجابی تے کشمیری وچ ’’صفت‘‘، سندھی ’’منقبت‘‘ ، بلوچی وچ ’’سپت‘‘۔

منقبت دا سرنانواں صرف اوہ وڈیاں دینی ہستیاں ای بن سکدیاں نیں ، جہناں وچ ایہہ دو خوبیاں موجود ہوون!

۱۔ اوہ قوم دی  پیشوائی دا فرض ادا کرسکدے...

بیسویں صدی كے مكالمات بین المذاہب كا تنقیدی جائزہ

Dialogue is a medium of human understanding. Through dialogue one can express himself clearly. In the modern times human civilization is globally facing so many challenges. In this situation inter-faith dialogue can bring peace in the world. Because it is dialogue which help men understand each other and bring them close to each other. But in the contemporary period inter-faith dialogues have almost failed to achieve the noble targets. This article seeks to disclose why inter-faith dialogues have so far proved meaningless.

Eco-Physiological Responses of Velvet Bean Mucuna Prurien to Inoculation With Rhizobacteria Containing Acc-Deaminase under Drought Stress

Water scarcity represents a significant challenge to agriculture in Pakistan and globally. Further, climate change has been altering the rainfall intensity, pattern and distribution causing extreme weather events. Water inadequacy causes ethylene production in plants which impedes root development and decreases the ability of plants to absorb more water and nutrients. Moreover, ethylene works as a root to shoot stress signal and affects the plant physiological responses toward drought conditions. There are certain rhizobacteria that have ACCd enzymatic ability to reduce stress ethylene synthesis and enhance root growth. The current study examines the effect of ACCd containing rhizobacteria on velvet bean growth and physiological responses under drought stress. In this study 253 strains were initially isolated from velvet bean rhizosphere, 142 (56%) of the strains could utilize ACC as the only nitrogen source. Various laboratory scale experiments were carried out for further bacterial screening for ACCd activity and plant growth promotion of velvet bean seedlings, particularly root growth under axenic conditions. During plant growth experiments few ACCd containing strains were effectual in enhancing root growth (30 – 40% over control) under well watered and stressed conditions. On the basis of plant growth promotion, the best performing isolates were used in pot experiments with continuous water stress. Inoculation caused significant increase in root and shoot growth of stressed plants. The classical triple response bioassay and ex-situ ACCd analysis confirmed the microbial ability to metabolise ACC, which induced that selected strains were capable of reducing ethylene production. Isolates showed significant decrease in ethylene release (more than 50% over control) from leaves and roots of stressed xviii plants. In a second pot experiment, two rhizobacterial strains (G9 and HS9) were used as a consortium with continuous water stress. Co-inoculation enhanced the shoot and root biomass (90% and 40% respectively over control) under both well watered and water stressed conditions. ACCd active co-inoculation significantly increased the stomatal conductance, photosynthesis rate, internal carbon dioxide (Ci), and overall plant water use efficiency compare to uninoculated stressed plants. Consequently co-inoculated plants were more resistant to drought by maintaining their gas exchange and photosynthetic processes. Co-inoculation significantly decreased leaf and root ACC concentration (nmol g-1) and ethylene release (nl h-1 g-1) relative to un-inoculated stressed plants. The emission of various BVOCs was increased with stress conditions regardless of bacterial inoculation. Isoprene release increased as drought became severe but showed inhibition at severe drought stress. High microbial root colonization was observed in stressed plants having more ACC in the rhizosphere. The best strains in the consortium were closely related with families of the Genus Bacillus and Enterobacter. The selected strains were effective and consistent for reducing the drought inhibitory effect and could be a beneficial approach to enhance plant growth and crop yield under water limited conditions. There use would be a valuable environmentally friendly approach to decrease ethylene and emission and enable plants to endure water stress condition
Asian Research Index Whatsapp Chanel
Asian Research Index Whatsapp Chanel

Join our Whatsapp Channel to get regular updates.